Environmental Assessment Report

Initial Environmental Examination for SH-19: Pichore––Mungawali–Ondere–Kurwai Project Road Project Number: 43063 November 2010

IND: State Roads Project III

Prepared by Government of Madhya Pradesh for the Asian Development Bank (ADB).

The initial environmental examination is a document of the borrower. The views expressed herein do not necessarily represent those of ADB’s Board of Directors, Management, or staff, and may be preliminary in nature.

Table of Contents Executive Summary …………………………………………………………………………vii 1. INTRODUCTION 1 1.1. Project Background/Rationale ...... 1 1.2. Project Preparatory Technical Assistance (PPTA) and Environmental Assessment ...... 2 1.3. Purpose of the Study ...... 2 1.4. Extent of IEE ...... 3 1.5. IEE Content ...... 3 1.6. Team Composition and Acknowledgements ...... 3 1.7. Methodology ...... 3 1.7.1. Information/ data Sources ...... 4 1.7.2. Public Consultation ...... 5 2. POLICY, LEGAL AND ADMINISTRATIVE FRAMEWORK 6 2.1. Country’s Legal Framework and Regulatory Requirements for the Project ...... 6 2.2. Environmental Clearance Process ...... 7 2.3. Administrative Structure and the Interactive framework ...... 8 3. DESCRIPTION OF THE PROJECT 10 3.1. Project Location ...... 10 3.2. Characteristics of the Existing road ...... 11 3.3. Category of the Project ...... 15 3.4. Need for the Sub-Project ...... 15 3.5. Existing and Projected Traffic ...... 16 3.6. Key Rehabilitation and Reconstruction Activities ...... 17 3.7. Material required and Sourcing ...... 24 3.8. Project Implementation Schedule and Cost ...... 26 4. DESCRIPTION OF THE ENVIRONMENT 27 4.1.1. Meteorology and Climate ...... 28 4.1.2. Air and Noise Quality ...... 29 4.1.3. Topography and Geomorphology ...... 30 4.1.4. Geology/Soil ...... 30 4.1.5. Seismicity ...... 31 4.1.6. Land use ...... 32 4.1.7. Hydrology and Drainage ...... 33 4.1.8. Groundwater ...... 35 4.1.9. Surface water ...... 36 4.2. Ecological Resources ...... 37 4.2.1. Terrestrial Ecology ...... 37 4.2.2. Aquatic Ecology ...... 46 4.3. Socio-Economic Environment ...... 46 4.3.1. Economic Progress ...... 46 4.3.2. Infrastructure Facilities ...... 47 4.4. Social and Cultural Resources ...... 48 4.4.1. Population and Communities ...... 48 4.4.2. Literacy ...... 49 4.4.3. Occupational Status ...... 50 4.4.4. Current use of lands and resources for traditional purposes by Indigenous Peoples ...... 50 ii

4.4.5. Structures or sites of historical, archaeological, paleontological, or architectural significance ...... 51 5. ANTICIPATED ENVIRONMENTAL IMPACTS AND ITS MITIGATION MEASURES 52 5.1. Impact on Physical Environment ...... 52 5.1.1. Climate ...... 52 5.1.2. Natural Hazard ...... 53 5.1.3. Air Quality ...... 53 5.1.4. Noise ...... 54 5.1.5. Impact on Land and Soil ...... 57 5.1.6. Groundwater ...... 60 5.1.7. Siltation and Surface Water Quality of Rivers and other Water Bodies ...... 60 5.1.8. Hydrology and Drainage ...... 62 5.2. Impact on Biological Environment ...... 63 5.2.1. Terrestrial Ecology ...... 63 5.2.2. Aquatic Ecology ...... 69 5.2.3. Fauna ...... 69 5.3. Management of Construction Debris/Waste ...... 69 5.4. Socio-Economic Impact ...... 70 5.4.1. Positive Impacts ...... 70 5.4.2. Anticipated Negative Impacts ...... 70 5.4.3. Obstruction and Disruption of Traffic ...... 73 5.4.4. Transportation and Storage of Materials ...... 74 5.5. Cumulative and Induced Impact ...... 78 6. PUBLIC CONSULTATION AND INFORMATION DISCLOSURE 79 6.1. Consultation Method and Information Disclosed ...... 79 6.2. Compliance with Relevant Regulatory Requirements ...... 79 6.3. Beneficiaries’ Comments ...... 82 7. ENVIRONMENTAL MANAGEMENT PLAN AND GRIEVANCE REDRESS MECHANISM 86 7.1. Environmental Management Plan ...... 86 7.1.1. Social Development and Indigenous People Development Program (IPDP):86 7.1.2. Emergency Response Plan ...... 86 7.2. Environmental Monitoring Program (EMoP) ...... 86 7.2.1. Monitoring schedule and performance indicator ...... 87 7.2.2. Authorities and their Responsibilities for Implementation of EMoP ...... 88 7.3. Institutional Setting and Proposed Implementation Arrangement ...... 88 7.3.2. Institutional / Capacity Building ...... 92 7.4. Grievance Redress Mechanism ...... 94 8. CONCLUSIONS AND RECOMMENDATIONS 95 8.1. Conclusions ...... 95 8.2. Key Recommendations: ...... 97

List of Tables Table 1.1 : Road Sections under MP State Highways III Project ...... 1 Table 1.2 : Primary and Secondary Information Sources ...... 4 Table 2.1 : Permissions/Clearances Required for the Sub-Project ...... 6 Table 3.1 : Carriageway Details ...... 12 Table 3.2 : Road Stretches for Reconstruction ...... 13 Table 3.3 : List of Major and Minor Intersections ...... 14 Table 3.4 : ADT of Project Road ...... 16 iii

Table 3.5 : Summary of Projected Traffic for the Project Road ...... 16 Table 3.6 : Details of Existing Carriage Way with Widening Proposal ...... 19 Table 3.7 : Cement Concrete Lined Drain ...... 20 Table 3.8 : Crash Barrier Location ...... 21 Table 3.9 : Provision of Proposed Lighting in the Project Section ...... 22 Table 3.10 : Bus Stop Locations ...... 22 Table 3.11 : Stone Pitching ...... 23 Table 3.12 : List of Borrow Area ...... 25 Table 4.1 : Summary of Important Features of the Project Districts ...... 27 Table 4.2 : Monthly Rainfall data (mm) in the project districts for the last five years ...... 29 Table 4.3 : Ambient Air Quality Along the project section (24 Hourly) ...... 29 Table 4.4 : Noise Level in dB (A) Along the Project Corridor ...... 30 Table 4.5 : Physiochemical Characteristics of soil in the project road ...... 31 Table 4.6 : Land Use Pattern in the State ...... 32 Table 4.7 : Land Use Pattern along the project road...... 32 Table 4.8 : List of Surface Water Sources Along/Across Project Corridor ...... 34 Table 4.9 : Groundwater Quality Along the Project Corridor ...... 36 Table 4.10 : Surface Water Quality of the river in project area ...... 36 Table 4.11 : Forest details along the project road ...... 38 Table 4.12 : List of Reserve and Protected Forest along the Alignment ...... 39 Table 4.13 : List of Plant Species in the Study Area ...... 40 Table 4.14 : List of Fauna in the Study Area ...... 43 Table 4.15 : List of reptiles in the study area ...... 43 Table 4.16 : List of Butterflies in the study area ...... 44 Table 4.17 : List of Avifauna found in the Study Area ...... 44 Table 4.18 : Tree along Project Road (within 20 m width)...... 45 Table 4.19 : Demographic Profile of the State and the country ...... 48 Table 4.20 : List of villages in the project road ...... 48 Table 5.1 : List of Noise- Sensitive Locations along the Alignment ...... 55 Table 5.2 List of Trees to be Cut ...... 63 Table 5.3 : Common Property Resources Along the Alignment ...... 75 Table 6.1 : Summary of Consultation with Government Officials ...... 80 Table 6.2 : Summary of Consultation with NGOs ...... 81 Table 6.3 : Consultation with local community ...... 83 Table 7.1 : Roles and Duties of Implementing Agency/Organisations ...... 89 Table 7.2 : Combined Training Budget for MPSRP II ...... 93

List of Figures Figure 2.1 : Environmental Clearance Procedure in ...... 8 Figure 2.2 : Legislative Interface among various regulatory bodies ...... 9 Figure 3.1 : Location Map of SH-19 ...... 10 Figure 3.2 : Connectivity to the project Road ...... 11 Figure 3.3 : Typical Cross section of the project Road ...... 18 Figure 4.1 : Hazard and Seismic Zone Map ...... 32 Figure 4.2 : Drainage Map of the Project Section ...... 35 Figure 4.3 : Forest Cover Map of Madhya Pradesh ...... 38 Figure 4.4 : National Parks and Sanctuaries in Madhya Pradesh ...... 42 Figure 4.5 : Demographic Status of the Project Section ...... 49 Figure 4.6 : Literacy rate along the project section ...... 50 Figure 4.7 : Occupational status Along the Alignment ...... 50 Figure 7.1 : Proposed Structure for EMP/EMOP Implementation ...... 91

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List of Appendix Appendix 3.1 : Inventory and Survey Condition of Bridges ...... 98 Appendix 3.2 : Rapid Environmental Assessment Checklist ...... 99 Appendix 3.3 : Forest Clearance ...... 103 Appendix 3.4 : Details of Chainage-wise Existing and Proposed Design Speed and Curve Radius ...... 105 Appendix 4.1 : National Ambient Air Quality Standards ...... cix Appendix 4.2 : Ambient Noise Level Limits (In Leq dB(A)), India ...... 110 Appendix 4.3 : Drinking Water Standards And Probable Effects on Human Health (BIS: IS: 10500, 1991) ...... 111 Appendix 4.4 : Water Quality Criteria And Standards for Freshwater Classification (CPCB, 1979) ...... 114 APPENDIX 5.1: Guidelines for Borrow Areas Management ...... 115 Appendix 7.1: Environmental Management Plan (SH-19: Pichhore-Chanderi-Mungawli- Kurwai 147.38 km) ...... 119 Appendix 7.2: Monitoring Plan for the Performance Indicators ...... 141

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Map 1: Location Map of MP State Highways Project

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Map 2: Location Map of SH-19: Pichore – Chanderi – Mungawali – Ondere – Kurwai Project Road vii

EXECUTIVE SUMMARY

Introduction 1. Madhya Pradesh, with abundant mineral resources, and growing agricultural and industrial production, need a well developed road network to cater to the increasing intra-state and regional traffic. Also, since it is centrally located within the country, most of the long haul north-south and east-west bound road traffic passes through the state. Therefore, the existing inadequate and damaged road infrastructure needs to be improved on priority to sustain the economic and social progress of the state. The improved road network with good interlinking between national, state highways and major district roads will not only contribute in significantly developing rural economy and reducing poverty but also increase the road capacity to cater the high projected traffic, reduce travel time and also contribute for lesser vehicular pollution emission. 2. Madhya Pradesh Road Development Corporation (MPRDC), the executing agency (EA), is responsible to provide an integrated transport system in the state that is safe, efficient, affordable, accessible to all and environmentally sustainable. As per its mandate, MPRDC plans to improve various major district roads to at least two lanes carriage way level with funding support from Asian Development Bank (ADB). 3. To address this problem, Government of Madhya Pradesh (GOMP) has approached ADB for financial assistance for improving a total of 15 state roads covering a length of about 1081 kms under Madhya Pradesh State Highways III Project (MPSRSP III) programmed to be processed for implementation in 2010.The project also includes the institutional strengthening of the road sector under separate TA 7198(IND) which will enhance EA’s capacity for road asset development and management.

Description of Project 4. The proposed upgrading/rehabilitation of the State Highway-19 Pichhore- Chanderi-Mungawli-Onder-Kurwai Sub-project, one of the 15 state highway subprojects, is divided into three sections, the Pichhore-Chanderi section in and covering 47.5 kms, passing through existing Chanderi Bypass (16.0 kms) and finally ending at Chanderi-Kurwai section covering 82.999 kms. The subproject will upgrade the existing bad to very bad road condition into a paved 2-lane divided carriageway configuration with improved road geometry, proper and adequate embankment, rehabilitation of existing bridges, adequate cross drainage structures and side drains, improvement of junctions/intersections, underpasses, and way side amenities. This road design will be adequate to cater to the volume of traffic until 2030 which is predicted to increase from the current range of 1227-2030 to 7923- 14371 vehicles (average annual daily traffic). The sub-project will be implemented in 18-24 months with an estimated cost of INR 1641 Million. 5. The sub-project was classified as Category-B as provided in the ADB Safeguard Policy Statement (2009) based on screening of likely impacts and sub-project location which does not pass through or located near any national park, wildlife

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sanctuary, or any other ecologically sensitive or protected areas. No archaeological/protected monument is located in the project vicinity. Under the EIA Notification, 2006 promulgated under Environment (Protection) Act 1986, the subproject is categorised as Category ‘B” and does not require prior environmental clearance from State Environmental Impact Assessment Authority (SEIAA)1. 6. IEE was conducted based on Detailed Project Report and sub-project details provided by the design team during the preparation of this report. The IEE covers all activities proposed under the project including various bridges and cross- drainage structures constructions. The core zone of impact is taken as 100 meters either side of the alignment. However, the study area impact zone is considered up to 7 km on both sides of road alignment to allow for a larger analysis of landuse and other environmental features.

Description of Environment 7. The Sub-Project passes through 3 districts – Shivpuri, Ashok Nagar and and has sub-tropical climate. May-June is the hottest month with daily maximum temperature of above 40 °C while January is coolest with minimum temperature of 5 °C. The wind speed in the region is mostly low (< 2 m/s) in almost all the months. The higher wind speeds are observed during monsoon season (June- July). The predominant wind direction is reported as West to North-West. The weather remains dry for all the seasons except monsoon when the humidity is around 85%. Among the three districts, Vidisha receives the maximum rainfall (1169 mm) which occurs between the months of June to September as a result of south west monsoon. 8. Most of the project area lies in vast open agricultural land and is largely free from air pollution and noise generating sources. The topography of the subproject area is marked by elevated plains and few low altitude isolated hills. The project section can be bifurcated into three main geological divisions namely – the Trap, the Upper Vindhyas and the Deccan Trap: The ground elevations in the area vary between about 383 m (Kurwai Block) in the northeast and about 550 m ( Block) in the northwest part of district. The hilly regions have a cover of murrum, which is made up of small rounded pieces of weathered trap. In this region the main classes of soil are black, brown and bhatori (stony) soil out of which the black cotton soil covers almost three fourths of the area. The alluvial soils are found along the river courses. The project area is mainly covered by sandy clay loam soil with good organic content. 9. The predominant land use of the of the project districts is agricultural. Landuse/land cover of the proposed sub-project corridor is predominantly agricultural (nearly 48%) followed by Forests (28%). Built-up Area constitutes about less than 10% and rest is occupied for plantation, water bodies, community property resources, and miscellaneous use. 10. There are several canals and drains cutting across the project alignment. The major rivers crossing the project area are Kethan, and Sehrai River, out of which only Budhni is found to be perennial as per the physical verification. The

1 The EA has yet to formally approach MoEF for formal categorisation and grant of environmental clearance.

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ground water availability along the project road area is poor. The depth of water table goes below 200 feet during summer season. Most of the wells become dry except in monsoon season. The water quality of these rivers is suitable for irrigation- Class D and propagation of wild life and fisheries -Class-E. 11. Madhya Pradesh is endowed with rich and diverse forest resources. In the project section about 22.5 km of the road alignment is passing through forest areas which are of both Reserve and Protected forest category. These forests are mainly tropical moist and tropical dry in nature. There are altogether 25 wildlife-sanctuaries and 9 national park in the state. None of them is located in the project area. No other similar eco-sensitive areas is either crossed or located nearby the project alignment. Since most part of the project corridor passes through open agricultural land, large number of roadside trees is not affected considering to the length of the project road. Trees along roadside are mainly non-fruit bearing in nature whereas privately owned orchards are mostly comprised of fruit bearing trees. The project section is dominated by species such as mango, teak, neem, jamun, palas, saja, seasam, mahua etc. About 176 of these trees will be removed along the ROW. Herbivores like Black Bug, Chital and Blue Bull have temporary movements in the surrounding agriculture fields as informed by the local people. 12. Despite abundant water bodies in the project area, large scale/organized fishing was not observed along the project road due their seasonal behaviour. There is no breeding or spawning ground of these species in any of the water bodies in the project area since the water availability and flow velocity is quite low and unfavourable for breeding. No migratory fishes are found in these rivers. 13. The economy of Madhya Pradesh is based on agriculture, forest products, industries, mineral resources, and cottage industry sectors. The agriculture along the project section is dominated by Oilseed (Soyabeen in particular). The state is one of the largest producers of cement in the country. The major industries in the state are- cement, Pig Iron, Steel Ingots, News Prints and Sugar mills. The total number of households in the villages of the project road is 10,953 with a total population of 63,335. Out of these, about 75% is general. The SC/ST population accounts for about 25% of the total population. The project road passing through three districts of Madhya Pradesh covering 31 villages have total literacy rate of 47.6%. The population of literate male (59.6%) is comparatively higher than female. Maximum percentage of the workers is in the agriculture sector as cultivators or agricultural labourers. The total agriculture labour comprise of 61.6% of the total working class population. Tribal population in the project area is very low (6% in the project area).

Public Consultation and Information Disclosure 14. All pre-construction, construction, and operation activities that were likely to cause environmental impacts were identified, and evaluated to assess their magnitude, duration, and potential receptors in consultation with the stakeholders. Consultations were made with the government representatives (District Forest Office, State Pollution Control Board, Water Resources Department, Directorate of Economics and Statistics, and the District Rural Development Authority), local communities (Mehlua, Mungawli, Sehrai, Chakeri, Chanderi, Bahadurpur, Vikrampur, Pichhore), and NGOs ( Yuwa

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Paryavaran Shikshan and Samajik Sansthan, Ecosake Society for Environment Conservation and Social Awareness, Green Heart Nature Club, Forum for Environmental Protection, Energy Environment and Development Group, Centre for Envirocare and Energy Technology) between April to June 2010.

Anticipated Environmental Impacts and Mitigation Measures 15. The significant impacts during design and construction stage include the constricted sections of the roads which will be by-passed or require road alignment improvement to avoid and minimize resettlement and other sensitive structures and locations particularly in Bahadurpur, Mungawli, Sehrai, Chanderi and Pichhore. Since the sub-project area is having mixed terrain, flood situation may get exacerbated due to inadequate cross drainage structures and raising of embankments without proper balancing culverts. An estimated 176 trees will be removed along the ROW to allow for road expansion but will be compensated at a rate of 1:10 plantations. Short-term deterioration of air quality may take place due to increase in fugitive dust emissions and noise level from earthmoving, ground shaping, unpaved transport, and emissions from heavy equipment and other mobile sources. Water sprinkling to control dust, use of clean fuels, changing the location and timing of construction activities and maintenance of equipments will minimize these impacts. Land use conversion particularly of residential areas and relocation of structures within the ROW will only be implemented following a meaningful consultation and acceptable compensation and relocation agreements. All borrow areas will comply with national laws and regulations. Impacts from the establishment and operation of the construction camps like generation and disposal of solid wastes, sewage, potable water requirements, health/hygiene, and safety is part of the contractor’s responsibility highlighting the need for compliance with applicable laws. Waste and material use minimization will be promoted to decrease the volume of wastes that will be generated. Traffic safety to workers and pedestrian, particularly to children is considered through the strict implementation of a Traffic Control Plan to be prepared by the contractor prior to construction activities and in consultation with the affected communities. 16. During operation stage, the main impacts are on the surface water hydrology since the construction of a road crosses several river/rivulets in the flood-affected sections which can act as impediment to natural flow of water. Other issues relate to increase in mobile emissions, road safety to motorist, pedestrian and animals. To minimize the impact on the local hydrology, adequate cross drains and their proper maintenance will be implemented. Information and education campaign through the use of signs and posters distributed along the roadside encouraging motorist to properly maintain their vehicles, and proper driving habits to reduce emissions, reduce fuel consumption, and promote safety will be made. Finally, traffic control measures will be implemented to ensure safety to pedestrian.

Conclusion 17. In general, the sub-project received immense support from local people with some concerns and apprehensions related to compensation for land and safety xi

on roads. The local people appreciated that besides providing an all weather efficient connectivity to large population and improving the traffic scenario in the region, it will bear out several other positive economic and social benefits which outweigh the negative environmental impacts. 18. This initial environmental examination (IEE) ascertains that the sub-project is unlikely to cause any significant environmental impacts. Few impacts were identified attributable to the proposed sub-project, all of which are localized and temporary in nature and can be easily mitigated with minor to negligible residual impacts. No additional studies or need of undertaking detailed EIA is envisaged at this stage.

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1. INTRODUCTION 1.1. Project Background/Rationale 19. Madhya Pradesh, with abundant mineral resources, and growing agricultural and industrial production, need a well developed road network to cater to the increasing intra-state and regional traffic. Also, since it is centrally located within the country, most of the long haul north-south and east-west bound road traffic passes through the state. Therefore, the existing inadequate and damaged road infrastructure needs to be improved on priority to sustain the economic and social progress of the state. The improved road network with good interlinking between national, state highways and major district roads will not only contribute in significantly developing rural economy and reducing poverty but also increase the road capacity to cater the high projected traffic, reduce travel time and also contribute for lesser vehicular pollution emission. 20. Madhya Pradesh Road Development Corporation (MPRDC), the executing agency (EA), is responsible to provide an integrated transport system in the state that is safe, efficient, affordable, accessible to all and environmentally sustainable. As per its mandate, MPRDC plans to improve various major district roads to at least two lanes carriage way level with funding support from Asian Development Bank (ADB). 21. Government of Madhya Pradesh (GOMP) has approached ADB for financial assistance for improving a total of 15 state roads covering a length of about 1081 kms under Madhya Pradesh State Highways III Project (MPSRSP III) programmed to be processed for implementation in 2010. The road sections details under MPSRSP III are given in Table 1.1

Table 1.1 : Road Sections under MP State Highways III Project

S. Road SH Length Districts Name of Roads No. No. No. (KM) I. BHOPAL PACKAGE 1 1 Bhind-Ater-Porsa SH-2 60.85 Bhind –Morena Mihona-Lahar-Daboh-- 2 2 SH-45 85.70 Bhind- Chirgaon Shivpuri - Pichhore-Chanderi-Mungawali-Onder- 3 3 SH-19 146.50 Ashoknagar- Kurwai Vidisha 4 7 Manawar-Mangod SH-38 49.63 Dhar 5 9 Sardarpur-Rajgarh-Bagh SH-35 50.43 Dhar Shajapur- 6 10 Agar-Barod-Alot-Jawara SH-41 108.70 Ratlam-- Pachor-Chapikheda--- Rajgarh- 7 11 SH-51 86.70 Soyat Shajapur 8 13 Badi-Baktar-Dobi-Shahganj-Budhni SH-15 58.78 - 9 14 Silwani- Road SH-44 28.58 Raisen Total (Bhopal Pkg) 675.87

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S. Road SH Length Districts Name of Roads No. No. No. (KM) II. PACKAGE 10 16 Rahatgarh-Khurai-Khimlasa SH-42 47.48 Sagar -Hata-Gasiabad i/c Hata Town 11 18 SH-47 62.66 Damoh Portion Hata-Patera-Kumhari & Raipura- Damoh-Panna- 12 19 SH-48 91.28 Salaiya-Bahuribandh-Sihora Katni-Jabalpur 13 20A Amarpatan-Gorsari-Badera SH-13 46.50 Satna-Katni Sundara-Singhpur-Kothi-Jaitwara- Panna-Satna- 14 21 SH-52 85.29 -Semaria Rewa 15 22 Sidhi-Beohari SH-55 71.29 Sidhi-Shahdol Total (Jabalpur Pkg) 404.49 Grand Total (Bhopal Pkg + Jabalpur 1,080.36 Pkg) Source: MPRDC

1.2. Project Preparatory Technical Assistance (PPTA) and Environmental Assessment 22. ADB has fielded TA: 7198 IND to assist MPRDC Road Construction Department (RCD) in project preparation for possible financing of MPSRSP III. As a part of this TA and safeguard requirement of ADB, environmental assessment has been carried out in accordance with relevant country’s applicable laws, regulations and in consistent to ADB’s Environmental Assessment Guidelines, 2003 and Safeguard Policy Statement (SPS), 2009. Each sub-project was scrutinized as to its type, location, scale, and sensitivity and the magnitude of its potential environmental impacts. 23. The present report pertains to Pichhore-Chanderi-Mungawli-Onder- Kurwai (SH-19) sub-project. This sub project is categorized as Category ‘B’ and hence an initial environmental examination (IEE) has been undertaken. 1.3. Purpose of the Study 24. This IEE report documents the environmental assessment of the Pichor- Chanderi-Kurwai Road Subproject and identifies the environmental issues to be considered at project planning and design stage. The IEE addresses the environmental management requirements of (i) the (GOI); (ii) the donor, Asian Development Bank (ADB), and (iii) the Project. In general, an IEE addresses the following:

o Provides information about the baseline environmental setting of the subproject; o Provides information on potential environmental impacts of the proposed subproject activities with its magnitude, distribution and duration 3

o Provides information on required mitigation measures with cost to minimize the impacts o Analyses the alternatives options considering alternative locations, designs, management approaches, for selection of most feasible and environmental acceptable options. o Provides details of stack holders consultation o Suggest environmental management and monitoring plan with institutional measures for effective implementation of mitigative measures proposed. 1.4. Extent of IEE 25. IEE was conducted based on Detailed Project Report (DPR) provided by the design team during the preparation of this report. Certain changes may occur in the sub-project structural components but these changes are unlikely to cause significant environmental impacts. The IEE covers all activities proposed under the project including various bridges and cross-drainage structures constructions. The core zone of impact is taken as 100 meters either side of the alignment. However, the study area is considered up to 7 km on either side of road alignment for larger analysis of landuse and other environmental features. Assessment is carried out for all components of environment covering terrestrial and aquatic ecology, soil, water, noise and socio economic aspects. 1.5. IEE Content 26. The IEE has been largely structured as per SPS, 2009 and ADB’s Environmental Assessment Guidelines (2003). This includes following eight chapters including this introduction Chapter. • Chapter 1- Introduction • Chapter 2- Policy, Legal and Administrative Framework • Chapter 3- Description of Project • Chapter 4- Description of Environment • Chapter 5- Anticipated Impacts and Mitigation Measures • Chapter 6- Information Disclosure, Consultation, and Participation • Chapter 7- Environment Management Plan and Grievance Redress Mechanism • Chapter 8- Conclusion and Recommendation 1.6. Team Composition and Acknowledgements 27. The environmental assessment has been carried out by the team of the environmental Experts of EQMS India Pvt. Ltd. The environmental team acknowledges the support extended by the executing agency, design consultant, and state departments/agency of forest, water resources, and pollution control Board etc. 1.7. Methodology 28. Suitable methodology was adopted to accomplish the study. As the first step, project-scoping exercise was undertaken identifying the parameters needed to be considered for the study and to outline the activities for collecting data on each parameter. Data pertaining to all facets of

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environment viz. physical, ecological and socio-economic environment both through primary and secondary sources were collected. The stepwise activities includes: • Review of legal requirements • Review of feasibility study • Reconnaissance survey for identification of key issues data requirement and preliminary consultation. • Primary and Secondary data Collection • Consultation with stakeholders • Identification of Impacts and Mitigation measures • Institutional Review and finalization of EMP in consultation with EA. 1.7.1. Information/ data Sources Key relevant information sources has been summarised in Table 1.2.

Table 1.2 : Primary and Secondary Information Sources

Environmental Parameters Information Sources Project objectives, Technical Madhya Pradesh Road Development Corporation information on existing road (MPRDC) and Design Consultant features and proposed rehabilitation work Inventory of road features like Ground Physical surveys and Strip Plans by water Bodies, Community Design Consultant structures, environmentally sensitive locations areas, congested locations etc. Climatic Condition India meteorological Department, DPR, primary data collection Geology, Seismicity, Soil and Central Ground Water Authority, State of Topography Environment report published by SPCB, Government websites and primary data collection Land Use/ Land Cover Survey of India (SoI) Toposheet, Observation during survey and Satellite Imagery Drainage Pattern Survey of India Toposheet, water resources, field observation and local people, GIS Based land use analysis Status of forest areas. Divisional Forest Office, Shivpuri, Ashoknagar Compensatory afforestation and Vidisha norms etc. Status of Fishing Activity District Fisheries offices and Local Fishermen Air quality Noise, Soil and Water Onsite monitoring and analysis of field samples Borrow Areas, Quarries and other Design consultant and public consultation during construction material source field visit River geo-morphology, hydrology, Water resources department, DPR and drainage, flood patterns, information from local people, field observations Socio-economic Environment Different Govt. agencies/civic bodies, Official websites maintained by state Govt., census of India 2001 and Public Consultation during the Field survey, through figures collected from Directorate of Statistics. 5

1.7.2. Public Consultation 29. Extensive consultations were held with all stakeholders’ viz. local and beneficiary population, govt. departments/agencies, fishermen, road users and NGOs with intent to collect baseline information, for better understanding of the potential impacts and appreciate the perspectives/concerns of the stakeholders. Information thus gathered was used to integrate it in project design and formulating mitigation measures and environmental management plan. .

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2. POLICY, LEGAL AND ADMINISTRATIVE FRAMEWORK

2.1. Country’s Legal Framework and Regulatory Requirements for the Project 30. The legal framework of the country consists of several acts, notifications, rules and regulations to protect environment and wildlife. The Indian legal system has been critically reviewed to identify its applicability to the project. A list of all required clearances/ permissions related to environment has been summarised in Table 2.1.

Table 2.1 : Permissions/Clearances Required for the Sub-Project2

Concerned S.No. Clearances Acts/Rules/Notifications/Guidelines Responsibility Agency A. Pre-construction Stage Environmental EIA Notification, 2006 amended till State Not applicable Clearance3 date, promulgated under Environment Environmental for this (Protection) Act 1986 Impact particular road (not required Assessment stretch as it is 1 for this Sub- Authority an expansion Project) (SEIAA)4. of existing road and no new by- passes are to be constructed Permission for Forest Conservation Act (1980) District Level felling of trees Procedural Guidelines developed by Committee the Department of Environment GoMP, constituted by 2 MPRDC under the orders of the Hon’ble High the State Court; Tree removal will be guided as Govt. per state government rules. B. Implementation Stage

2 Since this project is not passing through any protected areas or ground water authority notified areas, therefore the following list of laws will not be applicable to this project. a. Central Ground Water Authority b. Wildlife (Protection) Act 2002 and rules thereof c. The Ancient Monuments and Archaeological Sites and Remain Act 1958/Rules 1959

3 This Particular clearance is applicable to all new road projects as mentioned underneath. However for this road stretch as it is expansion of existing road and no bypasses are being constructed so this clearance is not applicable. The Notification and its latest amendment entails requirement of prior environmental clearance to the following road projects. Category A -i) New National High ways; and ii) Expansion of National High ways greater than 30 km, involving additional right of way greater than 20m involving land acquisition and passing through more than one State. Category B-ii) All State High ways; and ii) Expansion projects in hilly terrain (above 100 m mean seal level (msl) and or ecologically sensitive areas)

Note: A general condition applies to both of the above category: “Any project or activity specified in Category ‘B’ will be treated as Category A, if located in whole or in part within 10 km from the boundary of: (i) Protected Areas notified under the Wild Life (Protection) Act, 1972, (ii) Critically Polluted areas as notified by the Central Pollution Control Board from time to time, (iii) Notified Eco-sensitive areas, (iv) inter-State boundaries and international boundaries”. 4 The SEIAA has varying opinion about its applicability. EA propose to take official confirmation about applicability of this notification. EA will obtain the environmental clearance in case SEIAA directs about the same. 7

Concerned S.No. Clearances Acts/Rules/Notifications/Guidelines Responsibility Agency River Board Authorities/ Permission for Mines and Minerals (Regulation and Department of 3 Sand Mining Development) Act, 1957 as amended Contractor Mining Govt. from river bed in 1972 of Madhya Pradesh Consent to Madhya operate Hot mix Air (Prevention and Control of Pradesh 4 Contractor plant, Crushers, Pollution) Act 1981 Pollution Batching Plant Control Board Authorization Madhya for Disposal of Hazardous Waste (Management and Pradesh 5 Contractor Hazardous Handling) Rules 1989 Pollution Waste Control Board Consent for Madhya Disposal of Water (Prevention and Control of Pradesh 6 Contractor Sewage from Pollution) Act 1974 Pollution Labour camps Control Board Use of Fly ash within 100 kms Fly Ash Notification, 1999 as amended 7 MoEF Contractor around Thermal up to 17th August 2003: Power plants. Department of Pollution Under Transport, 8 Control Central Motor and Vehicle Act 1988 Govt. of Contractor Certificate Madhya Pradesh The Building and Other Construction Employing District Labour 9 Workers (Regulation of Employment Contractor Labour/workers Commissioner and Conditions of Service) Act, 1996,

2.2. Environmental Clearance Process 31. The environmental clearance is not applicable for this sub-project since expansion is confined along the existing road corridor with no new bypass. However, the procedure for obtaining environmental clearance has been depicted as Figure 2.1 for reference purposes only.

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Figure 2.1 : Environmental Clearance Procedure in India 2.3. Administrative Structure and the Interactive framework 9

32. The Government through specific legislations regulates the environmental management system in India. The MoEF and the pollution control boards (CPCB i.e. Central Pollution Control Board and SPCBs i.e. State Pollution Control Boards) together form the regulatory and administrative core of the part. Other Ministries/Statutory Bodies/departments responsible for ensuring environmental compliance and granting various clearances includes State ministry /Dept. of environment, regional offices of MoEF and state forests/wildlife departments. Their key roles and responsibilities and interface among them have been concisely depicted through the flow diagram in Figure 2.2.

Figure 2.2 : Legislative Interface among various regulatory bodies

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3. DESCRIPTION OF THE PROJECT 3.1. Project Location 33. The sub project road Pichore – Chanderi – Mungawali – Ondere – Kurwai a segment of SH-19 is 146.5 Km long and traverse through three districts Shivpuri, Ashoknagar and Vidisha of northern Madhya Pradesh. The Location map of project road and MP State Highway Projects is given as Figure 3.1. This project is important as it provides connectivity between SH-14, NH 86 and NH 25. (Refer Figure 3.2 for schematic view))

Figure 3.1 : Location Map of SH-19 11

Figure 3.2 : Connectivity to the project Road 3.2. Characteristics of the Existing road

34. Right of Way and carriage way width: The existing carriageway is a single, intermediate and two lane roads having flexible pavement with widths varying between 3.00 m to 7.0 m along the entire length of the project road. Right of Way (ROW) available for the entire project road is around 15m on either sides from road centre line except in built up areas and forest sections where it is around 7.5 m. The existing road has earthen shoulder of about 1.0 m to 1.5 m on either sides of the project road. Chainage wise carriageway widths are shown in Table 3.1.

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Table 3.1 : Carriageway Details Chainage Carriageway Remarks Shoulder Shoulder Start End Width Type Width Hard BT ( Black 31/100 32/800 7.00 Shoulder ( 1.50 Top) HS) 60/400 59/200 14.50 BT - - 59/200 20/300 7.00 BT HS 1.00 20/300 19/700 7.00 CC HS 1.00 19/700 14/600 7.00 BT HS 1.00 Earthen 175/800 163/400 7.00 BT Shoulder 1.00 (ES) Bypass Start at 163.400 Bypass HS 1.50 (existing) 3.75 Bypass End at 159.750 Length 3.600 HS 1.50 Km 159/750 146/750 7.00 BT HS 1.00 146/750 146/600 3.00 BT HS 1.00 146/600 124/720 7.00 BT HS 1.00 124/720 124/060 7.00 CC - - 124/060 120/530 7.00 BT HS 1.00 120/530 119/920 3.00 BT - - 119/920 116/210 7.00 BT HS 1.00 116/210 115/940 3.00 BT HS 1.00 115/940 108/800 7.00 BT HS 1.00 WBM(Water 108/800 108/670 5.00 Bound - - Macadam) 108/670 107/750 3.00 BT - - 107/750 102/450 7.00 BT ES 1.00 102/450 102/000 4.60 BT ES 1.00 102/000 97/570 3.00 BT ES 1.50 97/570 97/450 6.00 WBM ES 1.50 97/450 94/340 3.00 BT ES 1.50 94/340 93/800 5.50 BT ES 1.50 93/800 88/600 3.00 BT ES 1.50 88/600 88/350 5.50 BT ES 1.50 88/350 77/000 3.00 BT ES 1.50 77/000 76/800 5.50 BT ES 1.50 Source: DPR 35. Pavement and carriage way conditions: The pavement condition along the entire length of the road is generally fair to moderate. Riding quality is moderate. Mostly cracking exists throughout the road except in few stretches where pavement quality is good. Ravelling and potholes also exists at some locations. The existing crust at various stretches (refer Table 3.2) is in weak condition or inadequate and even frequent rutting, settlement, ravelling, poor riding quality and substantial pavement deflection is also seen at these stretches. Reconstruction is proposed at stretches with weak crust, or location where sub-grade failure is identified.

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Table 3.2 : Road Stretches for Reconstruction S. No. From To Length Pichore – Chanderi 1 51.800 51.400 0.400 2 41.000 36.700 4.300 3 36.400 20.400 16.000 4 18.550 14.600 3.950 5 175.800 175.000 0.800 Chanderi Bypass 6 159.7 163.4 3.700 Chanderi-Mungawali 7 157.040 156.140 0.900 8 147.430 147.000 0.430 9 147.000 146.780 0.220 10 140.000 139.850 0.150 11 139.400 139.100 0.300 12 129.470 129.270 0.200 Mungawali – Kurwai 13 120.330 119.950 0.380 14 116.200 115.950 0.250 15 108.760 108.720 0.040 16 101.200 100.400 0.800 17 100.150 93.750 6.400 18 93.250 77.000 16.250 Source: DPR 36. Alignment and Geometrics: There are many horizontal curves comprising very sharp turns which need to be improved to as per IRC 73 norms for State highway. Currently, an average travel speed of only 20km/hr can be maintained due to sub standards geometry. There is no coherence between horizontal alignment and vertical profile. Set back distances are almost non- existent at curve locations; especially at sharp curves the provision is worse. 37. Cross Drainage (CD) Structures: Drainage condition for the entire road is found to be poor. The existing road does not have proper provision of side drains and requires an efficient drainage network and stable embankment slopes. There are two major bridges, nineteen minor bridges, forty three causeway and about one hundred and sixty two culverts along the project road. List of major and minor bridges along with survey chainages and conditions of existing structures are appended as”Inventory and Condition Survey for Bridges” in Appendix 3.1. 38. Terrain and Landuse: The project road alignment traverses through plain terrain throughout except in small stretches where rolling and hilly terrain is encountered. A number of river/rivulets drain the project influence area. The land use along the project road is mainly agricultural, with habitation and barren lands in few areas. The road passes through three important towns i.e. Pichore, Chanderi & Kurwai and few villages. No land acquisition is involved along the project road.

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39. Road Intersections: There are 4 major intersection and 50 minor intersections on the road. Almost all of these intersections are poor in geometrics and junction developments. The chainage-wise details of these intersections are given in Table 3.3.

Table 3.3 : List of Major and Minor Intersections S. Existing Major Link Surface Width (m) Type No. Chainage /Minor (L/R/Cross) (Km/m) Bachran Chouraha – Pichore 1 31/100 Major Dhinabr-Ghod BT-BT 7.00-3.50 Cross 2 32/920 Minor Mayapur BT 3.75 Right 3 32/980 Minor Bus Stand BT 3.75 Right Pichhore - boundary 4 60/000 Minor Pichore Bus Stand BT 16.80 Right 5 58/400 Minor Dhabia Village BT 3.00 Right 6 56/340 Minor Manpur BT 3.75 Left 7 53/070 Minor Nayagaon CC 3.75 Left 8 50/450 Minor Nabia Village BT 3.75 Right 9 50/300 Minor Barai BT 3.75 Left 10 48/600 Minor Golgi Motaror BT 3.75 Left 11 48/460 Minor Palra BT 3.75 Left 12 43/700 Minor Heerapur-Heerapur CT-CC 3.35-2.70 Cross 13 41/950 Minor Kanikana-Moovari BT-BT 3.75-3.75 Cross 14 39/620 Minor Kanikana-Moovari VR-VR 3.4-3.0 Cross 15 37/540 Minor Palapar BT 3.75 Left 16 35/950 Minor Achoni BT 3.75 Right 17 31/600 Minor Emli Village VR 3.00 Left 18 31/092 Minor Kappar Village VR 4.10 Right 19 28/910 Minor Puta-Mammaroni VR-VR 3.5 - 4.8 Cross 20 20/530 Minor Kaniyathana BT 3.75 Right 21 14/900 Minor Marushalla BT 3.75 Right Shivpuri district Boundary – Chanderi 22 174/700 Minor Rajghat CT 5.20 Left 23 173/400 Minor Mohanpur BT 3.75 Right 24 172/697 Minor Budhi Chanderi VR 3.75 Right 25 170/800 Minor Durg BT 3.75 Left 26 169/660 Minor Nithanpur BT 3.75 Right 27 167/870 Minor Poatri BT 3.75 Left 28 166/250 Minor To Pichore BT 3.00 Left 29 163/400 Major Chanderi Bypass BT 3.75 Right Chanderi – Kurwai 30 160/085 Major Chanderi Bypass BT 3.75 Right 31 159/050 Major Ishagadh (SH-10) BT 7.00 Right 32 157/750 Minor Puta CC 3.00 Left 33 156/400 Minor Sampodu BT 3.00 Right 34 153/300 Minor Vikrampur BT 3.75 Left 35 152/200 Minor Nambni BT 3.75 Right 36 145/000 Minor Pipari BT 3.75 Right 37 140/020 Minor To Piparai & Ashok BT 3.75 Right Nagar 38 139/200 Minor Sherai - Sherai VR 3.00 Cross 39 136/160 Minor Parakna BT 3.75 Right 15

S. Existing Major Link Surface Width (m) Type No. Chainage /Minor (L/R/Cross) (Km/m) 40 125/000 Minor Bina Village BT 3.68 Left 41 123/720 Minor Mungavali CC 3.75 Right 42 123/540 Minor Piprai BT 3.75 Right 43 123/260 Minor Tila Naranheri BT 3.75 Right 44 116/110 Minor Gaduli CC 3.00 Right 45 114/080 Minor Barkira VR 3.75 Right 46 108/800 Minor Mathana BT 3.75 Right 47 108/440 Minor Bahadurpur Village CC 3.00 Right 48 102/420 Minor Onder-Kurwai- BT-BT 4.60-4.60 Right Ashoknagar 49 90/930 Minor Madura Thingri WBM 5.00 Left 50 90/180 Minor Karai,Parked BT 3.75 Right 51 88/406 Minor Nimpani Village BT 2.50 Right 52 84/568 Minor Napiniya Village BT 3.10 Right 53 81/070 Minor Madavgadi BT 3.00 Right 54 76/800 Minor Kurwai- BT-BT 5.5-7.0 Cross Source: DPR Note: BT – Black Top, CC-Cement Concrete, WBM – Water Bound Macadam ER – Earthen Road

3.3. Category of the Project

40. The sub-project has been evaluated using the Rapid Environmental Assessment (REA) checklist issued by ADB (Appendix-3.2) for Roads and Highways. The subproject road traverses primarily through agricultural land and few habitations. It neither passes through nor is located near any Wildlife Sanctuary, National Park, or any other environmentally sensitive or ecologically or archeologically protected areas. The sub project road though passes through reserved and protected forest areas, but these areas have rare movement of animals. The necessary permission to work or cut the trees has already been obtained from the concerned forest department (Appendix 3.3). The environmental impacts envisaged are minimal and majority are co- terminus with the construction phase. Hence, the project has been classified as Category “B” in accordance with ADB’s Safeguard Policy Statement 2009. 3.4. Need for the Sub-Project

41. The main aim of developing this State highway is to provide connectivity to the selected townships with other major social and commercial centres within the districts as well in the other parts of the state. The sub project road holds strategic importance as it provides vital connectivity to the three important districts namely Shivpuri, Ashoknagar and Vidisha. The sub project road will benefit more than 1.7 million populations (mainly rural) by providing improved transport and communication facilities which will contribute in accelerating the local economy. 42. The sub project road serves as important link for providing connectivity between State Highways SH-14 and National Highways NH-86 & NH-25. The traffic intensity at this sub project road is increasing, requiring

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augmentation of capacity for safe and efficient movement. The road condition is poor which reduces the average traffic speed and also results in higher fuel consumption and vehicular pollution. Therefore, improvement of this subproject road is proposed to provide safe movement of increasing traffic at higher travel speeds with reduced travel time, accidents, overloading, and vehicle emissions. 3.5. Existing and Projected Traffic 43. Existing Traffic Volume: Average Daily Traffic (ADT) of project road is studied at various locations which are given in Table 3.4. The ADT for Pichore - Chanderi - Mungawali - Onder - Kurwai road varies from 1227 vehicles (or 1631 PCU) to 2030 vehicles (or 2559 PCU). Highest traffic volume was recorded near the CVC Location at Km 78/600 near Kurwai Choraha. Lowest traffic volume was recorded near the CVC Location at km 50/000 near Naya Choraha (Pichore).

Table 3.4 : ADT of Project Road ID Location Total Vehicles Total (PCUs) No. 1 Near Naya Choraha (Pichore) (Km 50/000) 1227 1631 2 Sehrai (Km 139/900) 1511 2500 3 Near Mungawali Junction (Km 123/400) 2022 2391 4 Kurwai Choraha (78/600) 2030 2559 Source: DPR 44. Projected Traffic: The maximum traffic is expected to vary from 7923 ADT (9488 PCU) at Pichore to 14371 ADT at Mungawali (13123 PCU) by the year 2030. The above projection is based on the growth rates of 9.4% for Cars, 6.6 % for Buses, 5.8% for Goods Vehicles, 10.6% for 2-wheeler and 7.5% for Tractors which was derived through “IRC-108, Econometric Model”. The summary of projected traffic for the year 2009 to 2030 is given at Table 3.5.

Table 3.5 : Summary of Projected Traffic for the Project Road Project Road Year Year Year Year Year From To 2010 2015 2020 2025 2030 Near Naya Chouraha Junction (50/000) Pichore Chanderi 1811 2644 3845 5549 7923 (2735) (3797) (5217) (7081) (9488) Near Serai (139/900) Chanderi Mungawali 2022 2908 4176 5965 8452 (3339) (4477) (5973) (7906) (10364) Near Kurwai (78/600) Mungawali Kurwai 2820 4312 6527 9755 14371 Junction (3534) (4983) (6955) (9605) (13123) Source: DPR Note: Values in bracket indicate PCUs/day 45. The capacity of different carriageways is 6000, 15000 and 18000 PCUs per day for intermediate lane, 2 lane with earthen shoulders and 2 lane with Paved shoulders respectively. Analysing the capacity of design, 17

service volume of carriageways and the projected traffic, the sub project road requires two lanes with earthen shoulder by 2018-2023. 3.6. Key Rehabilitation and Reconstruction Activities 46. The sub project road rehabilitation involves activities like widening, realignment, intersections improvement, correction in road geometry and raising the embankment height at certain stretches of the road to meet the design norms defined for state highways under IRC codes. The brief of all key project activities are described below: 3.6.1. Realignment and Curvature Improvement: To avoid resettlement / rehabilitation and land acquisition issues existing alignment is followed. There are many sharp curves in the existing road which need to be improved to develop a high-speed highway. In plain or rolling terrain, a minimum curve radius of 230 m is considered to achieve design speed. Absolute minimum radius of 150 m is used at location with space constraints (e.g. urban areas, structure approach & Forest Areas). These locations are tabulated in Appendix 3.3 3.6.2. Proposed Cross Section Details 47. Lane Width and Earthen Shoulder : In order to meet future traffic requirement the existing carriageway is proposed to be upgraded to two lane with earthen shoulder to achieve high speed of travel with comfort and safety. 7m wide carriageway is proposed with basic traffic lane width of 3.50m. Earthen shoulders of 2.50m wide is proposed on either side of the proposed main carriageway for rural plain and rolling terrains. In stretches like hilly or forest area earthen shoulder is restricted to 1.00m. 48. Footpath: The minimum width of footpath in urban stretches is proposed to be 1.00m. The side drain in such stretches may be accommodated under the footpath. 49. Utility Corridor: Minimum width of utility corridor for rural sections will be 2.0m and for urban/ built-up sections will be 1.00m. 50. Side Slopes: The side slopes are proposed based on embankment height and is as follows Embankment height up to 3.0 m - 2H: 1V Embankment height from 3.0 m to 6.0 m - 1.5H: 1V Embankment height exceeding 6.0 m - To be designed based on soil parameters. Cut slopes will be Soil - 1H: 1V 51. Cross fall : Carriageway will have crossfall of 3.0%. For earthen shoulders crossfall value will be 4.0%. Figure 3.3 shows the typical cross section to be followed on the project stretch.

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Figure 3.3 : Typical Cross section of the project Road

3.6.3. Pavement Design and Widening: 52. Existing road will be widened to improve the capacity as well as horizontal geometrics. A combination of overlay and new construction will be followed for proposed improvements. At a number of places, the vertical profile will be changed to improve the vertical geometrics. This will require reconstruction after partial or full removal of the existing pavement, depending upon subgrade condition. In urban areas cement concrete pavement along with side drain is proposed. 53. Concentric widening scheme is followed to minimise land acquisition issues and to ensure maximum utilisation of existing carriageway. The improvement is proposed to the existing pavement to meet the design requirement of 2.5 m. In specific stretches where the pavement is damaged / deteriorated special treatments, are proposed. The improvement proposal includes overlay of BC=30mm,DBM=55mm, or raising and reconstruction with WMM, or raising and reconstruction with GSB. The details of existing carriage way and widening proposal is given at Table 3.6

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Table 3.6 : Details of Existing Carriage Way with Widening Proposal Sr. Existing Chainage Proposed Length Existing Proposed No. From To From To (mt.) Carriageway Carriageway Pichore – Shivpuri District Border 1 18.550 18.000 43.750 44.400 0.650 5.000 7.000+ES 2 18.000 17.000 44.400 45.300 0.900 6.000 7.000+ES Chanderi bypass 1 - - 60.470 60.850 0.380 3.750 7.000+ES 2 - - 60.920 62.100 1.180 3.750 7.000+ES 3 - - 62.200 62.450 0.250 3.750 7.000+ES 4 - - 62.550 64.050 1.500 3.750 7.000+ES Chanderi bypass – Kurwai 1 146.775 146.600 77.180 77.360 0.180 3.000 7.000+ES 2 140.000 139.850 84.020 84.170 0.150 3.000 7.000+ES 3 120.330 120.000 103.870 104.180 0.310 3.000 7.000+ES 4 116.200 115.950 107.900 108.280 0.380 3.000 7.000+ES 5 102.150 102.000 122.070 122.210 0.140 4.600 7.000+ES 6 102.000 100.400 122.210 123.670 1.460 3.000 7.000+ES 7 100.150 97.600 124.020 126.600 2.580 3.000 7.000+ES 8 97.500 97.420 126.700 126.780 0.080 3.000 7.000+ES 9 97.420 97.300 126.780 126.900 0.120 6.000 7.000+ES 10 97.300 94.700 126.900 129.520 2.620 3.000 7.000+ES 11 94.570 94.000 129.650 130.180 0.530 5.500 7.000+ES 12 94.000 93.750 130.180 130.430 0.250 3.000 7.000+ES 13 93.250 88.600 130.930 135.790 4.860 3.000 7.000+ES 14 88.600 88.350 135.790 136.040 0.250 5.500 7.000+ES 15 88.350 77.000 136.040 147.230 11.190 3.000 7.000+ES Source: DPR

3.6.4. Improvement Proposal for Intersection 54. Improvement scheme in respect of each junction is prepared to smooth movement of traffic. The improvement proposal suggested include either left in left out approach or channelized intersection design. 3.6.5. Design of Road Side Drains 55. For a sound drainage system open lined drain and chute drains in RCC on hill side in mountainous terrain and slopes of high embankment respectively and as rapids on high cut sections is followed. The construction of an underground drain 1 m x 1 m lined with RCC-20 cm thick and covered with RCC slab10 cm in thickness is proposed at urban and semi-urban stretches. Details about the drainage are given in Table 3.7.

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Table 3.7 : Cement Concrete Lined Drain Sr. Existing Chainage Proposed Chainage Length Remarks No. (km) (km) From To From To (m) 1 60/4 59/2 4/00 3/00 1200 + 1200 Pichore 2 36/7 36/4 25/57 25/87 300 + 300 Achhroni 3 20/40 18/55 41/88 43/75 1870 + 1870 BadiBamorkalan 4 139/85 139/55 84/17 84/47 300 + 300 Sehrai 5 125/4 124/00 98/78 100/15 1370 + 1370 Mungawali 6 108/6 107/5 115/6 116/68 1080 + 1080 Bahadurpur 7 102/55 102/15 121/67 122/07 400 + 400 Gupalia 8 100/4 100/15 123/76 124/02 260 + 260 Onder 9 93/75 93/25 130/43 130/93 500 + 500 Ghat Bumariya 10 77/00 76/8 147/23 147/38 150 + 150 Near Mehlua Choraha Source: DPR 3.6.6. Traffic Control and Safety Measures 56. In addition to adequate provisions for roadway width, geometric elements and junction improvement, the following provisions are proposed to enhance the safety of road users. Due consideration has been made for the provisions contained in IRC: SP 44-1994, “Highway Safety Code”. Also, various measures have been proposed to increase traffic control for the High-speed highway. 3.6.6.1 Crash Barrier : 57. Safety barrier of rigid, flexible or semi-rigid type are proposed at following locations. In general W-beam crash barrier is proposed.

♦ Non-traversable road side embankments ♦ Where embankment height is 3m or more ♦ Where embankment is retained by a retaining structure ♦ On valley sides of highway in hill sections ♦ Miscellaneous hazardous locations (like proximity to water structures, non-collapsible sign supports, buildings etc.) ♦ Between main carriageway and footpath in bridges 58. The crash barrier locations are given in Table 3.8:

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Table 3.8 : Crash Barrier Location Left Side Right Side Proposed Chainage Length Proposed Chainage Length From To m From To m 27/620 27/700 80 - - - 35/831 36/000 169 35/931 36/00 70 38/955 38/985 30 38/955 38/985 30 39/039 39/069 30 39/039 39/069 30 48/115 48/145 30 48/112 48/142 30 48/275 48/305 30 48/275 48/305 30 115/500 115/550 50 115/500 115/550 50 124/120 124/170 50 124/120 124/170 50 124/265 124/315 50 124/265 124/315 50 Source: DPR 3.6.6.2 Road Signs 59. Adequate road signs are proposed for the sub-project road in order to provide advance information to regulate/control traffic flow and ensure safety of operations. All road signs are provided in accordance with IRC 67. 60. Appropriate road markings are provided with stop signs, give-way signs, traffic merging and diverging signs, lane closure signs, compulsory keep left/right signs or any other signs as per IRC-67. Advance cautionary signs are proposed for sharp curves along with chevron signs at the outer edge of the curves. In hilly areas, curve-ahead signs are accompanied with appropriate delineators. 61. The signs will be of retro reflective material of high intensity grade with encapsulated lens and fixing details as per of MORT&H Specifications for Road and Bridge Works, 2001 are proposed. 3.6.6.3 Pavement Markings 62. In project road, pavement markings are proposed as per IRC: 35-1997, “Code of Practice for Road Marking” with centre-line, edge line, continuity line, stop line, give way lines, diagonal/chevron markings and zebra crossings. The pavement marking shall be of hot applied thermoplastic paint with glass beads as per the MORT&H specification for Road and Bridge Works, 2001. 3.6.6.4 Lighting 63. The project road is proposed with lighting systems in urban stretches/built up areas as shown in Table 3.9.

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Table 3.9 : Provision of Proposed Lighting in the Project Section Sr. Existing Chainage Proposed Length Remarks No. (km) Chainage (km) From To From To M 1 60/400 59/200 1/800 3/000 1200 Pichore 2 36/700 36/400 25/570 25/870 300 Achhroni 3 20/400 18/550 41/880 43/750 1870 BadiBamorkalan 4 139/850 139/550 84/170 84/470 300 Sehrai 5 125/400 124/000 98/780 100/150 1370 Mungawali 6 108/600 107/500 115/600 116/680 1080 Bahadurpur 7 102/550 102/150 121/670 122/070 400 Gupalia 8 100/400 100/150 123/760 124/020 260 Onder 9 93/750 93/250 130/430 130/930 500 Ghat Bumariya 10 77/000 76/800 147/230 147/380 150 Near Mehlua Choraha Source: DPR 3.6.7. User Facilities 3.6.7.1 Bus Stop 64. Bus stops are proposed at following locations as given below in Table 3.10. Existing bus stops are proposed to be retained. Appropriate maintenance measures shall be made to keep it in working conditions.

Table 3.10 : Bus Stop Locations S. No. Existing Proposed Side Village Name Chainage km/m Chainage km/m 1 50/300 11/900 LHS Nayachoraha Village 2 42/025 20/365 RHS Redichoraha Village 3 39/640 22/550 RHS Kaniva Village 4 31/575 30/610 LHS Emli Village 5 31/070 31/230 LHS Kappar Village 6 23/825 38/460 LHS Bijravan Village 7 22/465 39/850 RHS Near Village 8 15/590 46/680 RHS Blunpur Village 9 173/340 50/438 RHS Moonpur Village 10 172/670 50/944 LHS Badi Chanderi 11 169/715 54/020 RHS Nithanpur 12 152/150 71/820 RHS Nambni Village 13 148/430 75/520 RHS Chakeri Village 14 140/590 83/420 LHS Near Village 15 139/190 84/840 RHS Sehrai Village 16 136/575 87/500 RHS Jankpurkhariya 17 114/050 110/150 LHS Bharkira 18 93/400 130/780 LHS Ghatbamuriya 19 90/930 133/155 LHS Durkhedi 20 90/190 133/920 LHS Karaiparkedi 21 84/525 139/530 LHS Nipuniya Village Source: DPR 23

3.6.8. Slope Stabilisation and Protection Works 65. Erosion is proposed to be minimized largely by the use of flat side slopes, rounded and blended with natural terrain; serrated cut slopes; drainage channels designed with due regard to width, depth, slopes, alignment, and protective treatment; inlets located and spaced for erosion control prevention of erosion at culvert outlets; proper facilities for groundwater interception; dikes, berms, and other protective devices to trap sediment at strategic locations; and protective ground covers and planting. 66. High embankment will be site specifically designed considering the quality of the available material, prevalent moisture condition and associated pore water pressure, bearing capacity of the founding strata and the requirement of any preloading etc. Stone pitching is proposed at the locations mentioned in Table 3.11. 67. Other stabilisation measures as Concrete block pitching and Launching apron in CC blocks are proposed to be adopted on case to case basis after thorough study of the problematic sites.

Table 3.11 : Stone Pitching Left Side Right Side Proposed Chainage Length Proposed Chainage Length From To m From To m 27/62 27/70 80 - - - 35/831 36/00 170 35/931 36/00 70 38/955 38/985 30 38/955 38/985 30 39/039 39/069 30 39/039 39/069 30 48/115 48/145 30 48/112 48/142 30 48/275 49/05 775 48/275 49/05 775 50/65 50/85 200 50/65 50/85 200 51/94 53/8 1860 51/94 53/8 1860 103/7 103/905 205 103/7 103/905 205 115/5 115/55 50 115/5 115/55 50 124/12 124/17 50 124/12 124/17 50 124/265 124/315 50 124/265 124/315 50 130/1 130/213 120 130/1 130/213 120 130/307 130/43 130 130/307 130/43 130 Source: DPR 3.6.9. Improvement Proposal for Bridges and Drainage Structure 68. There are two major bridges and nineteen minor bridges. The rehabilitation of the bridge includes the activities like change of damaged handrails, replacement of defective expansion joints, repairing of minor cracks, repairing of solid slab having signs of damage, cleaning by sand blasting of corroded steel reinforcement and additional reinforcement where necessary, strengthening and repairing with PMC of RCC solid slabs which show honeycombing, removal of existing wearing coat and replacement with new wearing coat of 50 mm thick bituminous concrete after laying 12mm thick mastic asphalt, strengthening of approaches. 69. Water way/ ventway will be cleaned if vegetation growth is impeding the main water channel. The channel will be dredged if excessive siltation

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has blocked the waterway. Spur, dykes will be provided to change the water course if it is found that due to the flow direction, excessive scouring is occurring near one of pier or abutment and it is in danger. 3.6.10. Improvement Proposal for Causeways 70. There are 43 causeways consisting of 7 pipe type,13 Slab type,1 arch type and at 22 locations road get overtopped. Almost all causeways get overtopped during monsoon. Hence Discharge passing through vent as well as overtopping part is considered for revised structure. Wherever possible additional pipes will be introduced by raising road level to economise cost. In typical cases wherever required box type structure is also proposed 3.6.11. Improvement Proposal for Culverts 71. There are 162 culverts consisting of 120 pipe culverts, 39 slab culverts, 1 Arch type culverts, and 2 culverts are buried and could not be identified. The culverts are proposed to be widened for carriage way width of 12m. The improvement proposal includes dismantling and recasting of head walls, ded replacement with proper designs. Many of the culverts have vegetation in the channels apart from some sand mounds causing vent way obstructions, which need clearing. Pipe diameter less than 0.9 m is to be replaced by 1.2m diameter pipe. The culverts which are completely damaged or distressed are proposed for reconstruction. The culvert retained and repaired as mentioned above will be widen to match with formation width of road section. 3.6.12. Utilities and Services 72. Utilities and Services are seen only in the vicinity of towns, villages and roadside establishments the project road alignment traverses through either open area or agricultural land with small stretches of forest area. As the project road connects the major towns namely Pichore, Chanderi, Mungawali and Kurwai all major utilities run adjacent to the road alignment. Electric and telephone lines almost follow the existing road alignment. These have to be relocated. 3.7. Material required and Sourcing 73. The various construction materials which will require for the project road construction and other activities are listed below. • Borrow Soil • Aggregate • Granular material • Sand • Cement • Bitumen • Steel • Water 3.7.1. Borrow soil 25

74. Borrow Soil identified during survey for DPR study revealed that it can be used for road embankment as well as for Sub-grade layer. The details of available source, location, average lead distance to the project road and approximate available quantity are given in Table 3.12.

Table 3.12 : List of Borrow Area Sr. Chainage Section Side Type of Approximate Approximate No. Material distance from Quantity project road in (Indicative (M) Area) 1 112/800 Chanderi-Kurwai Right soil 50 50mx50m 2 126/800 Chanderi-Kurwai Left soil 40 250 mx250 m 3 127/200 Chanderi-Kurwai Left soil 50 100m x100 m 4 131/000 Chanderi-Kurwai Right soil 50 50mx50m 5 135/700 Chanderi-Kurwai Right soil 60 50mx50m 6 142/000 Chanderi-Kurwai Left soil 50 100mx100m 7 149/600* Chanderi-Kurwai Right soil 50 200mx200m 8 35/000 Pichore - Chanderi Right Hillock 50 100m x100 m 9 38/800* Pichore - Chanderi Right soil 40 100m x100 m 10 44/800* Pichore - Chanderi Left soil 50 150mx150m 11 47/800 Pichore - Chanderi Left soil 60 100m x100 m 12 57/200 Pichore - Chanderi Left soil 50 100m x100 m Source: DPR 3.7.2. Aggregate 75. Aggregate stone is basic ingredient in road construction. Investigation of quarry area was carried out for DPR study to ascertain the potential source of aggregate for the construction of different pavement layers like Bituminous Concrete (BC), Dense Bituminous Macadam (DBM), Bituminous Macadam (BM), Wet Mix Macadam (WMM), Granular Sub- base, sand for cement concrete works and GSB. There is one quarry/crusher is located on the project road at 148/400 between Chanderi to Mungawali section 3.7.3. Sand 76. Sand to be used in the concrete work during construction is available near Rajghat which is about 5 km far from Chanderi and other location is Kaniya dana, located near chainage 47.800 between Pichor to Chanderi.

3.7.4. Cement 77. There are so many factories of cement manufacturing in Madhya Pradesh. The cement can be procured from the open market. 3.7.5. Bitumen 78. Nearest source of bitumen is Mathura refinery, and Koyali Refinery, Gujarat. Bitumen of VG-10 equivalent of 80-100 or VG-30

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equivalent of 60-70 penetration grades from above mentioned Refinery is proposed to be used for bituminous work. 3.7.6. Steel 79. There are a number of steel rolling factories is situated in Madhya Pradesh, with various grades of steel. The steel is to be purchased from the open market. 3.7.7. Water 80. Ground water and surface water in the vicinity of the project road is proposed to use as a source of water for construction activities. The approximate quantity of water required for construction activities in the project is 700kL/day. 3.8. Project Implementation Schedule and Cost 81. The project is in the detailed design stage. The construction of widening of the road to 2- lane road will be implemented in 18 to 24 months. The estimated cost of the project excluding R and R and EMP is estimated to be INR 1,64,10,69,173/-.

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4. DESCRIPTION OF THE ENVIRONMENT 82. Baseline environmental conditions about all facets of environment viz. physical, biological and socio-economic have been established using both primary and secondary sources. Efforts have been made to collect the latest information both at regional as well as local level especially along the project corridor. This will help to predict likely changes in the environment due to the project and will serve as performance indicators for various components. 83. The project road Pichhore-Chanderi-Mungawali-Kurwai is a section of SH-19 measuring 146.50 km in length and located in Shivpuri, Ashoknagar and Vidisha districts of Madhya Pradesh. A summary Table of the project districts is given in Table 4.1

Table 4.1 : Summary of Important Features of the Project Districts S. Parameters Shivpuri Ashok Nagar Vidisha No. . It is located in the . It is located in the . It is located in the central part of northern part of the northern part of Madhya and Madhya Pradesh and Madhya Pradesh covers an area of covers an area of about between Sindh and 7,371 sq. km. 10,278 sq. km. the Betwa. . It lies between N . It lies between N . It lies between the 1. General latitudes 22° 20’ latitude 26° 05’ and 24° latitude 24.34° N and 24° 22’ and E 40’ and E longitude 77° and longitude longitudes 77° 16’ 01’ and 78° 29’. 77.43° E. and 78° 18’ . It is located at an . It is located at an . It is located at an elevation of 462 m elevation of 507 m elevation of 424 m above MSL above MSL above MSL . In the summer, the . The temperature in . The temperature in temperature May touches 41.7 June touches 42°C. reaches to a °C. 2. Climate . It receives on an maximum of 47 °C. . It receives on an average 750 mm of . It receives on an average 1157 mm rain annually. average 840 mm of of rain annually. rain annually. Ecologically

Sensitive Area Wild Life None None None Sanctuaries National Parks None None 3. Tiger Reserves None None None Elephant None None None Reserves Reserve/Protected Pichhore region Reserve Chanderi region None Forests Forests Reserve Forests Geomorphology 1.Denudational Hills It comes under 1. Plateau, 1. Major 4. 2. Pediment (Granite) northern part of Malwa 2.Vindhyan Hill Range Physiographic 3. Deccan Plateau plateau, though main and Units 4. Alluvial Plains part of its district lies in 3.Betwa Alluvium

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Bundelkhand plateau.

Sindh - Parwati sub-basin, Sindh , Sindh - Kuno sub-basin Betwa Bah Nadi, Sindh - Betwa sub-basin Nion River, 2. Major Drainage Sindh – Mahur sub-basin Keother Nadi, Bina River, Kethan nadi and Black cotton soil, Sandy Black, brown and 5. Major Soil Type loam, Clayey loam,, Black Cotton bhatori (stony). Murram Wheat, Rice, Groundnut, Rice, Bajra, Jowar, Wheat, , Maize 6. Principal Crops Gram, Jowar Wheat, Maize, Barley and Soyabean Deccan Trap basalts Predominant The plateau is an underlained by Bundelkhand Granite, 7. Geological extension of the Vindhyan sandstone Vindhayan, Deccan Trap Formations Deccan Traps and overlain by river alluvium Weathered/vesicular Weathered/Fractured basalt, flow contacts, 8. Hydrogeology Granite, Vindhayan & Deccan traps fractured sandstone deccan Trap and granular sand Source: Central Ground Water Authority Report and other District/Govt. websites 4.1. Physical Environment 4.1.1. Meteorology and Climate 84. Madhya Pradesh has a subtropical climate characterized by hot summer season and dryness except southwest monsoon season. Like most of it has a hot dry summer (April-June) followed by monsoon rains (July-September) and a cool and relatively dry winter (December- February). The maximum temperature during summer season ranges from 33 to 44ºC and 10 to 27ºC during winter season. The average rainfall is about 1,370 mm which decreases from east to west. The south- eastern districts have the heaviest rainfall, some places receiving as much as 2,150 mm, while the western and north-western districts receive 1,000 mm or less. 85. The Sub-Project passes through 3 districts – Shivpuri, Ashok Nagar and Vidisha. May-June is the hottest month with daily maximum temperature of above 40 °C while January is coolest with minimum temperature of 5 °C. The wind speed in the region is mostly low (< 2 m/s) in almost all the months. The higher wind speeds are observed during monsoon season (June-July). The predominant wind direction is West to North-West. The weather remains dry for all the seasons except monsoon when the humidity is around 85%. Among the three districts, Vidisha receives the maximum rainfall (1169 mm) which occurs between the months of June to September as a result of south west monsoon. Monthly rainfall details for last five years in the project area have been summarized in Table 4.2.

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Table 4.2 : Monthly Rainfall data (mm) in the project districts for the last five years Year Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sept. Oct. Nov. Dec. Total Shivpuri 2005 0.9 19 6 1.1 0 70.9 412.7 113.9 116.8 0 0 0 741.3 2006 0 0 2 0 12.7 76.4 173.8 203.7 112.1 0 0 0 580.7 2007 0 36.2 10.3 0 0 96.3 155.3 142.6 82.5 0 0 1.8 525 2008 0 0 0.1 0.5 0.2 289.6 185.8 222.5 79.1 4.5 13.2 0 795.5 2009 4.8 0 0 0.8 9.5 46 254.4 258.7 77.4 79.5 18.3 3.8 753.2 Vidisha 2005 0.5 0 26.6 2.1 0 109.3 575.6 202.6 140.3 2.3 0 0 1059.3 2006 0 0 83.4 5 44.7 38.4 449.2 421.1 254.5 0 0 0 1296.3 2007 0 28.6 0 0 0.8 158.6 275.2 176.6 142.3 0 0 0 782.1 2008 0 0 4.3 17.5 0.2 417.7 311 256.8 134.6 16.6 10.4 0 1169.1 2009 35.5 0 0 0.8 2.2 72.6 244 230.3 188.7 0 114.4 19.8 908.3 Source: India Meteorological Department, Delhi N.B.: No rainfall data is available for Ashok Nagar District. Earlier it was part of 4.1.2. Air and Noise Quality 86. In absence of any existing data on ambient air quality and noise levels of the project area, onsite monitoring was conducted at few select locations. Most of the project area lies in vast open agricultural land and is largely free from air pollution and noise generating sources other than traffic and few brick-kilns existing in the area. These were located in open area and operate only for few months. 4.1.2.1 Air Quality 87. The 24 hourly average ambient air quality levels with respect to suspended particulate matter (SPM), respirable particulate matter (RSPM), Sulphur Dioxide and Oxides of Nitrogen are shown in Table 4.3. The Table reveals that SPM, RSPM, SO2 and NOx range from 154 to 178 µg/m3, 60 to 75 µg/m3, 9.2 to 11.1 µg/m3 and 12.3 to 14.5 µg/m3 respectively in the project area. These ambient air quality levels conform to the prescribed National Ambient Air Quality Standards (NAAQS) (Appendix 4.1).

Table 4.3 : Ambient Air Quality Along the project section (24 Hourly)

RSPM SPM SO2 NOX Location & Chainage 3 3 3 3 (µg/m ) (µg/m ) (µg/m ) (µg/m ) Bahadurpur; 107.3 km 75 178 11.1 14.5 Chanderi Bypass; 163 km 68 155 9.7 13.4 Reddi Choraha; 42 km 68 175 10.5 12.3 Pichhore; 146 km 60 154 9.2 13.2 Source: Field Monitoring 4.1.2.2 Noise 88. The ambient noise levels (Table 4.4) conform to the prescribed limit (Appendix 4.2) for all landuse categories monitored except at few

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populated areas particularly, Bahadurpur, Pipra and Pichhore where it marginally exceeds the prescribed limits during night time.

Table 4.4 : Noise Level in dB (A) Along the Project Corridor Day Night Location L Max L Min Leq L Max L Min Leq Bahadurpur 72.4 30.6 56.2 66.8 30.2 46.5 Mehlua 70.7 33.5 53.6 65.7 31.2 44.3 Chanderi Bypass 67.4 32.7 52.3 61 27.4 42.1 Redi Chouraha 68.9 30.9 53.4 60.3 27.7 40.2 Mungawali 68.5 33.5 51.7 63.2 28.2 41.6 Saheri 69.5 31.2 50.2 61.6 28.5 42.3 Nayagaon 65.8 32.1 52.6 61.9 28.7 43.6 Pipra 77.6 30.4 56.8 67.5 30.1 47.2 Gajaura 70.2 32.4 54.6 65.4 29.3 44.4 Pichhore 73.2 31.4 56.5 64.2 29.5 45.6 Source: Field Monitoring 4.1.3. Topography and Geomorphology 89. The project road lies between 77º 56’ E to 78º 4’ E and 25º 8’ N to 24º 2’ N. The topography of the region is mixed type. The project road alignment traverses through plain and rolling terrain in most of the length. The Physiography of the project section from Pichhore-Chanderi-Mungawali which lies in Shivpuri and Ashok Nagar district is an upland region over the Bundelkhand plains, with escarp in the east, characterized by rugged up-landing topography with north-south trending parallel ridges and intervening valleys. The eastern part is a pediplain over the granite. The maximum elevation is 522 m above MSL and minimum elevation is 266 m above MSL. In this section, landforms are mainly denudation hills of Vindhyan sediments and pediments of granites. Apart from these geomorphic units, features like alluvial plain, valley fills, intermundane valley and Deccan trap plateau are also seen. 90. The project section Onder-Kurwai lies in which has been divided into three major units i.e. Malwa Plateau, Vindhyan Hill range and Alluvium plain. The area is marked by undulating topography with elevated plains and few low altitude isolated hills. The ground elevations in the area vary between about 383 m (Kurwai Block) in the northeast and about 550 m (Lateri Block) in the northwest part of district. 4.1.4. Geology/Soil 91. The project section can be bifurcated into three main divisions based on its geology: • The Bundelkhand Trap: It comprises mostly Pre-Dharwarian granites, which consists of sparsely cultivated uplands and shallow valley. • The Upper Vindhyas: Sandstone’s of Kaimur Rewa and Bhander are commonly found in this region. The dips are very shallow and this suggests that there has been a very little disturbance since Vindhyan period. 31

• The Deacon Trap: It mainly constitutes undulating plains and flat topped ranges of the hill. 92. In this region the main classes of soil are black, brown and bhatori (stony) soil. The volcanic, clay-like soil of the region owes its black colour to the high iron content of the basalt from which it formed. The soil requires less irrigation because of its high capacity for moisture retention. The other two soil types are lighter and have a higher proportion of sand. The black cotton soil covers almost three fourths of the area. The alluvial soils are found along the river courses. The higher elevations i.e. the hilly regions have a cover of murrum, which is made up of small rounded pieces of weathered trap. The Vindhyans and Bijawars have a thin cover of sandy loams. The alluvium is derived from hill slopes by numerous streams and watercourses. 4.1.4.1 Soil Quality 93. The soil sample has been collected at four locations in the project section as shown in Table 4.5. The results reveal that the dominant soil type is Sandy clay loam with good organic content.

Table 4.5 : Physiochemical Characteristics of soil in the project road Location S. Parameters Chanderi No. Bahadurpur Nayagaon Pichhore Bypass 1 Colour Brown Brown Brown Brown 2 pH (20% slurry) 8.2 8.5 7.8 7.3 Conductivity (μmhos / 3 218 235 325 255 cm, 20% slurry) 4 Moisture (%) 1.56 1.45 1.76 1.24 5 Chlorides (%) 0.0332 0.0316 0.0435 0.0387 6 Bulk density (g/cc) 1.24 1.28 1.15 1.32 7 Porosity (%v/v) 0.68 0.75 0.54 0.62 Water Holding 8 26 30 38 33 Capacity (%) 9 CEC meq/100g 28.5 24.3 25.8 25.2 10 Carbonate (%) NT NT NT NT 11 Bicarbonate (%) 0.0825 0.0614 0.0625 0.0715 12 Organic Matter (%) 0.52 0.65 0.47 0.51 Sandy Clay Sandy Sandy Clay Sandy Clay 13 Texture Loam Clay Loam Loam Loam 14 Nitrogen % 1.42 1.36 1.35 1.5 15 Potassium ,kg/h 1.45 1.36 1.52 1.38 16 Phosphorous, kg/h 26.8 38.6 32.7 30.3 Source: Field Monitoring

4.1.5. Seismicity 94. The project region falls in Zones II & III i.e., low to moderate risk zone. The hazard and seismic zoning map is shown in Figure 4.1

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Source: Amateur Seismic Centre, Pune Source: IS 1893 (Part 1) 2002

Figure 4.1 : Hazard and Seismic Zone Map 4.1.6. Land use 95. The area under various land uses in the state is presented in Table 4.6. The Table shows that the major portion of the land use is under agriculture (48.69%) followed by forest cover (28%).

Table 4.6 : Land Use Pattern in the State Land Use Area in '000 ha Percentage Total geographical area 30824 Reporting Area for land utilization 30756 100 Net area Sown 14975 48.7 Forest* 8688 28.2 Area not available for cultivation 3364 10.9 Permanent Pasture & Grazing land 1341 4.3 Land under misc. tree crops & groves 20 0.06 Cultivable waste land 1175 3.8 Fallow land other than current fallows 596 1.9 Current fallows 596 1.9 Source: DPR * The data is given for 2004-05 (as per availability) including Reserved & Protected Forest 96. Land-Use of the Project Section: The Land use pattern along the project road is also mixed type dominated by agriculture and residential areas. Chainage wise land use along the project road is given in Table 4.7. The Table shows that about 22.5 km of the total project road is passing through the reserve forest area. There are also few public and private settlements along the project road

Table 4.7 : Land Use Pattern along the project road Chainage (km) Existing land use Name of 33

From To Village/Town Kurwai to Chanderi 76.8 80 Agricultural land Mehlua, Junaikhedi 80 94 Agricultural land & barren land Ghatbamuriya, Dhuva 94 101 Agriculture land with some built-up areas Onder, Atareji 101 110 Mixture of Agriculture land and barren land Gupaliya, Bahadurpur 110 122 Agriculture land with some built-up areas Khusipara, Kukavali, Gadhuli 122 138 Agricultural land with patches of built-up area Mungawali, Sajanmau 138 150 Residential/ commercial settlements Saheri, Chakeri 150 159.8 Patches of forest area both side Zamaliya Shivpuri district border to Pichore 0 3.7 Forest area both side Chanderi to Shivpuri district border 163 170 Forest area both side with roadside Budhi Chanderi settlements 170 175.8 Agricultural land with some built-up areas Shivpuri district border to Pichore 14.2 16 Barren land with some roadside settlements 16 21 Agricultural land Badibamor kalan 21 42 Barren land with some roadside settlements Achroni, Pipara, Naygaon 42 45 Agriculture land with some built-up areas Reddi Choraha, Heerapur 44.6 47.8 Forest area both side 47.8 54 Agriculture land with some built-up areas Gajaura, Nayagaon 54 54.6 Forest area both side 54.6 60 Barren land with roadside residential/ Pichhore commercial properties Source: DPR

4.1.7. Hydrology and Drainage 97. Madhya Pradesh represents great river basins and the watershed of a number of rivers. Catchments of many rivers of India lie in the state. The project district Shivpuri can be divided into four sub basins – a) Sindh- Parwati Basin, Sindh-Kuno basin, Sindh-Betwa basin and Sindh-Mahur basin. 98. Most part of the project district Vidisha, measuring about more than 80% is located in the Betwa river basin, which is drained by its tributary like Bah nadi, Nion River, Keother nadi, Bina River and Kethan nadi. The presence of elevated ground on all the sub-basin marks the surface water divides. The interior area of the basin is marked by undulating topography with elevated plains with very few low altitude isolated hills. 99. Drainage and Water Bodies: There are several canals and drains cutting across the project alignment. The detailed list of major Rivers in the project area is given in Table 4.8. The detailed drainage pattern affecting the Pichhore-Chanderi-Kurwai road is given in Figure 4.2. It shows that there are 2 major reservoirs – Matatila and Rajghat in the

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study area (buffer zone) besides few ponds. These reservoirs form the major source of irrigation for the surrounding villages.

Table 4.8 : List of Surface Water Sources Along/Across Project Corridor S. Whether Crossing or in Perennial or Non Name District No. Buffer Area Perennial 1. Budhni River Shivpuri Crossing the alignment Perennial 2. Orr Nadi Ashok Nagar Crossing the alignment Non Perennial 3. Betwa River Ashok Nagar Buffer Area Non Perennial 4. Sehrai River Ashok Nagar Crossing the alignment Non Perennial 5. Kethan River Ashok Nagar Crossing the alignment Non Perennial 6. Nion River Vidisha Buffer Area Non Perennial Source: Survey of India Toposheet

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Figure 4.2 : Drainage Map of the Project Section 4.1.8. Groundwater 100. The ground water availability along the project road area is poor. The depth of water table goes below 200 feet during summer season. Most of the wells become dry except in monsoon season. The groundwater quality of the samples collected during field survey in the study area has been summarised in Table 4.9.

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Table 4.9 : Groundwater Quality Along the Project Corridor Location S. Chanderi No. Parameters Bypass Bahadurpur Nayagaon Pichhore 1 Colour Colourless Colourless Colourless Colourless 2 pH 7.5 7.4 7 7.2 3 Conductivity (μmhos / cm) 450 475 440 425 4 Turbidity, NTU 5 4 5 5 5 TDS (mg/l) 295 300 280 270 6 TSS (mg/l) 8 7 9 8 Total Hardness as CaCO3 7 (mg/l) 105 115 125 135 8 Chlorides as Cl (mg/l) 30.2 28.7 24.5 26.6

9 Sulphates as SO4 (mg/l) 16.5 18.2 14.5 16.3

10 Nitrates as NO3 (mg/l) ND ND ND ND

11 Phosphates as PO4 (mg/l) 0.06 0.07 0.07 0.06 12 Fluorides as F (mg/l) 0.5 0.4 0.5 0.6 13 Iron as Fe (mg/l) 0.24 0.25 0.21 0.22 14 Lead as Pb (mg/l) 0.03 0.04 0.04 0.03 15 Copper as Cu (mg/l) ND ND ND ND 16 Nickel as Ni (mg/l) ND ND ND ND 17 Zinc as Zn (mg/l) 0.7 0.6 0.7 0.5 18 Chromium Total as Cr (mg/l) ND ND ND ND 19 Manganese as Mn (mg/l) 0.04 0.05 0.05 0.04 20 Oil & grease (mg/l) ND ND ND ND 21 Calcium as Ca (mg/l) 28.4 30.7 30.2 27.5 22 Magnesium as Mg (mg/l) 18.7 20.4 18.4 17.2 Source: Analysis of Field Samples 101. The above results reveal that the ground water quality conforms to the drinking water standards (Appendix 4.3). 4.1.9. Surface water 4.1.9.1 Surface Water Quality 102. Surface water sample taken from Betwa and Budhni River has been compared with the standards prescribed by Central Pollution Control Board (CPCB) for Irrigation- Class D and propagation of wild life and fisheries -Class-E (Appendix 4.4). The results of the samples conforms their suitability for both these purposes. Results of the surface water quality in the project area have been summarized in Table 4.10

Table 4.10 : Surface Water Quality of the river in project area Location S. No. Parameters Betwa Budhni 1 Colour Colourless Colourless 2 pH 7.2 6.8 3 Conductivity (μmhos / cm) 410 390 4 Turbidity, NTU 5 6 5 TDS (mg/l) 270 280 37

Location S. No. Parameters Betwa Budhni 6 TSS (mg/l) 23 16

7 Total Hardness as CaCO3 (mg/l) 117 125 8 Chlorides as Cl (mg/l) 28.4 26.4

9 Sulphates as SO4 (mg/l) 14.6 15.5

10 Nitrates as NO3 (mg/l) ND ND

11 Phosphates as PO4 (mg/l) 0.07 0.05 12 Florides as F (mg/l) 0.4 0.02 13 Iron as Fe (mg/l) 0.3 0.25 14 Lead as Pb (mg/l) ND ND 15 Copper as Cu (mg/l) ND ND 16 Nickel as Ni (mg/l) ND ND 17 Zinc as Zn (mg/l) 0.6 0.8 18 Chromium Total as Cr (mg/l) ND ND 19 Manganese as Mn (mg/l) 0.05 0.07 20 Oil & grease (mg/l) ND ND 21 Calcium as Ca (mg/l) 30.4 26.4 22 Magnesium as Mg (mg/l) 16.3 15.4 23 Total Coliform ND ND 24 DO 5.5 4.8 25 BOD 4.8 3.2 26 COD 10.6 12.8 Source: Analysis of field Samples 4.2. Ecological Resources 4.2.1. Terrestrial Ecology 4.2.1.1 Forests 103. Madhya Pradesh is endowed with rich and diverse forest resources. Lying between lat. 21°04'N and long. 74°02' and 82°49' E, it is a reservoir of biodiversity. The geographical area of the state is 3,08,144 km2 which constitutes 9.38% of the land area of the country. The forest area of the state is 95,221 km2 constituting 31% of the geographical area of the state and 12.44% of the forest area of the country. Legally this area has been classified into "Reserved Forest, Protected Forest and Unclassified Forest", which constitute 61.7%, 37.4% and 0.9% of the forest area respectively. Central, eastern and southern parts of the state are rich, whereas northern and western parts are deficient in forest. The forest cover of the state is shown in Figure 4.3

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Figure 4.3 : Forest Cover Map of Madhya Pradesh 104. Forests in the Project Area: In the project section about 22.5 km of the road alignment is passing through forest areas which are of both Reserve and Protected forest category5. According to the revised classification of forest type by champion and Seth, the forest found in the sub-project section is 5AC1b i.e., Southern Tropical Dry Deciduous Teak Forest and 5AC3 - Southern Tropical Dry Deciduous Mixed Forest. The details of the forest area along the section has been summarised in Table 4.11.

Table 4.11 : Forest details along the project road

Approximate Chainage Side Road Length Distance from Type of S. No. of Section (km) the edge of Forest From To road road (in m) 1 54.0 54.6 0.6 Both 1.5 Protected Pichhore to 2 44.6 47.8 3.2 Both 1.5 Reserve Chanderi 3 170.0 163.0 7.0 Both 2.5 Reserve Existing 4 Chanderi 0.0 3.7 3.7 Both 5.0 Reserve Bypass 5 159.4 158.0 1.4 Both 2.5 Reserve Chanderi- 6 157.6 156.0 1.6 Both 2.5 Reserve Mungawali 7 155.0 153.0 2.0 Left 3.0 Reserve

5 Reserved Forests - The State Government may constitute any forest-land or waste-land as reserved forests which is the property of Government, or over which the Government has proprietary rights, or to the whole or any part of the forest- produce of which the Government is entitled. Protected forest - The State Government may, by notification in the Official Gazette, declare the provisions applicable to any forest-land or waste-land which,, is not included in a reserved forest but which is the property of Government, or over which the Government has proprietary rights, or to the whole or any part of the forest produce of which the Government is entitled. There is small difference between Reserved and Protected Forests in India. The major difference between the two (As per Indian Forests Act 1972) is that all activities in a reserved forest are prohibited unless prior permission is obtained. Whereas in case of protected forests State Govt frames rules for various permittable activities like cutting of trees which can be performed following the rules. 39

Approximate Chainage Side Road Length Distance from Type of S. No. of Section (km) the edge of Forest From To road road (in m) 8 153.0 150.0 3.0 Both 3.0 Reserve Total (km) 22.5 Source: DPR 105. The important species found in this section are:Tectona grandis (Teak). It is by far the most important timber species found in these forest types. In the top canopy Terminalia tomentosa, Lagerstroemia parviflora, Diospyros melanoxylon, Anoseissus latifolia, Madhuca indica, Butea monosperma, Bombax ceiba, Sterculia urens etc. are found associated with Tectona grandis. Dendrocalamus strictus is the only Bamboo species found in the study area. The lower strata in teak forest, contains Nyctanthes arbortristis, Helicterus isora, Holarrhena antidysentrica, Grewia hirsute, Carissa opaca etc. The list of these forests in different project sections are given in Table 4.12

Table 4.12 : List of Reserve and Protected Forest along the Alignment Section Within 100 m Others Pichhore-Chanderi Amarkhon Reserve Forest Chanderi Reserve Forest Chanderi Reserve Forest Burhi Chanderi Reserve Forest Padra Reserve Forest Nanakpur Reserve Forest Amarkhoh Reserve Forest Baswan Reserve Forest Golakot Reserve Forest Chachora Reserve Forest Ricchai Reserve Forest Padra Reserve Forest Budhna Reserve Forest Mohari Reserve Forest Mudara Protected Forest Chanderi Bypass Karmai Reserve Forest Karmai Reserve Forest Naron Protected Forest Naron P.F Singhpur Reserve Forest Orr P.F Katighati Protected Forest Narari Reserve Forest Ramnagar Protected Forest Ramnagar Protected Forest Singhpur Reserve Forest Navani Protected Forest Halanpur Reserve Forest Chanderi Mungawli Bhilri Protected Forest Barkhera Reserve Forest Mola Protected Forest Dongra Reserve Forest Bajawan Protected Forest Kadrana Protected Forest Sarsela Protected Forest Bhillri Protected Forest

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Section Within 100 m Others Orr Protected Forest Karmai Reserve Forest Source: Survey of India (SOI) Toposheet and Forest Department 4.2.1.2 Flora

106. The study area constitutes different patches of agricultural field and forest areas. The vegetation along the agricultural fields is scattered and found along the fields. It is dominated by the species which have economic value like Madhuca indica, Mangifera indica, Diospyros melanoxylon etc. The forest areas are covered with pure patches of Tectona grandis or mix with some subdominant species like saja (Terminalia tomentosa), bija (Pterocarpus marsupium), lendia (Lagerstroemia parviflora), haldu (Adina cardifolia), dhaora (Anogeissus latifolia), salai (Boswellia serrata), amla (Emblica officinalis), amaltas (Cassia fistula). 107. The species observed during the field investigations are Delonix regia, Cassia siamia, Acacia auriculiformis, Azadirachta indica, Calotropis procera, Ipomia spp,, Mangifera indica, Eucalyptus spp., Acacia catechu, Acacia nilotica, Albizia lebek, Ficus benghalensis, Ficus religiosa, Tamarindus indica, Melia azedarach, Madhuca indica. The list of common trees observed during the present survey along the road is given in Table 4.13. 108. No threatened, rare or endangered plant species is found in the project section.

Table 4.13 : List of Plant Species in the Study Area S. No. Local Name Botanical Name Family Large Trees 1. Achar Buchanania lanzan (spreg) Anacardiaceae 2. Arjun Terminalia arjuna (Bedd) Combretaceae 3. Aam Mangifera indica (Linn) Anacardiaceae 4. Awla Emblica officinalis Euphorbiaceae 5. Imli Tamarindus indica (Linn) Caesalpiniaceae 6. Kardhai Anogeissus pendula Combrataceae 7. Kala siras Albizia lebbek Leguminosae (Mimoseae) 8. Kevlor Bauhinia purpurea Caesalpinaceae 9. Kumbhi Careya arborea Myrtaceae 10. Kullu Sterculia urens Stcrculiaceae 11. Kem Mitragyna parvifolia Rubiaceae 12. Khair Acacia catechu Leguminosae (Mimoseae) 13. Gular Ficus glomerata Moraceae 14. Gunja Gardenia pinnata Burseraceae 15. Chchwa Albizzia odoratissima Leguminosae (Mimoseae) 16. Chirol Holoptelea integrifolia Legumenosae (Mimoseae) 17. Jamun Syzygium cuimini Myrataceae 18. Kankar Lannea coromandalica Anacardiaceae 19. Tendu Diospyros melanoxeon Ebenaceae 20. Dhavda Anogeissus latifolia Combretaceae 21. Dhobin Dalbergia paniculata Leguminosae (Papilionaceae) 41

S. No. Local Name Botanical Name Family 22. Nilgiri Eucalyptus spp Myrtaceae 23. Neem Azadirachta indica Meliaceae 24. Palas Butea monosperma Leguminosea (papilionaceae) 25. Pakar Ficus infectoria Moraceae 26. Padar Stereospermum suaveolens Bignoniaceae 27. Pangra Erythrina Suberosa Leguminosae (Pipilionaceae) 28. Pipal Ficus religiosa Moraceae 29. Bad Ficus bengalensis Moraceae 30. Bahera Terminalia belerica Combretaceae 31. Babul Acacia nilotica Legumenosae (Mimoseae) 32. Bel Aegle marmelos Rutaceae 33. Bhirra Chloroxylon Swietenia, D.C. Meliaceae 34. Maharukh Ailanthus excelsa Simarubiaceae 35. Mahua Madhuca indica Sapotaceae 36. Shisham Delbergia latifolia, Roxb Leguminosae (Papilionaceae) 37. Safed Siras Albizzia procera, Benth Leguminosae (Mimoseae) 38. Sagwan Tectona grandis Verbenaceae 39. Saj Terminalia tomentosa Combretaceae 40. Salai Boswellia serrata Burseraceae 41. Seja Lagerstroemia parviflora Lythraceae 42. Semal Salmalia malabarica, Malvaceae Bombaxcieba 43. Haldu Adina Cardifolia Rubiaceae Small Trees 44. Amaltash Cassia fistula Leguminosae (Caesalpiniaceae) 45. Astara Bauhinia malabarica Leguminosae (Caesalpiniaceae) 46. Asta Bauhinia racermosa Leguminosae (Caesalpiniaceae) 47. Ghont Zizyphus xylopyra Rhamnaceae 48. Ber Zizyphus jujube Rhamnaceae 49. Lokhandi Ixora arborea Rubiaceae 50. Sehra Bauhinia retusa Leguminosae (Caesalpiniaceae) Shrubs and Under Shrubs 51. Adusa Adhatoda vasica Acanthaceae 52. Apamarg Achyranthes aspera Amaranthaceae 53. Arandi Ricinus Communis Euphorbiaceae 54. Aak Calotropis gigantean Asclepiadaceae 55. Gokhru Tribulus terrestris Zygophllaceae 56. Zhadneri Zizyphus nummularia Rhamnaceae 57. Tulsi Ocimum Sanctum Labiatae 58. Thuar Euphorbia nerifolia Euphorbiaceae 59. Dhavai Woodfordia fruticosa Lythraceae 60. Nirgudi Vitex negundo Verbenaceae 61. Neel Indigofera pulchella Leguminosae 62. Pawar Cassia tora Leguminosae (Caesalpiniaceae) 63. Beshram Ipomoea pescaparae Convolvulaceae 64. Bhatkatiya Solanum nigrum Solanaceae 65. s Vidyasini Lantana camara Verbenaceae

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S. No. Local Name Botanical Name Family 66. Shatavari Asparagus recemosus Liliaceae 67. Sitafal Anona Squamosa Anonaceae 68. Harsingar Nyctanthes arbortristis Oleacaae 69. Ratanjot Jatropha curacas Evphorbiaceae 70. Gunja Abrus precatorious Leguminosea 71. Gauj Millietia auriculata Leguminosea (Pipilionaceae) 72. Palasbel Butea superba Leguminosea (Pipilionaceae) 73. Amrbel Cuscuta reflexa Convolvulaceae 74. Bans Dendrocalamus Strictus Gramineae Source: Field Survey and Secondary Sources 4.2.1.3 Fauna

4.2.1.4 Wild Life and Protected Areas 109. There are 9 National Parks and 25 Sanctuaries spread over an area of 10,862 km2 constituting 11.40% of the total forest area and 3.52% of the geographical area of the Madhya Pradesh state. The details of National Park and Sanctuaries is shown in Figure 4.4 110. There are no Wild Life Sanctuaries/National Parks, Tiger Reserves etc. in the project area.

Figure 4.4 : National Parks and Sanctuaries in Madhya Pradesh 111. The vegetation density and diversity is an important factor determining the habitat and thus for particular wild animals. Different animals prefer different types of habitat for food and shelter. The consultation with the forest officials in Vidisha and Shivpuri Districts reveals the movement of herbivores like Black Bug, Chital and Blue Bull in the surrounding agriculture fields. During the survey langur and macaque were sighted in different locations. Grazing activity mostly performed by domestic animals like cow, buffaloes, goat etc. A list of fauna present in study area is given in Table 4.14.

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Table 4.14 : List of Fauna in the Study Area S. No. Local Name Zoological Name Family 1. Common Langur Presbytia entellus Colobidae 2. Rhesus macaque Macaca mulatta Circopthecidae 3. Black buck Antelop cervicapra Bovidae 4. Common Mongoose Herpestes edwardsi Herpestidae 5. Jackal Canis aureus Canidae 6. Indian Fox Vulpes benglensis Canidae 7. Common five Stripped Funambulus pennanti Sciuridae squirrel 8. Field rat Bandicota bengalensis Muridae 9. Common house rat Rattus rattus-refescena Muridae 10. Common India Porcupine Hystrix indica Hystricidae 11. Common Indian hare Lepus nigricollis Leporidae 12. Chital Axis axis Cervidae 13. Blue Bull Boselaphus tragocamelus Bovidae 14. Hyena Hyaena hyaena hyaenidae Source: Field Study/Secondary Sources and Public Consultation 112. The reptile includes the snakes and lizards of various types. Non poisonous snakes of the project area include rat snake; Python etc. the poisonous snakes include the King cobra, Russell’s viper etc. Near human habitation Garden lizard and Common skink were observed. The agriculture field in the study area provides an ideal habitat for many snakes and other reptiles such as Russell viper, King cobra, and python. The list of common reptiles found in the study area is shown in Table 4.15

Table 4.15 : List of reptiles in the study area S. No. Scientific Name English Name Family 1 Python molurus Indian python Pythonidae 2 Mabuya carinata Common skink Scincidae 3 Ptyas mucosus Rat snake Colubridae 4 Hemidactyhus flaviviridis House Lizard Gekkonidae 5 Calotes versicolor Garden Lizard Agamidae 6 Viper russelli Russel’s Viper Viperidae 7 Naira tripudians King kobra Elapidae Source: Secondary Sources and Public Consultation 113. The common Butterflies found in the study area are Danaus chrysippus, Tirumala limniace, Euploea core etc. The list of Butterflies found in the study area is given in Table 4.16.

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Table 4.16 : List of Butterflies in the study area

S. No. Scientific name Common name 1 Danaus chrysippus Plain tiger 2 Euthalia nais Baronet 3 Euploea core Common crow 4 Catopsilia Pomona Common emigrant 5 Danaus genutia Stripped tiger 6 Tirumala limniace Blue tiger

Source: Secondary Sources 4.2.1.5 Avifauna

114. A total number of 21 species of birds were encountered during the present survey. Dominant bird species observed during the survey are Red wattled lapwing, Spotted dove, Black drongo, Rose ringed parakeet, Small blue kingfisher, Green bee eater, House crow, Common myna, House sparrow etc. List of bird species found in study area is given in Table 4.17

Table 4.17 : List of Avifauna found in the Study Area S. English Name Zoological Name Family No. 1. Gray Heron Ardea Cinerea Ardeidae 2. Paddy Bird Ardeola grayii Ardeidae 3. Cattle egret Bulbulcus ibis Ardeidae 4. White egret Egretta alba Ardeidae 5. Little Egret Egretta garzetta Ardeidae 6. Black parteidge Francolinus from Colinus Phasianidae Francolinus pond- 7. Gray partridge Phasianidae icerianus 8. Common or gray quail Cotuenix coturnix Phasianidae 9. Red wattled lapwing Vanellus indicus Charadridae 10. Yellow wattled lapwing Vanellus malabaricus Charadridae 11. Common green pigeon Treron Phoenicoptera Collumbidae 12. Blue rock pigeon Columba livia Collumbidae 13. Indian ring dove Streptopelia decaocto Collumbidae 14. Spotted dove Streptopelia chinensis Collumbidae 15. Large Indian Parakeet Psittacula eupatria Psittacidae 16. Rose ringed Parakeet Psittacula Krameri Psittacidae Blossom headed 17. Psittacula cyanocephala Psittacidae parakeet 18. Koel Eudynamys scolopaceae Cuculidae 19. Coucal Centropus sinensis Cuculidae 20. Pied king fisher Ceryle rudis Alcedinidae Small Blue king fisher or 21. Alcedo atthis Alcedinidae Common king fisher White breasted king 22. Halcyon smyrnensis Alcedinidae fisher 23. Green bee eater Merops orientalis Meropidae 24. Indian roller blue jay Coracias benghalensis Coracidae 25. Indian pitta Pitta brachyuran Pittiade 45

S. English Name Zoological Name Family No. 26. Golden oriole Oriolus oriolus Orioladae 27. King crow; Black Drongo Dicrurus adsimilis Dicruidae Large Racket tailed 28. Dicrurus paradiseus Dicruidae drango 29. Pied myna Sturnus contra Sturnidae 30. Common myna Aeridotheres tristis Sturnidae 31. Jungle myna Aeridotheres Sturnidae 32. House crow Corvus splendens Corvidae 33. Jungle crow Corvus macrorhynchos Corvidae 34. Red whisked bulbul Pycnonotus jocosus Pycnontidae 35. Redvented bulbul Pyenonotus cafer Pycnontidae Muscicapidae 36. Jungle babbler Turdoidesstriatus Timalinae 37. Pied Bushchat Saxicola caprata Muscicapidae Muscicapidae 38. Magpie Robin Copsychus-saularis Turdinae Muscicapidae 39. Indian Robin Saxicola fulicatus Turdinae 40. Grey wagtail Motacilla cinerea Motacillidae 41. Yellow Wagtail Motacilla glava Motacillidae 42. Purple sun Bird Nectarinia asiatica Nectarinidae 43. House sparrow Passer-domesticus passerinae 44. Weaver bird Ploceus philippinus passerinae 45. Red Munia Estrilda amandava Estrildinae Source: Field Study/Secondary Sources and Public Consultation 4.2.1.6 Roadside Plantations 115. It was found that about 1497 trees exist within 20 m width along the project road. The major species observed are mango, teak, neem, jamun, palas, saja, seasam, mahua etc. The Chainage-wise list of trees along the project road is given in Table 4.18.

Table 4.18 : Tree along Project Road (within 20 m width) Sr. Chainage Trees Total Sr. Chainage Trees Total No. From To Left Right No. From To Left Right 1 76 76.8 54 15 69 26 100 101 20 11 31 2 76.8 77 30 20 50 27 101 102 7 3 10 3 77 78 13 30 43 28 102 103 11 8 19 4 78 79 16 40 56 29 103 104 30 14 44 5 79 80 23 16 39 30 104 105 18 6 24 6 80 81 42 30 72 31 105 106 17 13 30 7 81 82 15 15 30 32 106 107 6 9 15 8 82 83 15 25 40 33 107 108 40 40 80 9 83 84 20 17 37 34 108 109 21 31 52 10 84 85 4 9 13 35 109 110 31 5 36 11 85 86 13 7 20 36 110 111 18 10 28 12 86 87 20 5 25 37 111 112 0 25 25 13 87 88 2 8 10 38 112 113 26 13 39 14 88 89 29 9 38 39 113 114 19 35 54

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Sr. Chainage Trees Total Sr. Chainage Trees Total No. From To Left Right No. From To Left Right 15 89 90 9 6 15 40 114 115 20 18 38 16 90 91 5 4 9 41 115 116 18 4 22 17 91 92 19 12 31 42 116 117 2 10 12 18 92 93 35 7 42 43 117 118 3 7 10 19 93 94 21 23 44 44 118 119 11 9 20 20 94 95 10 10 20 45 119 120 10 11 21 21 95 96 19 6 25 46 120 121 0 6 6 22 96 97 18 2 20 47 121 122 20 0 20 23 97 98 19 26 45 48 122 123 0 0 0 24 98 99 17 20 37 49 123 124 0 0 0 25 99 100 11 5 16 50 124 125 0 15 15 Total 846 Total 651 Grand Total 1497 Source: DPR 4.2.2. Aquatic Ecology 116. Small scale fishing was observed which is sold in the local market. Only two major fish species were observed viz. Rohu (Labeo rohita) and Catla (Catla catla) in the rivers of the area. There is no breeding or spawning ground of these species in any of the water bodies in the project area since the water availability and flow velocity is quite low and unfavourable for breeding. No migratory fishes are found in these rivers. 4.3. Socio-Economic Environment 4.3.1. Economic Progress 117. The economy of Madhya Pradesh is based on agriculture, forest products, industries, mineral resources, and cottage industry sectors. About 70% of the total work force of the state depends directly or indirectly on agriculture. There are many flourishing textile mills in the state and artificial silk manufacturing plants located at Ujjain, Nagda, and . Diesel engines are manufactured at Indore and attractive pottery and carpets are produced at Gwalior. 4.3.1.1 Agriculture 118. In 2004-05, the state has produced about 14.1million tones of food grains (comprising Cereals 10.7million tonnes and 3.4million tonnes of pulses) and about 4.8 million tones of total Oilseed (Soyabean production is 3.75 million tones). The state has contributed 7.4% food grains, 8.7% cereals and 21.4% pulses to the national food storage. The contribution of national oil seed production was 22.1% in the 2003-04. Thus the state became highest producer of pulses and second oilseed producer in the country in 2003-04.

4.3.1.2 Mineral Resources 119. Madhya Pradesh is rich in minerals. There are large reserves of coal and important deposits of iron ore, manganese ore, bauxite, limestone, 47

dolomite, copper, fire clay & china clay. Diamond reserves at Panna are of particular interest. There are 24 cement factories in the state. The state is one of the largest producers of cement in the country. The reserves of dolomite (66 million tonnes), fuller’s earth (1.2 lakh million tonnes), clay (12030 million tonnes), lime stone, quartz etc. reported in project area. 4.3.1.3 Industries 120. The major industries of the state are electronics, telecommunications, petrochemicals,, food processing and automobiles. The state has also taken a lead in the production of cement. The state is also famous for its traditional handicrafts and handlooms manufactured at Chanderi and Maheshwar. The major industrial unit in the state are- cement, Pig Iron, Steel Ingots, News Prints and Sugar mills. 4.3.2. Infrastructure Facilities 4.3.2.1 Water Supply 121. The groundwater condition of the projects districts is poor. The reservoirs like Matatila and Rajghat are used for irrigation purposes as almost all water bodies in the study area are non-perennial. Groundwater is primarily used for drinking and domestic purposes in the project influence area. 4.3.2.2 Transportation 122. Madhya Pradesh is poorly served with transport and communication facilities. State has about 21 km of roads per 100 sq. km, as amongst an all India average of 62 km per sq. km. The road network is deficient both in the quantum network connectivity as well as in riding quality of the roads, mainly the state highways, district roads and village roads. 123. The main railroads that pass through the state were originally laid down to connect the ports of Chennai, Mumbai and Kolkota with their surrounding areas. Important railway junctions include Bhopal, Ratlam, Khandwa, Itarsi and Katni. 124. Major airports connecting the states with other part of the country are at Bhopal, Gwalior, Indore, Jabalpur, Rewa and Khajuraho, as well as several national highways. 4.3.2.3 Power Sources and Availability 125. The state is well endowed with potential hydroelectric power. Main hydroelectric projects (jointly developed with other states) are the Babanthadi with Maharashtra, the Ban Sagar with Bihar and Uttar Pradesh, the Chambal Valley with , Narmada Sagar with Gujarat and Rajasthan, and Rajghat and Urmil with Uttar Pradesh. The Hasdeo Bango, Bargi, and Birsinghapur thermal power projects are also within the state. 126. Installed power capacity of Madhya Pradesh is 6,305 MW, of which 2,990 MW is produced from state’s own projects, 1,599 MW from joint-venture projects and 1,716 MW from the central sector allocation. Per capita electricity consumption in the state is 270 Kwh. About 97.4% villages in the state have been electrified.

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4.4. Social and Cultural Resources 4.4.1. Population and Communities 127. Madhya Pradesh is a landlocked state in the central part of the country with a population of 60.3 million with more than 74% of the population living in the rural areas. The population density of the .state is 196 persons/km2 in compare to 325 persons/km2 of India. Sex ratio of the state is 920 against the 933 in the country. 128. According to the census 2001, the population of Madhya Pradesh and India have following facts on Population (Table 4.19)

Table 4.19 : Demographic Profile of the State and the country S. No. Feature Madhya Pradesh India 1 Geographical Area (sq. km) 308824 3287240 2 Total Population 60385118 1028737436 3 Male population 31456873 532223090 4 Female population 28928245 496514346 5 Rural Population 44282528 742490639 6 Urban Population 16102590 286119689 7 Density 196 325 8 Sex ratio (female/1000 male) 920 933 9 Literacy (%) 64.08 64.8 Source: Census Data, Census of India, 2001

129. The project road is passing through three districts of Madhya Pradesh covering 32 villages. These villages are listed in Table 4.20.

Table 4.20 : List of villages in the project road Name of Villages Chainages Start End Pichore 31/100 32/800 Pichore 59/500 60/400 Gajaura 54/600 55/100 Nayagaon 52/200 52/600 Shrinagar 51/300 51/600 Nayachoraya 50/000 50/300 Heerapur 43/600 43/800 Redi choraha 41/900 42/100 Achhroni 36/000 37/500 Pipra 28/700 29/000 Nayagaon 25/900 26/300 Bijravan 23/500 24/400 Hasarra 20/700 21/400 BadiBamor Kalan 18/600 20/600 Chanderi Bypass 163/400 159/750 Zamaliya 153/900 154/100 Dangasara 148/900 149/100 Chakeri 148/400 148/500 Aaraun 144/400 144/600 Khalilpur 142/100 142/300 49

Name of Villages Chainages Start End Sehri 139/100 139/900 JankpurKhariya 136/500 136/800 Ruhana 134/000 134/100 Chitkupar 132/600 132/900 Sajanmau 131/200 131/700 Mungavali 123/500 125/400 Dhundair 120/000 120/200 Gadhuli 116/100 116/500 Kukavali 112/600 113/100 Khusipara 111/400 112/000 Bahadurpur 107/700 109/300 Dhilaropa 104/800 105/100 Gupaliya 102/100 102/600 Onder 100/100 100/500 Atareji 96/700 97/100 Ghat bamuriya 93/400 93/700 Dhuva 88/200 88/400 Nebhpari 84/900 85/100 Barbai 83/000 83/100 Madauhedi 81/000 81/100 Junaihakhedi 79/700 79/900 Mehlua 76/700 77/600 Source: DPR 130. The total number of households in the villages of the project road is 10,953 with a total population of 63,335. Out of these, about 75% is general. The SC/ST population accounts for about 25% of the total population as shown in Figure 4.5. The figure also reveals that the gender ratio among SC/ST population is almost the same.

6% 7000

6000 M F 19% 5000 Gen 4000 SC 3000

ST (Nos) Population

2000

1000 75% 0 SC ST

Source: Census of India, 2001 Figure 4.5 : Demographic Status of the Project Section 4.4.2. Literacy 131. The overall literacy rate of Madhya Pradesh is 64.1%, which is almost equivalent to the countries literacy rate (64.8%). The project road passing through three districts of Madhya Pradesh covering 31 villages have total

50

literacy rate of 47.6%. The population of literate male (59.6%) is comparatively higher than female as shown in Figure 4.6.

25000 LIT ILL 20000

15000

10000 Population (Nos) Population 5000

0 Male Female

Figure 4.6 : Literacy rate along the project section 4.4.3. Occupational Status 132. In the villages of the project road 39.6% of the total population comprise the workforce of the project area.67.9 % comprise the male working class population. Marginal population of villages of the project road is 9.6% with 73.3% represented by female population. Maximum percentage of the workers is in the agriculture sector as cultivators or agricultural labourers. The total agriculture labour comprise of 61.6% of the total working class population.

30% 34% MAIN CL MA IN WORKER 45% MA RG WORKER MAIN AL NON WORKER 60% MAIN HH MAIN OT 10% 4%

17%

8000 2500

7000 M F M F 2000 6000

5000 1500 4000

3000 1000 Population (Nos) Population (Nos) Population 2000 500 1000

0 0 MA IN CL MAIN AL MA IN HH MA IN OT MA RG CL MARG AL MA RG HH MARG OT

Figure 4.7 : Occupational status Along the Alignment 4.4.4. Current use of lands and resources for traditional purposes by Indigenous Peoples 51

133. Tribal population in the project area is very low (6% in the project area). Those living, are in the mainstream of the society and do not depend on forest and its resources for any purpose. 4.4.5. Structures or sites of historical, archaeological, paleontological, or architectural significance 134. There is no such site of significance either impacted or in the close vicinity of the project area. 4.4.5.1 Areas of Eco-Sensitivity/Protected Area/Restricted Area legislative and others 135. The project road is passing through reserve and protected forest area for a stretch of 22.5 km.

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5. ANTICIPATED ENVIRONMENTAL IMPACTS AND ITS MITIGATION MEASURES 136. Environmental impacts have been assessed considering present environmental setting of the project area, nature, and extent of the proposed activities. Suitable approach and qualitative and quantitative techniques were used to ascertain likely direct and indirect impacts during design, construction and operation stages of the project. Impacts are classified as being insignificant, minor, moderate and major. The mitigation measures have been presented along with the impacts. . 137. During the field study, a number of informal consultations were held with people in the locality including those presently living along the various stretches of the sub project corridor. Some NGOs working in the areas were also contacted. Discussions were held with various concerned Government authorities like with Forests Departments, pollution control boards, State environmental impact assessment authority. Outcome of these consultations is referred for environmental impact assessment and designing of mitigative measures. 5.1. Impact on Physical Environment 5.1.1. Climate Design and Construction Phase 138. Project will have no impact on climate of the area. The subproject may have minor impact on weather conditions of the area due to cutting of the 176 trees. Mitigation Measures 139. All efforts are made to minimise the cutting of trees. Supervision consultants will further ensure minimal cutting of the trees during the construction stage. The compensatory afforestation shall be made on the basis 1:7. The plantations shall begin with start of construction. The survival of plantation will be ensured, even if they are planted through concerned forest department. Tree of native variety only will be planted. In addition to above plantation, additional trees shall be planted through village Panchayats to improve microclimatic conditions of the area. Operation Stage 140. The sub-project road is located in vast open agricultural land which will provide adequate dispersion of gaseous emission from vehicle. Further, extensive plantation will ameliorate/enhance the micro-climate. It also has associated benefits with respect to Green House Gas (GHG) emission reduction. The GHG emission reduction is anticipated due to improved road conditions and better connectivity. The GHG reduction is anticipated due to reduced idling of vehicle and reduced travel time due to better road condition.

Mitigation Measures 53

141. It is proposed that MPRDC may initiate study to assess the GHG emission reduction and reap the economic benefits from road improvement projects including higher tree plantation. 5.1.2. Natural Hazard 142. Flood: The section of the project between Mungawli and Kurwai is crossed by water bodies like Sehrai River, drains and nallas which gets flooded during monsoon due to low level of the alignment and clogging of drains. 143. Earthquake: The sub project roads lies in seismic zone II/III as per classification by Bureau of Indian Standards. This means lower to medium seismic intensity. Mitigation Measures 144. In order to prevent the flood-like situation in the Mungawli-Kurwai section, the volume of the culverts in this section must be increased to augment their carrying capacity. Further, the height of the embankment must be adequately raised above the flood level. 145. All subproject structures shall be designed with consideration of above seismicity.

5.1.3. Air Quality Design and Construction Phase 146. The potential sources of air emission during the construction phase of the project are: (i) dust from earth works (during site preparation), (ii) emissions from the operation of construction equipment and machines, (iii) fugitive emissions from vehicles plying on the road, (iv) fugitive emissions during the transport of construction materials, (v) air emissions other than dust arise from combustion of hydrocarbons particularly from the hot mix plants, and (vi) localised increased traffic congestion in construction areas. Most of the emissions will be in the form of coarse particulate matter which will settle down in close vicinity of construction site. Hot mix plant will generate carbon monoxide (CO), un-burnt hydrocarbon (HC), sulphur dioxide (SO2), particulate matters (PM), and nitrogen oxides (NOx) emissions. This may affect the air quality of nearby areas, especially, due to emission discharge from low height of the stack. However, this will be a temporary phase and hence, no significant impact is envisaged. 147. The stone aggregate will be sourced from licensed quarries. No new quarries shall be opened for the project. The pollution related aspects to these quarries are independently complied by the quarry owner. The aggregate will be transported in covered trucks through existing national and state highways.

Mitigation Measures

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148. Road pavement design should be such that tyre friction due to vehicle movement will be reduced. Vehicles delivering loose and fine materials like sand and aggregates shall be covered. Dust suppression measures like water sprinkling, water fogging shall be applied in all dust prone locations such as unpaved haulage roads6, earthworks, stockpiles and asphalt mixing plant areas. PPE shall be provided to the construction workers to minimise inhalation of respirable suspended particulate matter. 149. Mixing plants and asphalt (hot mix) plants shall be located at least 1 km away and in downwind direction of the human settlements. Material storage areas shall also be located downwind of the habitation area. Contractor shall obtain consent to establish and operate from concerned State Pollution Control Board (SPCB) before its use for the project road. Hot mix plant shall be fitted with stack of adequate height (30 m) or as may be prescribed by SPCB to ensure enough dispersion of exit gases. Diesel Generating (DG) sets shall also be fitted with stack of adequate height. Low sulphur diesel shall be used in DG sets and other construction machineries. Construction vehicles and machineries shall be periodically maintained. The possibility of using LPG as fuel source in construction camps instead of wood should be explored. 150. Air quality monitoring shall be carried out during construction phase. Suitable pollution control measures shall be adopted if monitored parameters are found above the prescribed limit. 151. The aggregate will be transported in covered trucks through existing national and state highways. Operation Phase 152. The bad road conditions and settlement areas due to which traffic congestion occurs are the main causes of the air and noise pollution at present. The improved road conditions will result in the improved ambient air quality. Since traffic is projected to increase with improved roads and better connectivity, the impact will remain more or less same. Since subproject road is largely traversing through vast open agriculture areas, which provides adequate dispersion to gaseous pollutants generated from vehicles. Mitigation Measures 153. It is proposed to maintain the road conditions including shoulders and embankment turfing. Trees shall be planted close to sensitive locations such as hospital, school boundaries and near religious places. 154. Awareness boards for safe and fuel efficient driving shall be fixed at major intersections and habited locations.

5.1.4. Noise Design and Construction Phase

6 Water suppression of fugitive dust can reduce emissions from 12% to 98% 55

155. Ambient noise level may increase temporarily in the close vicinity of various construction activities, maintenance workshops and vehicles and earthmoving equipment. These construction activities are expected to produce noise levels in the range of 80 – 95 dB(A) (at a distance of about 5 m from the source). Although this level of noise is higher than the permissible limit for ambient noise level for residential/commercial levels but will occur only intermittently and temporary. This noise level will attenuate fast with increase in distance from noise source. Impact due to noise during construction activities will be minimal to inhabitants since most of the built-up areas are located at safer distance from the road. However, there are few noise sensitive locations especially schools close to the alignment (Table 5.1)

Table 5.1 : List of Noise- Sensitive Locations along the Alignment Offset from the S. Chainage Village District Feature Side edge of the No. (km) road (m) Pichore to Chanderi Km. 60.400 to Km. 14.600 1 54.75 Gajaura Shivpuri Temple Right 2.50

2 37 Achchroni Shivpuri Temple Right 8.70 Government 3 23.6 Bijravan Shivpuri Left 9.20 School 4 23.3 Bijravan Shivpuri Temple Left 5.10

5 21 Hasarra Shivpuri Temple Left 9.40

6 20.9 Hasarra Shivpuri Temple Right 3.90 Badi Bamor 7 19.7 Shivpuri Temple Left 4.50 Kalan Badi Bamor Government 8 19.4 Shivpuri Right 4.60 Kalan Hospital Badi Bamor 9 19.275 Shivpuri Temple Right 4.40 Kalan Chanderi to Kurwai 1 102.350 Gupaliya Ashoknagar Temple Left 3.80 2 104.900 Dhilaropa Ashoknagar Temple Right 3.60 3 108.300 Bahadurpur Ashoknagar Temple Left 3.60 4 108.300 Bahadurpur Ashoknagar Temple Left 3.50 5 108.900 Bahadurpur Ashoknagar Temple Right 4.50 6 109.100 Bahadurpur Ashoknagar Temple Right 5.60 7 111.500 Khusipara Ashoknagar Temple Right 4.00 8 112.800 Kukavali Ashoknagar Hospital Left 3.20 9 113.600 Kukavali Ashoknagar Temple Left 8.60 10 116.300 Gadhuli Ashoknagar Temple Left 4.60 11 124.800 Mungawali Ashoknagar School Right 7.50 12 125.000 Mungawali Ashoknagar Temple Right 7.50 13 129.600 Mungawali Ashoknagar Temple Left 6.30

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Offset from the S. Chainage Village District Feature Side edge of the No. (km) road (m) 14 139.700 Sehrai Ashoknagar Temple Right 7.70 15 146.000 Aaraun Ashoknagar Temple Left 10.00 16 148.500 Chakeri Ashoknagar School Right 9.20 17 148.700 Chakeri Ashoknagar Temple Left 8.70 18 148.700 Chakeri Ashoknagar Temple Right 6.60 19 148.900 Dungasara Ashoknagar Temple Right 7.50 20 149.000 Dungasara Ashoknagar Temple Left 3.40 Chanderi 21 160.400 Ashoknagar Temple Left 8.60 Bypass Chanderi 22 162.000 Ashoknagar Temple Left 4.10 Bypass Chanderi 23 162.400 Ashoknagar College Left 4.70 Bypass Chanderi 24 162.700 Ashoknagar Temple Left 4.10 Bypass Chanderi 25 171.900 Ashoknagar Temple Left 4.70 Bypass Chanderi 26 173.200 Ashoknagar Temple Left 9.60 Bypass Source: DPR and Strip Mapping Mitigation Measures 156. Vehicles and equipments should be fitted with silencers and maintained regularly. The workers shall be provided with personal protection devices such as earplugs and earmuffs. Tree plantation shall be started along with the construction activities. Noise and vibration monitoring shall be carried out as per the suggested monitoring plan. The construction equipments/machinery (stationary) shall be placed away from habitat /sensitive areas. Operation Phase 157. During the operational phase, movement of traffic will be the prime source of noise. Traffic congestion and pedestrian interferences increase the use of horns. This may result in increased noise levels at commercial areas, nearby schools and religious places. Mitigation Measures 158. Effective traffic management and good riding conditions shall be maintained to reduce the noise level throughout the stretch and speed limitation and honking restrictions may be enforced near sensitive locations especially at Atareji (Ch. 97), Onder (Ch. 100), Gupaliya (Ch. 102), Bahadurpur (Ch. 106), Gadhuli (Ch. 116), BadiBamor Kalan (Ch. 18.6), Pichor (Ch. 59.5). Multilayer trees shall be planted close to the sensitive locations.

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5.1.5. Impact on Land and Soil 5.1.5.1 Loss of Productive Soil and Change in Land use Design and Construction Phase 159. No land use will change due to the project since required ROW is available throughout the alignment. Land use though will change temporarily of construction camp areas and for the period of construction. This will also result in loss of soil productivity. 160. Land use may also change due to borrowing the earth. Land will also loose its productivity if top soil is not preserved. Mitigation Measures 161. It shall be ensured that the land taken on lease for access road and construction camp is restored back to its original land use before handing it over back to land owner. 162. The top soil from the productive land (borrow areas, road widening areas etc.) shall be preserved and reused for plantation purposes. It shall also be used as top cover of embankment slope for growing vegetation to protect soil erosion. Operation Phase 163. The better access can lead to conversion of agriculture land for residential and commercial purposes close to roads and especially in rural and urban area. This may result in loss of productive land and agricultural produce. Mitigation Measures 164. The EA may explore the feasibility of restricting about 50 m area either side of the road as no development zone on the line restriction are imposed for National Highways in India. 5.1.5.2 Soil Erosion Design and Construction Stage 165. Soil erosion may take place along steep and uncompacted embankment slope, and wherever vegetation is cleared. Soil erosion may have cumulative effect viz. siltation, embankment damage, drainage problem etc. Loss of soil due to run off from earth stock-piles may also lead to siltation. The intensity of soil erosion at different locations will be influenced by the lithology, topography, soil type and climatic condition (mainly rainfall) and drainage pattern. Mitigation Measures 166. Bank protection measures shall be taken at erosion prone areas. The protection measures may include use of geo-textiles matting. Provision of side drain shall be made to guide the water to natural outfalls. Stone pitching shall be carried out wherever necessary. When soil is spread on slopes for permanent disposal, it shall be buttressed at the toe by retaining walls. Side slopes of the embankment shall not be steeper than 2H:1V. Turfing/bio-turfing of embankment and slopes shall be done along

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the stretch. IRC: 56 -1974 recommended practice for treatment of embankment slopes for erosion control shall be taken into consideration. Soil erosion shall be visually checked on slopes and high embankment areas. In case soil erosion is found, suitable measures shall be taken to control the soil erosion. 167. Though terrain is flat all through the stretch, except at few locations where it is rolling terrain. Therefore, all steep cuts shall be flattened and benched. Retaining wall on both sides shall be provided. Shrubs shall be planted in loose soil area. Operation Phase 168. Soil of steep slopes of embankment and near bridge approaches may erode the embankment formation due to unexpected rainfall. Soil erosion condition may arise if borrow areas are not stabilized/restored properly. Regular visual checking of effectiveness of soil erosion measures (turfing, stone pitching, etc.) shall form part of the environmental monitoring during project operation. Regular monitoring and maintenance of side drains and cross drainage structures will also be carried out to check and avoid any drainage blockage situation. 5.1.5.3 Borrow Areas and Quarries Design and Construction Stage 169. The project area is generally having a flat terrain with some portion under rolling terrain, particularly between Pichhore-Chanderi sections. Farmers were ready to provide earth from their field up to certain depth on adequate compensation based on agreements between them and the respective contractor, it is recommended that borrowing from agricultural land shall be minimised to the extent possible. Further, no earth shall be borrowed from already low lying areas. 170. Borrow areas if left un-rehabilitated may pose risk to people, particularly children and animals of accidentally falling into it as well as become potential breeding ground for mosquitoes and vector born disease. 171. Illegal quarrying may lead to unstable soil condition; destroy the landscape of the terrain, air and noise pollution. Opening of new quarries is not envisaged due to the proposed project. Quarry material will be sourced from existing nearby quarries. Mitigation Measures 172. It is recommended that borrowing from agricultural land shall be minimised to the extent possible. Further, no earth shall be borrowed from already low lying areas. 173. Borrow pits shall be selected from barren land/wasteland to the extent possible. Borrow areas should not be located on cultivable lands except in the situations where land owners desires to level the land. The top soil shall be preserved and depth shall be restricted to the desired level. Borrow areas should be excavated as per the intended end use by the owner. The Indian Road Congress (IRC):10-1961 guideline should be used for selection of borrow pits and amount that can be borrowed 59

174. The depths in borrow pits should be so regulated that the sides are not be steeper than 25%. To the extent possible, borrow areas shall be sited away from habited areas. Borrow areas shall be levelled with salvaged material or other filling materials which do not pose contamination of soil. Else, it shall be converted into intended use as per the requirement of land owner/community. The borrow area shall be located/ rehabilitated as per the guidelines given at Appendix 5.1 5.1.5.4 Compaction and Contamination of Soil Design and Construction Stage 175. Soil in the adjoining productive lands beyond the ROW, haulage roads, and construction camp area may be compacted due to movement of construction vehicles, machineries, equipments and due to siting of construction camps and workshops. 176. Soil may get contaminated due to inappropriate disposal of liquid waste, (lubricating oil and fuel spills, waste oil and lubricant and vehicle/equipment washing effluent) and solid waste (fuel filters, oily rags) likely to be generated from repair and maintenance of transport vehicles, construction equipment and machinery. Soil may get contaminated due to inappropriate disposal of domestic solid waste and sewage from construction camps. Mitigation Measures 177. To prevent soil compaction in the adjoining productive lands beyond the ROW, the movement of construction vehicles, machinery and equipment shall be restricted to the designated haulage route. The productive land shall be reclaimed after construction activity. Septic tank or mobile toilets fitted with anaerobic treatment facility shall be provided at construction camp. Domestic solid waste at construction camp shall be segregated into bio-degradable and non-biodegradable waste. The non- biodegradable and recyclable waste shall be sold off. Efforts shall be made that bio-degradable waste shall be composted in the mechanised and movable composter by the contractor. Non biodegradable and non saleable waste shall be disposed off to authorised land fill site. If land fill site not available then burial of the waste in a secured manner shall be ensured. 178. Fuel and lubricants shall be stored at the predefined storage location. The storage area shall be paved with gentle slope to a corner and connected with a chamber to collect any spills of the oils. All efforts shall be made to minimise the waste generation. Unavoidable waste shall be stored at the designated place prior to disposal. To avoid soil contamination at the wash-down and re-fuelling areas, “oil interceptors” shall be provided. Oil and grease spill and oil soaked materials are to be collected and stored in labelled containers (Labelled: WASTE OIL; and hazardous sign be displayed) and sold off to SPCB/ MoEF authorized re-refiners. Operation Stage 179. No impact on soil is anticipated during operation phase of the project except along slope lying areas and near bridge approaches where

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unexpected rainfall may erode the embankment formation and deterioration of borrow areas if not rehabilitated properly. Mitigation measures 180. Erosion prone areas shall be visually checked periodically for any erosion and appropriate corrective action shall be taken if any erosion is identified. 5.1.6. Groundwater Design and Construction Stage 181. Water will be mainly required for compaction of formation and domestic purposes in the workers camp. These requirements will be mainly sourced from groundwater (approximately 700 KL per day). Also, the depth to water table in some part is depleting annually. Any uncontrolled abstraction can further deteriorate the situation. Contamination of groundwater is not envisaged since all construction camps will have septic tanks or mobile toilets depending on the number of workers in each camp. Mitigation Measures 182. Requisite permission shall be obtained for abstraction of groundwater from State Ground Water Board/Central Ground Water Authority. 183. The contractor shall make arrangements for water required during construction in such a way that the water availability and supply to nearby communities remains unaffected depending on site specific conditions. 184. Water intensive activities shall not be undertaken during summer period to the extent feasible. 185. Provision shall be made to link side drains with the nearby ponds for facilitating water harvesting. Where ponds are not available, the water harvesting pits shall be constructed as per the requirement and rainfall intensity. Operation Stage 186. No impact is anticipated on groundwater due to the project during operation phase, hence, no specific mitigation is proposed.

5.1.7. Siltation and Surface Water Quality of Rivers and other Water Bodies Design and Construction Stage 187. The project section is being crossed by Kethan, Sehrai, Orr and Budhni Rivers. However, no impact is envisaged on surface water bodies in the project section as except Budhni river. Others dry up during non-monsoon period. Minimal impacts are anticipated on new water harvesting ponds that maybe formed from borrow areas. 61

188. Since most of the major water bodies are seasonal in nature, siltation impact due to bridge rehabilitation works will be negligible, if construction debris/other waste are cleared immediately after construction. The temporary pollution of water bodies from spillage of chemicals and oil at construction sites and waste from construction camps may occur. Soil erosion has direct bearing on siltation. The siltation likely to be caused due to bank erosion has already been addressed above in soil erosion section. 189. Accidental oil and chemicals spills can contaminate the water. Mitigation Measure 190. Siltation Issues: Required mitigation as suggested in soil erosion section shall be taken into consideration. Bridge rehabilitation activity is recommended during non-monsoon (mid-September to mid-June) period. Silt fencing and/or brush barrier shall be installed for collecting sediments before letting them into the water body. Silt/sediment should be collected and stockpiled for possible reuse as surfacing of slopes where they have to be re-vegetated. Chute drains shall be provided to drain surface runoff and prevent erosion from slopes. 191. Fuel and Lubricant Spillage Issue: All equipment operators, drivers, and warehouse personnel will be trained in immediate response for spill containment and eventual cleanup. No vehicles or equipment should be parked or refuelled near water-bodies, so as to avoid contamination from fuel and lubricants. All chemicals and oil shall be stored away from water and concreted platform with catchment pit for spills collection.The emergency response procedures including reporting, preferably written in the local language and simple to understand shall be provided by the contractors. The slopes of embankments leading to water bodies should be modified and re-channelised to prevent entry of contaminants. Large construction camps shall be avoided along the alignment and located away from habitation and water bodies. 192. Waste Disposal Issues: All wastes arising from the construction should be disposed in an environmentally accepted manner so as not to block the flow of water in the channels. The wastes should be collected, stored and transported to the approved disposal sites. Construction labourers shall be preferable from local population. Sewage from labour camps will be treated through septic tanks. No untreated sanitary wastewater shall be discharged into surface water bodies.

Operation Stage 193. No major or long-term impact is anticipated during the operation phase on the surface water bodies due to the project implementation activities. Oil-contaminated runoff from the road during monsoon will have minimal impacts considering their low concentration. However, regular visual checks shall be made to observe any incidence of blockage of drains. Regular checks shall be made for soil erosion and turfing conditions of river training structures to ensure effective maintenance.

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5.1.8. Hydrology and Drainage Design and Construction Stage 194. The activities involved with proposed road development will be carried out along with existing alignment. No new bridge is proposed to be constructed. Existing bridges/cross drainage structures are only to be improved. Diversion of water channels during rehabilitation of cross drainage structures is not envisaged. Mitigation Measures 195. Elaborate drainage system shall be provided to drain the storm water from the roadway and embankment and to ensure minimum disturbance to natural drainage of surface and subsurface water of the area. The design of drainage system such as surface and sub-surface drainage shall be carried out as per IRC: SP: 42 and IRC: SP: 50. Surface runoff from the main highway, embankment slopes and the service roads shall be discharged through longitudinal drains, designed for adequate cross section, bed slopes, invert levels and the outfalls. If necessary, the walls of the drains shall be designed to retain the adjoining earth. IRC: 34- 1970: Recommendations for road construction in waterlogged area and IRC: 75 and MOSRTH guidelines for Design of High Embankments shall be referred. 196. Provision of additional cross drainage structure shall be made in the areas where nearby land is sloping towards road alignment in both the both sides.

Plate 1: Ch. 139.8 (Chanderi-Mehluva Plate 2: Ch. 141.3 (Near Sehrai village) section)

Operation Stage 197. Water accumulation incidence may occur due to inadequate availability of cross drainage structure or clogging of cross drainage structures. Mitigation Measures 198. Regular removal/cleaning of deposited silt shall be done from drainage channels and outlet points before the monsoon season. Rejuvenation of the drainage system by removing encroachments/ congestions will be regularly conducted. 63

199. Water logging in the low lying and adjoining areas especially during monsoon season is long standing issue. The permanent and long term solution is possible only through co-ordinations between different departments/agencies that include irrigation, agriculture, fisheries, and road construction. 5.2. Impact on Biological Environment 5.2.1. Terrestrial Ecology 200. The project section Pichhore-Chanderi passes through Amarkhon, Chanderi, Padra, Budhna, Sighpur, Kara Pahar, Karmai, Naron reserve forests areas. Although there are 1497 trees within 20 m of the existing road. However, efforts are being made to minimise the tree loss. About, 176 trees are likely to be cut due to the proposed road improvement work. The impact and mitigation due to tree cutting has been discussed in following paragraphs. Design and Construction Stage 201. One month before the construction starts, clearing and grubbing will be performed by the contractor. All trees within the ROW with 300 mm diameter at 1 m above the ground will be cut, including the removal of stumps. All stumps and roots of trees of girth more than 33 mm at above 1 m from the ground level will be culled. 202. Out of the 1497 trees present in the 20 m road section, only 176 trees are likely to be affected due to the project. Most of the roadside trees are non- fruit bearing in nature. The list of trees that will be cut is given in Table 5.2. The cutting of trees will have minor to negligible impact on local environment. Moreover, this will be temporary since large number of trees have been planned to be planted on both sides of the road which will improve the local climatic conditions in long term.

Table 5.2 List of Trees to be Cut Offset from S. No. Chainage (km) Side Centreline (m) End of Chanderi bypass-Kurwai (km 64.050 to km 147.490) 1 122.290 Right 5.0 2 122.300 Left 6.5 3 122.440 Left 4.5 4 122.520 Right 3.8 5 122.530 Right 5.5 6 122.650 Right 4.0 7 122.900 Right 4.5 8 123.000 Left 4.8 9 123.130 Right 5.1 10 123.310 Left 3.9 11 123.320 Left 5.5 12 123.330 Left 4.9

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Offset from S. No. Chainage (km) Side Centreline (m) 13 123.340 Left 3.7 14 123.450 Right 5.0 15 123.570 Left 4.8 16 123.580 Left 4.5 17 123.580 Right 4.5 18 123.580 Right 3.0 19 123.590 Left 5.5 20 123.590 Left 5.0 21 123.640 Left 5.5 22 123.640 Left 4.5 23 123.640 Left 3.7 24 123.700 Left 6.0 25 123.040 Right 5.4 26 124.080 Left 5.5 27 124.090 Left 4.2 28 124.100 Left 4.5 29 124.110 Left 6.1 30 124.120 Left 6.5 31 124.130 Left 3.4 32 124.140 Right 6.1 33 124.150 Right 4.5 34 124.160 Right 4.3 35 124.170 Left 3.5 36 124.170 Left 6.4 37 124.170 Right 5.2 38 124.180 Left 3.9 39 124.460 Left 4.5 40 124.460 Left 4.2 41 124.490 Right 5.6 42 124.660 Left 5.5 43 124.800 Left 6.1 44 124.800 Right 6.0 45 124.850 Left 5.0 46 125.020 Left 4.2 47 125.600 Left 5.1 48 125.710 Left 4.8 49 126.480 Left 6.0 50 126.920 Right 4.5 51 127.010 Left 4.2 65

Offset from S. No. Chainage (km) Side Centreline (m) 52 127.080 Right 5.6 53 127.180 Right 5.4 54 127.180 Right 3.9 55 127.190 Left 3.7 56 127.190 Right 4.1 57 127.200 Left 4.5 58 127.290 Left 6.0 59 127.300 Left 5.8 60 127.350 Right 5.4 61 127.420 Left 4.9 62 127.450 Left 5.5 63 127.480 Left 4.0 64 127.520 Left 5.0 65 127.530 Left 5.5 66 129.600 Right 3.9 67 130.320 Left 4.1 68 130.350 Right 3.9 69 130.550 Left 3.7 70 130.550 Left 6.0 71 130.560 Left 5.4 72 130.720 Right 4.8 73 130.840 Left 4.7 74 130.880 Right 3.9 75 130.900 Right 6.0 76 130.950 Right 7.7 77 131.210 Left 3.7 78 131.210 Left 5.3 79 131.220 Left 5.7 80 132.740 Left 3.5 81 132.840 Left 3.8 82 133.480 Right 3.8 83 133.680 Right 3.5 84 133.690 Right 3.5 85 133.750 Right 3.4 86 135.940 Left 6.3 87 135.960 Left 4.7 88 138.940 Right 6.4 89 138.980 Right 4.2 90 138.990 Left 5.9

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Offset from S. No. Chainage (km) Side Centreline (m) 91 139.020 Left 4.4 92 139.080 Right 5.6 93 139.150 Right 6.1 94 139.170 Right 6.2 95 139.180 Right 5.7 96 139.200 Left 7.6 97 139.200 Left 7.3 98 139.250 Right 5.4 99 139.260 Right 6.3 100 139.280 Left 6.6 101 139.280 Right 5.7 102 139.300 Right 6.0 103 139.310 Right 7.1 104 139.450 Left 7.2 105 139.480 Left 6.2 106 139.500 Right 5.5 107 139.560 Right 5.3 108 139.580 Right 5.2 109 140.500 Right 5.6 110 140.100 Right 4.3 111 140.120 Right 4.4 112 140.130 Right 4.2 113 140.200 Right 4.1 114 140.220 Right 4.2 115 140.250 Left 4.1 116 140.380 Right 6.0 117 140.900 Right 7.7 118 141.160 Right 7.9 119 141.220 Left 6.2 120 141.255 Left 4.3 121 141.260 Left 4.4 122 141.390 Right 4.8 123 141.470 Right 5.4 124 141.510 Left 4.8 125 141.520 Right 5.0 126 141.540 Left 4.0 127 141.550 Right 5.5 128 141.600 Right 4.6 129 141.620 Right 3.3 67

Offset from S. No. Chainage (km) Side Centreline (m) 130 141.620 Right 3.4 131 141.670 Right 3.5 132 141.675 Right 3.8 133 141.700 Left 4.7 134 141.720 Left 3.8 135 141.730 Right 4.9 136 141.740 Left 4.1 137 141.810 Left 5.0 138 141.820 Right 4.6 139 141.880 Right 5.5 140 141.895 Right 5.6 141 141.910 Left 4.8 142 141.950 Left 4.9 143 142.800 Right 6.1 144 142.100 Right 4.8 145 142.100 Right 6.3 146 142.150 Right 3.9 147 142.180 Right 3.8 148 142.220 Right 4.6 149 142.240 Right 3.8 150 142.280 Right 3.2 151 142.300 Right 5.1 152 142.320 Left 4.5 153 142.430 Left 6.0 154 142.000 Right 5.4 155 143.010 Right 4.2 156 143.020 Left 6.8 157 143.080 Left 5.0 158 143.090 Left 6.0 159 143.280 Left 6.0 160 143.290 Left 6.0 161 143.720 Right 4.9 162 145.720 Left 6.9 163 145.790 Right 3.2 164 145.820 Right 4.4 165 145.821 Right 4.5 166 145.821 Right 4.6 167 145.950 Right 6.4 168 146.000 Left 7.4

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Offset from S. No. Chainage (km) Side Centreline (m) 169 146.090 Right 6.1 170 146.335 Left 6.0 171 146.340 Right 5.8 172 146.410 Right 4.0 173 146.450 Right 4.1 174 147.000 Right 3.2 175 147.190 Right 5.4 176 147.210 Right 4.7 Source: DPR and Strip Mapping Mitigation Measures 203. Requisite permission from forest department shall be obtained for cutting of roadside trees. 204. The project envisages plantation of approximately 1232 trees along both sides of road as per IRC SP: 21 specifications. This will include the compensatory plantation on 1:7 basis to enhance the aesthetics and check soil erosion. All tree plantations will be carried out in close consultation with forest department. 205. A range of 10-15 m centre-to-centre is recommended for spacing of trees (parallel to the road). Setback distance of trees in different situations shall be based on IRC: SP: 21 and IRC: 66. The distance between the kerb, if any, and the nearest edge of tree trunk shall be at least 2 m. The plantation in median shall comprise shrubs whose height would normally not exceed 1-1.5 m and shall be as per IRC SP: 21. 206. For safe traffic operation, vertical clearance between the crown of the carriageway and lowest part of overhang of the tree available across the roadway shall conform to the standards laid down in IRC: SP: 21. The pit size, fencing, watering, and manuring requirements shall also conform to the above standard. Planting shall be such that it does not obstruct the visibility of traffic from any side and shall be pleasing in appearance. Operation Stage 207. Positive impacts on terrestrial ecology are expected during the project operation due to the increase in vegetation and landscaping along the state highway. The Project will coordinate with the local communities to maintain and enhance the trees planted along the state road. ”No adverse impact is anticipated during operation stage except accidental damages or absence of proper tree management“. Mitigation Measures 208. Arrangement shall be made to ensure survivability of the tree plantation. The Social Forest Department or Divisional Forest Offices shall be consulted or involved in this programme. The tree survivability audit shall also be conducted at least once in a year to assess the effectiveness of the programme. 69

5.2.2. Aquatic Ecology Design and Construction Stage 209. Large scale/organised fishing was not observed in the rivers/water bodies of the project area. All water bodies are seasonal in nature except river Budhni. 210. Improvement of existing embankments particularly along the waterways will increase silt while accidental spill of materials, chemicals, and fuels will deteriorate receiving water quality. Mitigation Measures 211. Siltation shall be avoided by measures suggested in para 171. Operation Stage 212. No impact is envisaged during operation phase of the project and hence no mitigation proposed. However, periodic surveillance shall be conducted to check erosion and siltation in major water bodies. 5.2.3. Fauna Design and Construction Stage 213. Movement of herbivores like Cattle, Goats, Cows, Black Bug, Chital and Blue Bull have been observed in the surrounding agriculture fields near Kurwai section (Ch. 143-146). Mitigation measures 214. Disturbance to these animals will be avoided to the extent possible by restricting the construction time from 6 am – 6 pm. No food and waste littering will be ensured to disturb their natural habitat. 215. All precautions will be taken to minimise noise and other human activity in these areas. Operation Stage 216. Movement of herbivores like Cattle, Goats, Cows, Black Bug, Chital and Blue Bull have been observed in the surrounding agriculture fields near Kurwai section (Ch. 143-146). Mitigation measures 217. A box culvert of 2.5 m height will be provided especially near forest areas for safe passage of animals. 218. Fencing wherever cattle movement is expected. To avoid the need for cattle underpasses, some of the proposed culverts near habitations may be widened to facilitate cattle movement 5.3. Management of Construction Debris/Waste 219. Quarry dust and unused iron bars or damaged support structures constitute significant wastes. Mitigation for solid waste from construction camp has been given in construction camp section. Mitigation measures

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220. All excavated materials from roadway, shoulders, verges, drains, cross drainage will be used for backfilling embankments, filling pits, and landscaping. 221. Unusable debris material should be suitably disposed off at pre- designated disposal locations, with approval of the concerned authority. The bituminous wastes shall be disposed in secure landfill sites only in environmentally accepted manner. For removal of debris, wastes and its disposal MOSRTH guidelines should be followed. The locations of dumping sites should be selected with following considerations. 222. Unproductive/wastelands shall be selected with the consent of villagers and Panchayat. The dumping site should be of adequate capacity. It should be located at least 1000 m away from the residential areas. 223. Dumping sites should be away from water bodies to prevent any contamination of these bodies. 5.4. Socio-Economic Impact 224. Assessment of project impact on socio-economic conditions point to the conclusions that positive benefits are many fold compared to its adverse impact. 5.4.1. Positive Impacts 225. Road-side economic activities will increase due to increased number of vehicle using the road. Economic activities supporting transport like gasoline stations, automotive repair shops, lodging, and restaurants are expected to increase. Increase agro-industrial activities are also expected to take advantage of improved access to urban centres where there are higher demands and better prices for agricultural products. Other generic benefits of such projects are (i) Reduction in travel time (ii) better mode and frequency of transport (iii) access to quality heath care facilities, educational and other infrastructural facilities (iv) enhanced tourism activities in the area and state which in many terms will boost the local economy (v) better investment climate for industries creating more employment opportunities to local people. 5.4.2. Anticipated Negative Impacts 226. Minor losses like problems in accessibility and community linkage, health and safety during and after construction, and temporary change in demographic configuration are mitigable with minor to negligible residual impacts. 5.4.2.1 Impacts due to Construction Camp and Immigration of Workers 227. Poor siting and improper management of construction camp may lead to several adverse impacts on environment viz. (i) loss of vegetation due to use of wood as fuel source for cooking (ii) deterioration in nearby surface water bodies’ quality (iii) compaction and contamination of soil due to uncontrolled disposal of solid waste (iv) Poor sanitation may result to transmission of communicable diseases among the workers and the host communities. This include the possible spread of sexually transmitted 71

disease, diseases from improper handling and supply of foodstuffs, poor water supply, insect-borne diseases, and alcoholic and drug. Mitigation measures 228. Construction camp shall be sited at such locations so as to utilise the existing infrastructure. No productive land should be utilised for construction camp. All sites must be graded, ditched and rendered free from depressions to avoid water stagnation and necessary provisions for adequate drainage must be made. Accommodation and ancillary facilities including recreational facility for workers shall be erected and maintained to standards and scales approved by the resident engineer. All camps should maintain minimum distance of 500 m from habitation and water bodies. 229. All construction camps shall be provided with sanitary latrines and urinals with provision of septic tanks attached with soak pits. Storm water drains shall be provided for the flow of used water outside the camp. Drains and ditches shall be treated with bleaching powder on a regular basis. Garbage bins must be provided in the camp and regularly emptied and disposed off in a hygienic manner. LPG cylinders shall be provided as fuel source for cooking to avoid any tree cutting, wherever possible. 230. At every workplace, the contactor will ensure, in collaboration with local health authorities that a readily available first-aid unit including an adequate supply of sterilized dressing materials and appliances shall be provided. Suitable transport shall be provided to approach the nearest hospital. 231. The contractor will ensure the good health and hygiene of all workers to prevent sickness and epidemics. These include the HIV/AIDS prevention program to reduce the risk and transfer of HIV virus between and among the workers and community, promote early diagnosis and assist affected individuals. Activities under the program include monthly information, education, and consultation communication campaigns to workers, drivers, delivery crew, and communities on the risk, dangers, and impacts of STD and HIV/AIDS. 232. The contractor will ensure that sufficient supply of suitable and hygienically prepared food at reasonable price is available to the workers. 233. The contractor will provide adequate and safe water supply for the use of the workers. 234. The contractor will ensure that all precautions to protect the workers from insect and pest to reduce the risk to health. This includes the use of insecticides which should comply with local regulations. 235. No alcoholic liquor or prohibited drugs will be imported to sell, give, and barter to the workers of host community. 236. Migrant workers may be the potential carriers of various diseases. Local community may get exposed to the diseases carried by migrant workers. Regular health check-up and immunization camps shall also be organized for the workers and nearby population. 5.4.2.2 Safety of Construction Workers and Accident Risk to Local Community

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Design and Construction Stage 237. The following safety aspects viz. (i) safety of construction workers, (ii) safety of road users including pedestrians and cyclists (iii) safety to cattle; (iv) safety of local community (iv) unsafe/ hazardous traffic conditions due to construction vehicle movement need to be considered during design and construction stage and (v) conduct of safety audit. Mitigation measures 238. During the construction phase, contractors shall be required to adopt and maintain safe working practices. Internationally accepted and widely used safety procedures should be followed during (i) road works (ii) handling of large construction equipment and machineries, (iii) handling of chemicals and hazardous materials and inflammable substances (iii) welding (iv) electrical works etc. A set of mitigation measures for construction workers have been provided in EMP matrix table. 239. Contractor shall arrange all PPEs for workers, first-aid and fire fighting equipments at construction sites. An emergency plan shall be prepared duly approved by engineer in charge to respond to any instance of safety hazard. The contractor will be required to appoint an Accident Prevention Officer (APO) who will conduct regular safety inspections at construction sites. The APO will have the authority to issue instructions and take protective measures to prevent accidents. 240. The partial control on access for the project road shall be achieved through measures like service road with physical separation for local traffic, intersections, acceleration/deceleration lanes, vehicular and pedestrian underpasses, median openings with shelter lane. 241. Grade separated intersections/junctions shall be provided at all major intersections in consistent to IRC: 92 242. Pedestrian/cyclist and cattle passageways shall be provided near identified locations. These facilities shall be planned in accordance with the relevant provisions contained in IRC-11, IRC-17 and IRC-103. The crossing facilities can be designed either in conjunction with grade intersections or through underpasses. 243. To avoid disruption of the existing traffic due to construction activities, comprehensive traffic management plan shall be drawn up by the concessionaire. Traffic in construction zones shall be managed as per the provisions of IRC SP 55. 244. After construction is completed in a particular zone, it shall be opened for normal operation. All diversions/access roads should be closed before start of normal operation. 245. Use of retro-reflectorized traffic signs, and cantilever/gantry types overhead signs, thermoplastic road marking paints, delineators, traffic cones, empty bitumen drums, barricades, and flagmen will be used to ensure traffic management and safety. Conduct of regular safety audit on safety measures adopted during construction. The audit will cover manpower and their safety, machinery, temporary works, equipment and 73

vehicles, materials storage and handling, construction procedures, environment, site safety guidelines, and miscellaneous services. Operation phase 246. The provision of service roads, underpasses have been made in the road design for safe movement of people and animal across the roads. Important issues related with safety during operational phase are monitoring of emergencies and establishing procedures to carry out rescues during sudden disasters such as floods, fires especially near habited areas. Mitigation Measures 247. It is proposed to explore the feasibility of providing the following facilities:

o Highway patrol unit(s) for round the clock patrolling to provide assistance to the users in case of any need, monitor the travel conditions to provide information to the control section and to undertake immediate measures for managing the traffic flow in case of any incident.

o Phone booths for accident reporting and ambulance services with minimum response time for rescue of any accident victims.

o Tow-away facility for the break down vehicles. 248. MPRDC may also explore the possibility of coordination with operating agency of intersecting National Highways to have common facilities and share the costs as appropriate. 5.4.3. Obstruction and Disruption of Traffic Construction Phase 249. Disruption of access to infrastructure or social resource due to construction activity will cause nuisance and to a certain extent additional cost to the public in terms of longer travel period due to diversion or heavier traffic. It will also pose risk of accident to motorist at night if these blockages and disruption are not clearly demarcated. Mitigation Measures 250. The contractor will submit a Traffic Plan to the Project Engineer at least two weeks before the construction starts that will result to obstruction. The plan will include a drawing of temporary diversions and details of arrangement. It will also include plan for transportation of raw materials like quarry, sand etc. A section of the Traffic Plan will be a Control Plan that details how the safety of the pedestrians and workers and delineation of the roadway at night. This plan will recommend for approval of safe and convenient temporary diversion of traffic during construction, design of barricades, delineators, signs, markings, lights, and flagmen, among others. 251. Paved shoulder will be provided on one side of the existing road by the contractor with the following minimum requirements: • At least one 3.5 m lane to remain to traffic at all times

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• The surface used by the through traffic will be firm bituminous compacted surface free of defect • The maximum continuous length over which construction under traffic may take place is limited to 750 meters. • Construction activity will be restricted to only one side of the existing road. 252. On stretches where it is not possible to pass the traffic on the part width of existing carriageway, temporary paved diversions will be constructed. These paved diversions will comply with standards on junctions and temporary cross drainage. 253. Transportation of quarry material to the construction sites through heavy vehicles shall be done through existing major roads to the extent possible. This will restrict wear and tear to the village/minor roads. Small vehicles/un-motorised vehicle can also be used for its further transportation to the construction sites from temporary storage areas. 5.4.4. Transportation and Storage of Materials 254. The construction material primarily will consist off aggregate, sand, cement, bitumen, lubricating oil and fuel for vehicle and construction equipments. These will be stored temporarily at construction camps. Oils, fuels and chemicals will be stored on concreted platform with spill collection pits while cement will be stored under cover. All these temporary storage areas will be located at least 150 m away from habitat areas. The likely impacts due to transportation and storage including fugitive emission have already been covered under different section above. 5.4.4.1 Impact on Land and Private Properties 255. The assessment made by the resettlement expert shall be referred for exact loss of private properties and measures to compensate such losses. Environmental screening of resettlement sites, if required for the project, shall be carried out. Besides monetary compensation for any loss of private trees, compensatory afforestation and extensive plantation has been incorporated in the EMP to have long-term environmental benefits. 256. Income restoration measures/livelihood options for vulnerable group/resource poor sections and other affected persons as recommended by social development/resettlement expert shall be implemented. 5.4.4.2 Impact on Common Property Resources 257. There are various types of community structures/ facilities/utilities along the proposed alignment. Geometric adjustments have been made to minimize the loss to any such facilities. Any such structures even falling within ROW but out of required formation width shall be saved. Alternate access has to be provided to these structures during construction stage. No community structures are likely to be dismantled/relocated. The impact on other community properties has been provided at Table 5.2. 75

Table 5.3 : Common Property Resources Along the Alignment Offset from edge S. No. Chainage Features Side of road (m) Pichore Town to Pichore 1 31.1 Bus Shelter Right 7 2 31.115 Temple Left 18 Pichore to Chanderi 1 60.225 Police Quarter,Govt. Right 21 2 59.6 Temple Left 19 3 57.9 Temple Right 13 4 57.5 Government School Right 11 5 55.4 Temple Right 11 6 55.3 Temple Left 11 7 54.95 Temple Right 11 8 54.8 Hospital Right 12 9 54.75 Temple Right 3 10 54.6 Temple Right 40 11 53.975 Temple Right 17 12 51.4 Temple Left 13 13 51.2 Temple Right 11 14 49.235 Temple Right 13 15 44.3 Temple Right 16 16 43.8 Temple Left 13 17 41.9 Bus Shelter Right 9 18 38.125 Temple Right 16 19 38.125 Temple Right 13 20 38.1 Temple Right 17 21 37 Temple Right 9 22 36.6 Government School Right 21 23 36.4 Government School Right 20 24 31.5 Bus Shelter Left 9 25 31.1 Bus Shelter Left 10 26 30 Temple Left 19 27 26.1 Temple Right 30 28 25.9 Temple Right 36 29 24 Temple Right 16 30 23.9 Burial Ground Left 12 31 23.6 Government School Left 9 32 23.3 Temple Left 5 33 23.1 Temple Left 20 34 22.5 Bus Shelter Right 8 35 21 Temple Left 9 36 21 Temple Left 10 37 20.9 Temple Right 4

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Offset from edge S. No. Chainage Features Side of road (m) 38 20.65 Temple Right 10 39 19.8 Temple Right 11 40 19.7 Temple Left 5 41 19.4 Government Hospital Right 5 42 19.275 Temple Right 4 43 18.5 Government School Left 14 44 15.575 Bus Shelter Right 4 Chanderi to Kurwai 1 77.400 Temple Left 24 2 77.400 Temple Right 11 3 82.915 Temple Left 19 4 93.700 Bus shelter Left 16 5 95.200 Temple Left 15 6 100.000 Canal Across 7 100.250 Temple Right 10 8 101.500 Petrol Pump Right 30 9 102.350 Temple Left 4 10 102.900 Burial ground Right 17 11 102.950 Burial ground Left 7 12 104.900 Temple Right 4 13 108.300 Temple Left 4 14 108.300 Temple Left 4 15 108.500 Canal Across 16 108.900 Temple Right 5 17 109.100 Temple Right 6 18 111.500 Temple Right 4 19 111.900 Burial ground Right 18 20 112.800 Hospital Left 3 21 112.800 Temple Right 14 22 113.600 Temple Left 9 23 114.000 Bus shelter Left 11 24 116.300 Temple Left 5 25 120.100 Canal Across 26 123.600 Temple Right 27 27 123.700 Petrol Pump Right 21 28 124.000 School Left 23 29 124.200 Temple Left 27 30 124.200 School Left 31 31 124.300 Temple Right 15 32 124.350 Bank Left 5 33 124.375 Forest office Right 10 34 124.800 School Right 8 35 124.800 School Right 8 77

Offset from edge S. No. Chainage Features Side of road (m) 36 124.900 Temple Left 15 37 125.000 Temple Right 8 38 126.200 Temple Right 24 39 127.900 Temple Left 30 40 129.600 Temple Left 6 41 129.600 Temple Right 12 42 130.600 Temple Right 34 43 131.150 Temple Right 26 44 132.800 Temple Right 15 45 133.900 Burial ground Left 12 46 134.000 Temple Right 11 47 136.100 Temple Left 10 48 136.300 Temple Left 18 49 136.700 Temple Right 22 50 139.300 Bus shelter Left 7 51 139.700 Temple Right 8 52 140.250 Burial ground Right 14 53 140.250 School Right 31 54 140.600 Bus shelter Left 15 55 144.700 Temple Left 18 56 145.000 Temple Left 10 57 145.120 Temple Right 20 58 145.150 Temple Right 24 59 146.000 Temple Left 10 60 148.500 School Right 9 61 148.500 Bus shelter Right 7 62 148.700 Temple Left 9 63 148.700 Temple Right 7 64 148.900 Temple Right 8 65 148.950 Temple Right 13 66 149.000 Temple Left 3 67 149.200 Temple Right 43 68 149.300 Temple Left 13 69 152.200 Bus Shelter Right 7 70 157.100 Temple Left 11 71 157.500 Temple Left 20 72 157.500 Temple Left 19 73 159.950 Temple Left 11 74 160.400 Temple Left 9 75 161.400 Temple Left 19 76 162.000 Temple Left 4 77 162.400 College Left 5 78 162.400 Burial ground Left 5

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Offset from edge S. No. Chainage Features Side of road (m) 79 162.700 Temple Left 4 80 165.200 Temple Right 14 81 168.150 Temple Right 40 82 169.100 Temple Right 13 83 169.200 Temple Right 18 84 169.250 Temple Right 24 85 169.750 Bus shelter Right 12 86 171.900 Temple Left 5 87 172.400 Temple Right 13 88 172.700 Temple Right 37 89 173.200 Temple Left 10 90 173.350 Bus shelter Right 9 91 175.450 Temple Right 31 Source: DPR and Strip Mapping 5.5. Cumulative and Induced Impact 258. Cumulative Impact - The area along the present road section SH-19 is developing. The road already exists and proposed project will facilitate the pace of development. Some of the cumulative impacts will be deterioration in the air and noise quality especially at the congested locations like Bahadurpur, Badi Barmorkalan, Pichhor due to increased traffic. The ancillary development activity due to the improved road conditions will further put pressure on agricultural lands and vegetated areas such as Mehluva, Junaikhedi, Atareji. However, these activities will be slow and impacts are expected to be minimal. 259. The project is expected to improve long time water flooding, soil erosion conditions especially near Sehrai, Orr and Budhni River and other rolling terrain areas due to additional culverts and over-toppings. The higher amount of compensatory afforestation (1:7) will increase the aesthetics along the ROW and help in bringing the positive impact on the sourroundings. The improved accessibility will also result in increased industrial and commercial developments especially near Reddi Choraha, Badi Barmorkalan, Achhroni, Pichhor etc. The net impacts are expected to be more positive. 260. Induced Impact - The induced impact from the project will be mainly due to the related developmental activities and improved infrastructural development like building construction and commercial establishment. This is likely to result in net positive impact due to overall social development. 79

6. PUBLIC CONSULTATION AND INFORMATION DISCLOSURE 6.1. Consultation Method and Information Disclosed 261. Consultations were held during different stages of the preparation of IEE. To address the key environmental issues, consultations at various levels with local people and government departments were conducted to arrive at socially and technically accepted solutions. A comprehensive consultation with all stakeholders was conducted at the project section. 262. Stakeholder’s consultations were held with the intent to understand their concerns, apprehensions, overall opinion and solicit recommendations to improve project design. Informal meetings, interviews were organized covering the entire project stretch. The informal consultation generally started with explaining the sub projects, followed by an explanation to potential impacts. Participant’s views were gathered with regard to loss of agricultural land, effect on air and noise quality of the area due to traffic, water availability, accident and risk. 263. The discussions were designed to receive maximum inputs from the participants regarding their acceptability and environmental concerns arising out of the sub-project. They were given the brief outline of the project to which their opinion was sought. Suggestions were also sought for mitigating any potential adverse impact. 6.2. Compliance with Relevant Regulatory Requirements 264. In India, public consultation is mandatory in case of Category A and B1 category projects7 in select conditions. Being a category B project as per ADB SPS 2009, consultation was carried out during the early stage of IEE report preparation. The requirement of public consultation during the implementation of the project has been proposed as part of the mitigation plan. 265. Public consultation was undertaken consistent with the ADB requirements. All the five principles of information dissemination, information solicitation, integration, co-ordination and engagement into dialogue were incorporated in the consultation process. A framework of different environmental impacts likely from the project was strengthened and modified based on opinions of all those consulted, especially in the micro level by setting up dialogues with the village people from whom information on site facts and prevailing conditions were collected.

7 As per schedule I of EIA notification number S.O. 1533, dated 14th September 2006. This notification also defines when a public consultation is mandatory.

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6.2.1. Consultation with Executing Agency 266. Officials of executing agency provided technical information’s about the project. All issues related to effective implementation of EMP, grievance redress mechanism, various clearances/consent and permission required prior to and during implementation were discussed. Mr. Vivek Aggarwal and Mr. P.K. Chaturvedi, Managing Director and Deputy General Manager of Madhya Pradesh Road Development Corporation (MPRDC), expressed their organization’s commitment to implement the project in environmentally sustainable way and as per the applicable laws/regulations/guidelines and safeguard requirements of ADB and the country. They also shared about lessons learnt from ongoing project. 6.2.2. Consultation with other Government Departments 267. All relevant government departments/agencies including forest and wildlife, fisheries, pollution control board, water resources, and DRDA were consulted for collection of available information their views/ comments and suggestions about the project. 268. Forest officials of the Shivpuri and Ashok Nagar District informed about the existence of forests in the project area. They were also interacted with about the existing rules and norms with regards to forest resources and compensation in case of cutting of roadside trees. The officials assured their cooperation in compensatory afforestation work. 269. The list of government officials contacted, along with purpose/objective has been summarised in Table 6.1.

Table 6.1 : Summary of Consultation with Government Officials S. Name of Official Department Issue discussed No. Consulted PCCF (Working Plan), Status of forest in state, Impacts on 1. Mr. Dubey Forest Department, forest, mitigation options, Satpura Bhavan, Bhopal Environmental friendly forest activities Sr. Scientist, Environmental Issues in the state, legal Madhya Pradesh framework of MoEF and revised EIA 2. Dr. Rita Kauri Pollution Control Board notification 2006, applicable permits & Paryavaran Bhavan, clearances, Impacts of proposed project Bhopal on environment, Scientist, Environmental Issues in the state, legal Madhya Pradesh framework of MoEF and revised EIA 3. Dr. Abhay Saxena Pollution Control Board notification 2006, applicable permits & Paryavaran Bhavan, clearances, Impacts of proposed project Bhopal on environment, Environmental quality in the state and Superintending Engineer major urban centres. Capacity of Mr. Rajesh Madhya Pradesh pollution control board in environmental 4. Srivastava Pollution Control Board management and monitoring Paryavaran Bhavan, requirements of SPCB in the proposed Bhopal project. 81

S. Name of Official Department Issue discussed No. Consulted Dy. Conservator of Status of forest in state, Impacts on 5. Mr. S. P. Sharma Forest, Forest forest, mitigation options, Department, Bhopal Environmental friendly forest activities

Conditions of road network in state, scope of road improvement, Managing Director, 6. Mr. Vivek Aggarwal environmental issues related with road MPRDC, Bhopal improvement, capacity enhancement of MPRDC, future plans Conditions of road network in state, DGM (Environment), scope of road improvement, 7. Mr. Alok Chaturvedi MPRDC, Bhopal environmental issues related with road improvement Conditions of road network in state, scope of road improvement, Mr. Piyush.K. environmental issues related with road 8 DGM, MPRDC, Bhopal Chaturvedi improvement, implementation schedule of various activities, organizational setting of MPRDC, Sidhhi Lal, Ram Kishore Chaubey, Ram Ji – Forest Guard Status of forests along the project road, Forest Guards, Range Swayamvar Singh presence of flora and fauna species in 9. officers, local community Shishir Gupta – the forests, forest boundaries and road leaders Forest Ranger encroachments

Radheyshyam, Haider Ali – community leaders

6.2.3. Consultation with NGOs 270. All the NGOs welcome the project. They express concern over afforestation programme. NGOs also demand to pay attention for survival rate of the trees. Awareness camp among the people regarding road safety is also suggested. The outcome of consultation with NGOs is summarised below in Table 6.2.

Table 6.2 : Summary of Consultation with NGOs Name of NGOs Contact Remarks Person BYPASS - Bhopal Yuwa Mr. Akhilesh • Welcomed the project Paryavaran Shikshan Singh Yadav • Raised concerns about the impact on and Samajik Sansthan reserve forests through the project stretch Chunabhatti, • Expressed his concern about use of fodder Bhopal,M.P.-16 from the forest being used during construction phase • Suggested minimal tree cutting and

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Name of NGOs Contact Remarks Person proportional afforestation Ecosake Society for Mr. Kinshuk • Welcomed the project Environment Tiwary • Expressed his desire that adequate Conservation and Social compensation should be provided, as per Awareness the latest R&R policy, to the people Bhopal-16 affected from this project • Desired minimal impacts on forest and other mineral resources in the region from the project • Desired involvement of Local skilled and unskilled labour during construction activities Green Hurt Nature Club Jai Sharma • Welcomed the project M.P. Nagar, Bhopal-11 • Emphasized the need of plantation of local tree species for the roadside plantations. • Raised his concerns on the land filing/borrow activity suggested about prevention of top soil • Desired the need of awareness/ training program for the contractors and labourers to educate them for environmental issues. Forum for Environmental Dr. R. Mathur • Welcomed the project Protection • Expressed his concern regarding water Gwalior - 474011 logging problem during construction phase at many places. • Raised his concerns about health and safety schemes to be provided to construction labours especially during monsoon period. • Emphasized on the need of identification of sites for disposal of construction debris before the start of civil works. • Wanted banning of old vehicles on these roads by Government to reduce the pollution. Energy Environment and Ajit Kumar • Welcomed the project Development Group Saxena • Raised his concerns about the problem of R-12, II Floor electricity and its role in number of Above Central Color Lab accidents that occurred on this road due to Bhopal - 462003 it. • Enquired about the compensation to be provided to the displaced/affected people. Centre for Envirocare Mahendra • Welcomed the project and Energy Technology Kumar Shukla • Expressed his concerns about the cutting E-7/466 Arera Colony of trees and stressed the need for their Bhopal - 462016 rehabilitation and afforestation. Madhya Pradesh • Suggested the need of increasing the awareness among contractors, labourers and villagers. 6.3. Beneficiaries’ Comments 83

271. The project has immense acceptability among the local people. They perceived that in addition to providing all weather connectivity, the sub- project road will bring positive socio-economic changes in the area. Local people mainly discussed on issues related to rehabilitation and resettlement and proper vigilance of construction work. 272. People of villages located adjacent to the proposed road like Mungawali, Bahadurpur, and Pichhore demanded for crossing-over facility/service roads, drainage, wayside amenities, and safety provisions. 273. Villagers of Bahadurpur highlighted that proper vigilance of work need to be done to avoid misuse of public fund by the contractors. 274. Other common demands included modifications of alignment near orchards and religious structures. The people wanted consultation before relocation of such structures. They were also concerned about the safety issues related with increase in traffic due to improved road conditions The list of participants, their views, and outcome of the consultations have been summarised in Table 6.3.

Table 6.3 : Consultation with local community S. Village Name of Particpiant Issues and Outcomes No. 1. Mehlua Navoday singh . Welcomed the project chauhan (sarpanch) . Complained about the bad road conditions Udham singh especially during monsoon period due to which (farmer) movement and business is severely affected. Bhupendra singh . Expressed their concern on the safety aspect in (farmer) the post-project scenario. Kailsah Narayan . Concerned about land acquisition and (farmer) compensation to the affected people. Kamal Singh Lodhi . Expressed their desire to provide street lights (farmer) especially near schools and dense population. Sharif khan (farmer) . Supported the project with whatever help they Rachna (housewife) can as they have to face immense hardship to Shiela (housewife) meet their ends due to bad road. Ramesh (farmer) . No fishery activity reported by the villagers . Informed about use of fertilizers and pesticides for agricultural activities 2. Mungaw Mudassar Ali . Welcomed the project ali (foreman) . Complained about the road conditions and Shaukat khan informed about the accidents on the road (vendor) . Complained about the lack of infrastructure Pandit ji (old aged) facilities for village students and hoped the road Pintu singh (student) conditions will improve this as well Arun Yadav . Complained about the poor drainage on the raod (Jhagaria village) due to which the rainwater enters the shops and Pappu (farmer) houses during monsoon season Sundar lala (shopkeeper) 3. Bahadur Jeevan Shastri . Complained about road conditions pur (teacher) . Enquired about the land acquisitions and

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S. Village Name of Particpiant Issues and Outcomes No. Chajju ram (labour) compensations by the Government Ram kirpal (farmer) . Enquired about the fate of illegal encroachments Satyender (farmer) and their fate Daulat singh . Are supportive of the cause and ready to provide (shopkeeper) any help to improve the condition of road Dablu (shopkeeper) . Insisted on quality roads with proper drainage Raju singh (villager) . No problem of child labour . No gender biases in the village . Major population involved in agriculture 4. Van S.K. Trivedi, (van . Welcomed the project chowki sipahi) . Informed about the forest areas and the species Vikramp Aadarsh Trivedi (van planted ur sipahi) . Informed about the cutting of trees by the Ram Raja Singh villagers from forest areas Yadav (chaprasi)

5 Pichhor Daya singh, Nandu . Welcomed the project Chaudhary, Rakesh, . Expressed their concern on the safety aspect in Govind singh, Gaya the post-project scenario. Prasad, Chotku, Ram . Concerned about land acquisition and Janam -community compensation to the affected people. leaders . Enquired about the inclusion of local people during construction phase . Enquired about the project schedule and activities

Plate 1: Discussion with villagers at Bahadurpur and Pichhore 85

Plate 2: Discussion with villagers at Mehlua and Pichhore

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7. ENVIRONMENTAL MANAGEMENT PLAN AND GRIEVANCE REDRESS MECHANISM

7.1. Environmental Management Plan 1. The Environmental Management Plan (EMP) is prepared to facilitate effective implementation of recommended mitigations measures with defined roles and responsibility, regulatory compliance requirements, stages of implementation with location, time frame and costs. The mitigation measures are proposed to eliminate or minimise the identified impact associated with design, construction and operation stages of the project, to acceptable level by adopting the most feasible options. 2. The EMP consists of action plans for (i) implementation of recommended mitigation measures, (ii) environment quality monitoring during construction and operation stage to assess the effectiveness of mitigation measures proposed, and (iii) institutional capacity building and training. The EMP is detailed at Appendix 7.1.

7.1.1. Social Development and Indigenous People Development Program (IPDP): 3. A separate Social Impact Assessment study is undertaken and social development programme is addressed as per this study. The involuntary resettlement issue is also addressed under separate study. However, the correlated issues like safety of habitats and workers, protection of common physical cultural resources, safe passage of habitats are addressed under environmental assessment and mitigation plan. 4. Since there is no indigenous population likely to be affected in the project area, IPDP is not envisaged. This has to be confirmed based on the social assessment.

7.1.2. Emergency Response Plan 5. Assessment of nature, type and extent of project activities establishes that accidents on paved roads and consequent spillage can be the more frequent emergency. Other situation includes road overtopping due to heavy flood. It is suggested to develop a communication and response system to minimize the response time. The project authorities shall be prepared to counteract against such emergency either by developing in- house capabilities or by associating with any competent agency. 7.2. Environmental Monitoring Program (EMoP) 6. The environmental monitoring programme is prepared with the aim to monitor the environmental performance of environmental management plan. The EMOP is planned with focus on following objectives: • To the assess the effectiveness of mitigation measures proposed • To assess the change in environmental quality during construction and operation stage with respect to before the project scenario. 87

• To assess compliance to regulatory requirements • To monitor the status of corrective action taken in case of deviation from the planned measures or regulatory requirements. This will be used as performance indicators for the project. A monitoring plan defining the parameters to be monitored, with sampling locations, frequency of measurements, cost and responsibility for various component of environment is prepared for all stages of project and provided as Appendix 7.2.

7.2.1. Monitoring schedule and performance indicator 7. The monitoring schedule has been developed based on the possible occurrence of adverse impacts and required mitigation actions. However, this schedule is subject to change depending on the analysis results obtained. The performance indicators and protocol for changing the monitoring schedule is given below. 7.2.1.1.1 Tree Plantation 8. 75% survival rate of re-plantation shall be monitored on the first year of the operation phase. If the survival rate is found below 75%, necessary measures will be taken to increase the survival rate and monitoring shall be again taken up on the third year of operation. This cycle should continue until the 75% survival rate is achieved. 7.2.1.1.2 Soil Erosion and Drainage Congestion 9. No significant soil erosion problem is anticipated due to the project either in the construction phase or in the operation phase. However, in the construction phase, some localised soil erosion may be noticed owing to construction activities. However, if soil erosion is noticed during construction and operation phase, corrective actions shall be be initiated and frequency of check increased to assess the tendency of occurrence. 10. The cross drainage structure shall be free from siltation. Visual check shall be made periodically to identify any drainage congestion or water logging along the road. Appropriate corrective action shall be taken to clear the congestion and prevent reoccurrence. 7.2.1.1.3 Air and Noise Quality 11. Due to the variability of the construction activities, namely changes in batch composition, type of construction activity and other anthropogenic influences, the ambient air quality of the project area may change. If the air quality with respect to any parameter exceeds by more than 25% of its last monitored value, the monitoring frequency shall be doubled and cause of the increase investigated. If the construction activities are found to be the reason for this increase, suitable measures should be adopted. 12. Similarly, due to the variability in traffic movement, namely changes in traffic volume, traffic compositions and other anthropogenic influences, the noise quality in the project area is likely to change. If the noise

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quality exceeds by 20% of the applicable ambient noise quality standard or 10% of its last monitored value, the monitoring frequency shall be increased and the cause of the increase investigated. If the construction activities are found to be the reason for this increase, suitable measures should be adopted. 7.2.1.1.4 Water Quality 13. No significant change in water quality is perceived due to the project in the operation phase. However, in the construction phase, the monitored values for pH, BOD, COD, TDS, DO and Oil & Grease might change owing to construction activities. Hence, it is suggested that if the monitored value for any water quality parameter exceeds by more than 20% of its last monitored status the monitoring frequency shall be increased.

7.2.2. Authorities and their Responsibilities for Implementation of EMoP 14. The most essential component of the Environment Monitoring Plan is the execution of the Plan in accordance with the monitoring schedule provided therein. The field officer concerned at PIU will be responsible for timely monitoring of various parameters and compliance with the mitigative measure proposed. He can execute this task through supervision consultant. A resultant database is proposed to be maintained. A Management Information System (MIS) is also put in place for effective flow of information between various levels and functions within the MPRDC. 15. The monitoring reports shall be sent to Sr. Manager (Environment & Social) at head office with copy to Divisional Officer. 7.3. Institutional Setting and Proposed Implementation Arrangement 16. M. P. State Road Development Corporation (MPRDC) is responsible for the development of state roads. MPRDC has set up divisional offices which act as Project Implementation Unit (PIU). Each PIU is headed by Divisional officer who is supported various engineers (field officers). These field officers also have the responsibility to comply with various regulatory permitting and compliance monitoring requirement. A Sr Manager (Environment & Social) is posted at Head Quarter who is responsible for overall environment and social management of sub projects. He reports to Dy General Manager who is responsible for the implementation of MPSRP_II and co-ordinate with ADB to monitor all environmental requirements of this subproject. 17. For subproject planning and implementation, Project Implementation Unit/s (PIUs) are established. This is headed by Divisional Officer and supported by Field officers. It is proposed to designate one of the field officers with additional responsibility of environment and social management. This officer shall be given adequate training for effective environmental management and monitoring. The designated field officer will be responsible for implementation and monitoring of EMP. Field Officer will monitor the compliance directly or with the help of supervision consultant. SQC will also supervise the contractor for complying the EMP 89

requirements, monitoring requirements and obtaining the required permits. Divisional officer will be responsible for ensuring overall effective implementation of EMP at PIU level who will ensure it through field officer and SQC. Field officer will be fully responsible for operation stage monitoring. 18. The EMP will be included in the construction contract and the contractor will be responsible for its implementation. MPRDC will monitor the implementation of these mitigation measures by the contractors through Sr Manager Environment, Field Officers at PIU and SQC. The field officers at PIU level will be responsible for compliance monitoring and periodic reporting to divisional officer and Sr. Manager Environment at Head office. 19. The roles and duties of various agencies responsible for monitoring have been outlined in Table 7.1. The flow diagram depicting the institutional arrangement for implementation EMP and EMoP has been given as Figure 7.1. Table 7.1 : Roles and Duties of Implementing Agency/Organisations HQ MPRDC Contractor PIU Supervision Consultant • Obtain statutory • Obtain permits as • Joint verification to • Assist and advise the clearances required required during be carried out by PIU in matters relating during pre-construction construction stage HQ, PIU, SC to environment and stage Contractor Env. social matters. • Joint Verification Manager. • overall project Exercise including, • Compliance reporting coordination and PMU CMU, SC for • Overall Supervision to EMP and clearance management through review of EMP of implementation of conditions PIU supported by SC EMP. Verification of • Interaction with Sr consent taken by • Provide corrective • Interaction and Manager (Env. & contractor for action if any deviation Reporting to ADB. Social) , PIU and SC opening of borrow to EMP is identified Submission of areas, and setting up progress reports to • Contractor’s Env. • Part of Joint labour camps. ADB atleast once in a Officer will be primarily Verification Exercise Ensuring restoration year. responsible for to be carried out by implementation EMP as per initial HQ, PIU and • Effective agreement with land Contractor for review • implementation of Filling of Reporting owner of EMP for EMP and Monitoring of Format and submitting • Keeping records of modification in EMP to SC all consents obtained enhancement • Compilation of data • Monitoring through by contractor. measures (if required) relating to approved agency. • Compilation of data • Ensure that the implementation of • Preparation of various relating to contractor define the EMP. plans for effective implementation of cost of environmental • Advising and implementation of EMP. measures like borrow suggesting corrective EMP as detailed out in area rehabilitation etc • Filling of Summary measures to adhere to EMP and submitting it which are shown as Sheets and reporting time schedule for for approval to SC part of construction to HQ. implementation of cost under EMP • EMP. Identification of sites • Approval of plans matrix (Appendix 7.1) for labour camps, hot prepared by before the start of • Carry out mix plant, batch mix contractor construction. This verification/supervision plant, debris disposal amount shall be • exercises for etc Addressing released against

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implementation of grievances of local completion of EMP with respect to community and respective EMP modification (if information measures. required) for dissemination • enhancement through Supervise measures. NGOs/CBOs. implementation of EMP/EMoP by contractor • Develop good practices construction guidelines to assist contractor in implementation of EMP • Conduct Consultations programs with the stakeholders on regular basis to get first hand information on the inconvenience caused to contractor’s activities such as noise, debris disposal etc. • Ensure submission of compliance report on EMP/EMoP once in six months to PIU

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HQ MPRDC Asian DY General Manager Development (MPSRSP II) Bank

Social and Env. Group (Proposed) Sr. Manager (Env and Social) Supported by Manager Env. and Social (proposed)

PIU Supervision Consultant Contractor Divisional Officer supported by field Officers

Field Officer – (Proposed to be designated with additional responsibility of Env. And Social)

Need Based Support from Approved Monitoring Agency and Independent Subject Experts and Institutions

Figure 7.1 : Proposed Structure for EMP/EMOP Implementation

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7.3.2. Institutional / Capacity Building 20. Capacity Building: As per the existing structure, one officer at Sr. Manager Level is responsible for Environmental and social aspect at MPRDC. Considering the increasing magnitude of activities, it is proposed that another manager level officer be appointed to support Sr manager’s activities. The group shall be named as Environmental and Social Group. To facilitate and streamline this group’s activities it is proposed to develop the Environmental and social impact guidelines. This will standardise the impact assessment, regulatory compliance and environmental quality monitoring mechanism. A software (MIS) system with on line linkage with different PIUs is also proposed to track the environmental performance. A budget of Rs. 30.0 lacs is made for the same. 21. Training and Awareness: To enhance the capacity of officials for effective implementation of proposed mitigation measures and monitoring the resultant effects, as well as create awareness amongst workers and public, the training and awareness programme is planned and is given as Table 7.2. The institutions/agencies like regional office of MoEF, SPCB/CPCB, and Indian Institute of Technologies can be consulted for such trainings. Independent subject’s experts/consultants (e.g., for the environmental awareness program, impact assessment specialist will be the resource person) can also be the resource persons to impart trainings. These experts /agencies shall be appointed based on specific need for the training.

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Table 7.2 : Combined Training Budget for MPSRP II

Combined Training Budget for MPSRP II

S. Target Subject(s) Method Time Basis for Costs Estimation No. group Frame and Estimated Training Training Delivery Cost Material Preparation 1 All staffs of Environmental Lectures Before @ Rs 2.0 Lacs Reproduction of Training MPRDC Overview: cum beginning Material Rs 24,000 (@ Rs. 200 including Environmental interaction of the per set for 120 sets ) PIU project Regulations, sub- implement staff project related ation of Training Delivery: Honorarium involved in provisions of various the sub- and travel cost of the faculty implementa Acts/ Guidelines, EIA project. Rs 2.0 lac (@ 50,000 per tion of the notification, process programme for 4 programmes) project and and methodology for INR 6.24 Select IEE, EMPs Lakhs Venue and other facility costs NGOs. Rs 2.0 lacs ( @ Rs 50000 per programme with 25 participants in each) 2 Field Implementation of Workshop Before the @ Rs 2.0 -do- Officer EMPs: s and constructio Lacs (Env) at Basic features of an Seminars n begins PIU, EMP, Planning, Supervision designing and INR 6.24 Consultant’ execution of Lakhs s environmental Environmen mitigation and tal enhancement Specialists measures, monitoring and Select and evaluation of NGOs environmental conditions including preparation of monitoring documents – during construction and operation 3 Sr Environmentally Workshop Before the @ Rs 3.0 Lacs -do- Manager, Sound Construction s and Site constructio Manager at Practices: visits n Head Clean construction Quarter and technology, INR 6.24 Field officer alternatives materials Lakhs at PIU, , and techniques for design construction, Waste team, Management and Supervision minimization in Consultant construction, pollution Constructio control devices and n methods for Contractors construction sites and ’ staff equipment, Environmental clauses in contract documents and their implications, protection of flora and fauna Environmental

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monitoring during construction 4 PIU and Monitoring Lectures, During @ Rs 1.5 Lacs Reproduction of Training Supervision Environmental Workshop initial Material Rs 24,000 (@ Rs. 200 Consultant, Performance during and site phases of per set for 120 persons ) NGOs and Construction: visits constructio community Air, Water, Soil and n Training Delivery: Honorarium representati Noise, tree survival and travel cost of the faculty ves Monitoring INR 5.0 Rs 1.6 lac (@ 40,000 per requirement and Lakhs programme for 4 programmes) techniques, Evaluation and Venue and other facility costs Review of results, Rs 1.6 lacs ( @ Rs 40,000 per Performance programme with 25 participants indicators and their in each) applicability, possible corrective actions, reporting requirements and mechanisms Total Rs 23.72 Training lacs or Costs Say Rs. 24 lacs

22. Management System: It is proposed to develop standard environmental guidelines for impact assessment, management plan, and monitoring. It is recommended to develop an Environmental Management and Reporting Systems following international standards like ISO 14001. 7.4. Grievance Redress Mechanism 23. Any environmental grievance received from public or stakeholders concerning the project will be directed to the concerned PIU. Firstly, field officer will assess if the grievances are genuine or suggestion is acceptable. Accordingly, response will be given within 15-30 days through suitable mode by the field officer with the approval of Divisional Officer. In case PIU is unable to resolve the issue, the matter will be forwarded to Sr. Manager ( Environment & Social) at head quarter who will take it up further and resolve. The corrective and preventing action will be taken in a time bound manner as per response given to the stakeholders. The outcome shall also form part of quarterly report to ADB. 24. The local community will be informed by the respective supervision consultants about the option to express their grievances if any through the mechanism described above before the start of construction activities. The grievance redress mechanism with the name of concerned official shall also be displayed at MPRDC website, and on notice boards of the PIU office and construction sites. 95

8. CONCLUSIONS AND RECOMMENDATIONS 8.1. Conclusions 25. The findings of Environment Assessment indicate that project is unlikely to cause any significant environmental impacts. While some of the impacts are negative, there are many bearing benefits to the area. Most of the impacts are likely to occur during construction stage and are temporary in nature and can be mitigated with minor to negligible residual impacts. Some impacts require design consideration and are suitably addressed. The project received immense support from local people as they perceive that this project will improve the overall connectivity and bring various economic opportunities to the people of the area. 26. The alignment does not pass through or located nearby ecologically sensitive or protected areas. No archaeological/protected monument is located in the project vicinity. The land use pattern around the alignment is predominantly agricultural. The significant impact during construction is mainly associated with minor increase in dust borne air pollution, increased noise level, nuisance due to movement and operation of vehicles, establishment of temporary facilities, hindrance in accessibility to common property resources etc. During operation stage, the main impact may be related to air quality and noise. Other issues relates to road safety including pedestrian and cattles. 27. Environmental screening and assessment of likely impacts, the project has been categorised as Category ‘B’. The effective implementation of environmental management plan will facilitate in minimising the environmental impact to acceptable level. No additional studies or need of undertaking detailed EIA is envisaged at this stage. 28. Key findings of the IEE are summarised in following paragraphs: • There are several canals and drains cutting across the project alignment. The major rivers crossing the project area are Kethan, Budhni and Sehrai River, out of which only Budhni is found to be perennial as per the physical verification. Further, the topography of the subproject area is marked by elevated plains and low altitude hills which cause flooding during monsoon season, especially near the surface water bodies and canals. Therefore adequate cross drainage structures are required to avoid flooding during monsoon season. All necessary measures as suggested in IEE including IRC specifications for embankment formation in waterlogged areas shall be taken into account. • The groundwater condition in the project section is poor. Hence, provisions of water harvesting should be adopted. • Since no land acquisition is involved, the project will not affect any family. Also, there will be no Impact on community infrastructure as the upgradation is limited to the available ROW. • Ambient noise level is within prescribed limit except near busy intersections such as Bahadurpur, Sehrai, Mungawli, Pichhore etc. Some of the key suggested measures during construction are provision

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of temporary noise barriers and regulating construction timings near sensitive locations. Operation stage mitigation includes multilayered plantation and restricting honking near sensitive areas, maintaining good road conditions and congestion free traffic movement. • Large quantity of earth is required for the project. The availability of government waste land/barren land/uplands etc. is limited in the area. It is recommended to follow the guidelines for borrow area management as suggested in IEE. • Since the sub-project passes through about 22.5 km of reserve and protected forests, the condition imposed in the forest clearance must be strictly implemented. Also, provisions mentioned in the IEE for these locations for the safety of flora and fauna should be strictly imposed. • The compensatory afforestation should be undertaken at 1:7 basis in close consultation with forest department. Roadside plantation should be done as per IRC specifications. Additional plantation on 1:2 basis shall be done at river banks especially at major bridge locations. • Soil erosion along embankment slope, river banks, bridge sites and river training structures shall be checked through measures suggested in IEE. These measures coupled with silt fencing/brush barrier etc will also help to minimise siltation of water bodies though required at only few locations since most of the water bodies are seasonal in nature. • Predominant land use along the project alignment is agricultural/open area which helps in adequate dispersion of air emission. The increased pollution level during construction stage will be largely localised and temporary in nature. Corridor specific measures to curb emission include maintaining good road conditions, improved traffic regulations and roadside plantation with pollutant absorbent species. • Siting and management of temporary construction facilities i.e. construction camp, workers camp, hot mix plant, batching plant, dumping sites, stone crusher etc. shall be done in environmentally accepted manner as mentioned in IEE. • Dismantled material shall be reused to the extent possible. Leftover debris shall be disposed off in environmentally acceptable method and at designated sites. • Risk involved with accidents, community and occupational health safety should be mitigated as per measures provided in IEE. A proper traffic management plan shall be in place well before start of the construction. 29. Post Construction Environmental Assessment Surveillance and Monitoring is essential to sustain the effectiveness of the mitigative measures suggested. A detailed monitoring plan has been prepared as part of the Environmental Management Plan. The focus areas of monitoring covers air, surface water quality, noise, soil erosion, drainage congestion and tree survival rate. The reporting requirements along with the follow up actions in case of deviation from the norms have been detailed out as a part of EMP. The frequency has been set in consideration of the likely impacts. 97

8.2. Key Recommendations: 30. Any major changes or any major additional work other than the proposed project activities will require preparation of another environmental assessment. This additional assessment will have to be submitted to concerned Government authorities and ADB for concurrence before civil works commence. 31. The implementation of prescribed mitigation measures will minimize/avoid the adverse impacts. Moreover, the impacts shall be monitored continually by implementing and updating the Environmental Management plan and Environmental Monitoring Plan. Environmental Management and Monitoring Plan may be updated if deemed necessary as per site conditions. MPRDC shall submit six monthly compliance/update reports to ADB. 32. All necessary clearances/permissions/No-objections/Consents should be obtained as required at different stages and as outlined in legal framework chapter of IEE. MPRDC shall ensure that environmental clearance as may be required is obtained before start of construction. 33. Executing agency shall ensure that EMP and EMoP is included in Bill of Quantity (BOQ) and forms part of bid document and civil works contract. The same shall be revised if necessary during project implementation or if there is any change in the project design and with approval of ADB.

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APPENDIX 3.1 : Inventory and Survey Condition of Bridges

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APPENDIX 3.2 : RAPID ENVIRONMENTAL ASSESSMENT CHECKLIST

Roads and Highways

PICHHORE-CHANDERI-MUNGAWLI-ONDER-KURWAI (SH-19) SECTION

Instructions:

(i) The project team completes this checklist to support the environmental classification of a project. It is to be attached to the environmental categorization form and submitted to the Environment and Safeguards Division (RSES), for endorsement by Director, RSES and for approval by the Chief Compliance Officer.

(ii) This checklist focuses on environmental issues and concerns. To ensure that social dimensions are adequately considered, refer also to ADB's (a) checklists on involuntary resettlement and Indigenous Peoples; (b) poverty reduction handbook; (c) staff guide to consultation and participation; and (d) gender checklists.

(iii) Answer the questions assuming the “without mitigation” case. The purpose is to identify potential impacts. Use the “remarks” section to discuss any anticipated mitigation measures.

IND/Sub-regional Transport Enhancement Project – Road improvement Country/Project Title: Pichhore-Chanderi-Mungawli-Onder-Kurwai (SH-19) Section

Sector Division: IND: TA 4998

SCREENING QUESTIONS Yes No REMARKS A. Project Siting

Is the Project Area Adjacent to or within any of the following environmentally sensitive areas? . Cultural Heritage Site None. The project road passes Chanderi town, a historically important location, through an existing bypass. Hence, no effect on any cultural heritage site is envisaged. . Protected Area None.

None . Wetland

. Mangrove None

. Estuarine None

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SCREENING QUESTIONS Yes No REMARKS . Buffer Zone of Protected Area None

. Special Area for Protecting None Biodiversity

B. POTENTIAL ENVIRONMENTAL IMPACTS

WILL THE PROJECT CAUSE…

Encroachment on historical/cultural No encroachment on historical or cultural areas; disfiguration of landscape by areas is envisaged. road embankments, cuts, fills, and quarries? The topography of project road is mainly flat except some stretches of rolling / hilly terrain. But, minor impacts on landscape by road embankments to improve profile, cuts and fills cannot be ruled out. Encroachment on precious ecology None. The project road does not pass (e.g. sensitive or protected areas)? through any sensitive ecological areas.

Alteration of surface water hydrology of Minimal, since no new construction of waterways crossed by roads, resulting bridges are proposed. Most rivers in project in increased sediment in streams area are seasonal. Necessary measures affected by increased soil erosion at shall be taken to prevent impacts on construction site? watercourses.

Deterioration of surface water quality Suitable prevention measures such as silt due to silt runoff and sanitary wastes fencing will reduce silt run off. from worker-based camps and chemicals used in construction? Adequate measures for sanitary waste and silt runoff shall be taken.

Increased local air pollution due to rock Local air pollution level is likely to be crushing, cutting and filling works, and increased for short duration during chemicals from asphalt processing? construction period particularly due to earth work. Appropriate distance from settlement area and wind direction may be taken into account to locate air polluting facility like stone crushing unit etc. if required. Risks and vulnerabilities related to Risk is temporary and associated with occupational health and safety due to construction phase. physical, chemical, biological, and radiological hazards during project Construction workers will be provided with construction and operation during proper occupational, health and safety gear. project construction and operation? Safety officer will be appointed by contractor to lead implementation of occupational and community health and safety plan during construction phase Noise and vibration due to blasting and Minimal increase in ambient noise level is other civil works? expected due to various construction activities. Necessary mitigation measures will be taken in noise sensitive locations such as schools, temples and forest areas. 101

SCREENING QUESTIONS Yes No REMARKS Dislocation or involuntary resettlement None. Project improvement work is to be of people carried out within existing available ROW, no resettlement is envisaged. Dislocation and compulsory None resettlement of people living in right-of- way?

Disproportionate impacts on the poor, None women and children, Indigenous Peoples or other vulnerable groups?

Other social concerns relating to All possible mitigation measures will be inconveniences in living conditions in taken to avoid any inconvenience due to the the project areas that may trigger project. Efforts will also be made to keep air cases of upper respiratory problems pollution within permissible levels to prevent and stress? respiratory problems and stress among the nearby inhabitants. Hazardous driving conditions where Traffic management plan to be followed construction interferes with pre-existing during construction will be prepared. roads?

Poor sanitation and solid waste Appropriate waste management shall be disposal in construction camps and adopted to prevent any such conditions. work sites, and possible transmission Awareness plan for workers will be prepared of communicable diseases from to educate them about communicable workers to local populations? diseases.

Creation of temporary breeding No such condition is anticipated habitats for mosquito vectors of disease?

Accident risks associated with Temporarily during construction Stage. increased vehicular traffic, leading to Adequate measures will be provided to accidental spills of toxic materials and prevent them such as speed reduction, loss of life? provision of crash barrier & proper traffic signage system at sensitive places will ensure smooth traffic flow which will reduce accidental risk Increased noise and air pollution Temporarily during construction phase. resulting from traffic volume?

Increased risk of water pollution from Temporarily during construction phase. oil, grease and fuel spills, and other materials from vehicles using the road? Adequate preventive measures will take to prevent such risks. Social conflicts if workers from other None. All the workers will be hired locally. regions or countries are hired?

Large population influx during project None. construction and operation that causes increased burden on social infrastructure and services (such as water supply and sanitation systems)?

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SCREENING QUESTIONS Yes No REMARKS Risks to community health and safety Temporarily during construction phase. due to the transport, storage, and use and/or disposal of materials such as Adequate preventive measures will take to explosives, fuel and other chemicals prevent such risks. during construction and operation?

Community safety risks due to both Community and occupational health and accidental and natural causes, safety plan will form part of EMP. especially where the structural elements or components of the project are accessible to members of the affected community or where their failure could result in injury to the community throughout project construction, operation and decommissioning.

The Project is categorized as B. As per MOEF latest EIA notification, Environmental Clearance for the project is not required. However, other consent conditions will be required. 103

APPENDIX 3.3 : Forest Clearance

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APPENDIX 3.4 : Details of Chainage-wise Existing and Proposed Design Speed and Curve Radius

Existing Proposed S No. Chainage Radii Speed Chainage Radii Speed Remarks Start End (mt) (kmph) Start End (mt) (kmph) Bachran Choraha-Pichore 1 32.83 32.91 25 12 1.75 1.83 36 15 Junction 2 33.01 33.12 55 15 1.93 2.04 60 20 Junction Pichore - Shivpuri District 3 59.97 59.92 170 30 2.47 2.52 200 35 Junction 4 59.64 59.55 150 25 2.59 2.68 160 30 5 59.42 59.31 155 25 2.81 2.91 180 35 6 58.94 58.88 125 20 3.28 3.34 170 30 Junction 7 55.42 55.34 110 20 6.78 6.87 130 30 Juncton 8 55.05 54.91 155 25 7.17 7.31 175 30 Urban area Urban area 9 54.78 54.63 230 30 7.42 7.57 280 40 + Junction 10 54.34 54.18 80 20 7.87 8.03 95 30 Forest area 11 54.09 54.02 50 20 8.12 8.19 60 30 Forest area 12 54 53.94 55 20 8.21 8.27 65 30 13 53.22 53.11 135 25 9.02 9.12 150 30 Juncton 14 48.68 48.57 55 20 13.58 13.7 80 20 Juncton 15 47.01 46.93 75 30 15.22 15.3 90 40 Forest area 16 46.88 46.84 75 30 15.35 15.39 100 40 Forest area 17 38.61 38.48 100 20 23.66 23.8 130 30 Bridge App 18 38.34 38.22 195 30 23.93 24.05 210 35 Bridge App 19 36.63 36.56 70 20 25.64 25.72 85 20 Junction 20 36.01 35.87 160 25 26.26 26.4 175 30 Junction 21 26.4 26.35 125 30 35.92 35.96 150 40 Open Land 22 26.28 26.2 110 30 36.01 36.09 150 40 Open Land 23 24.07 23.99 80 25 38.22 38.3 95 40 Junction 24 23.93 23.83 125 30 38.36 38.46 150 40 Bus Stop 25 20.6 20.54 60 20 41.68 41.74 75 20 Junction 26 20.52 20.46 110 20 41.75 41.82 125 20 Urban Area 27 20.33 20.27 160 20 41.95 42.01 170 30 28 20.25 20.17 45 10 42.03 42.1 52 10 Urban Area 29 20.15 20.13 20 10 42.13 42.15 30 10 Urban Area 30 20.11 20.09 15 10 42.17 42.19 20 10 Urban Area

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Existing Proposed S No. Chainage Radii Speed Chainage Radii Speed Remarks Start End (mt) (kmph) Start End (mt) (kmph) 31 20.08 20.04 60 20 42.19 42.24 70 20 Urban Area 32 20.04 20.02 60 25 42.24 42.26 100 25 Urban Area 33 19.99 19.97 90 20 42.29 42.31 100 25 Urban Area 34 19.94 19.9 100 20 42.34 42.37 125 25 Urban Area 35 19.88 19.81 200 25 42.4 42.47 250 40 Urban Area 36 19.79 19.73 60 20 42.49 42.55 70 20 Urban Area 37 19.61 19.55 105 25 42.67 42.72 150 30 Urban Area 38 19.41 19.38 70 20 42.87 42.9 100 25 Urban Area 39 19.36 19.33 30 15 42.92 42.94 50 15 Urban Area 40 19.29 19.27 170 25 42.99 43 200 30 Urban Area 41 19.07 19 145 20 43.21 43.28 170 30 Urban Area 42 17.21 17.17 180 25 45.07 45.11 200 30 Bridge Shivpuri - Ashoknagar District Boundary Approach to 43 170.93 170.82 140 20 51.79 51.89 170 30 Bridge Approach to 44 170.76 170.64 110 20 51.96 52.07 125 25 Bridge 45 166.39 166.36 90 30 57.43 57.46 110 40 Forest Area 46 166.2 166.19 15 10 57.62 57.63 25 10 Junction 47 165.51 165.42 250 35 58.69 58.78 280 40 Bridge 48 164.7 164.64 60 20 59.14 59.19 80 30 Forest Area 49 164.42 164.36 105 20 59.41 59.47 150 30 Forest Area Bridge + 50 164.35 164.3 70 20 59.48 59.53 100 25 Forest Chanderi Bypass 51 0.21 0.29 100 20 60.66 60.74 120 40 52 0.38 0.48 65 20 60.83 60.93 80 20 Junction 53 0.6 0.68 65 20 61.06 61.14 80 40 Forest Area 54 0.9 0.94 125 25 61.36 61.4 200 40 Forest Area 55 1.02 1.09 110 25 61.48 61.56 150 40 Forest Area 56 1.1 1.12 120 25 61.56 61.58 200 35 Forest Area 57 1.13 1.18 55 20 61.59 61.64 65 40 Forest Area 58 1.24 1.32 170 30 61.7 61.78 200 40 Forest Area 59 1.34 1.41 130 25 61.8 61.88 150 40 Forest Area 60 1.74 1.9 210 30 62.18 62.35 270 40 Forest Area 61 2.23 2.26 80 20 62.64 62.68 90 40 Forest Area 62 3.29 3.38 225 30 63.73 63.82 250 40 Forest Area 107

Existing Proposed S No. Chainage Radii Speed Chainage Radii Speed Remarks Start End (mt) (kmph) Start End (mt) (kmph) 63 3.4 3.45 170 25 63.84 63.89 250 40 Forest Area 64 3.48 3.53 50 20 63.92 63.97 70 40 Forest Area Chanderi - Mungawali 65 158.57 158.49 100 20 65.26 65.34 120 30 Forest Area 66 158.43 158.32 65 20 65.4 65.5 80 30 Forest Area 67 157.95 157.89 110 25 65.78 65.84 150 40 Forest Area 68 157.85 157.79 140 30 65.88 65.94 150 40 Forest Area 69 157.71 157.64 110 25 66.03 66.09 125 40 Forest Area 70 157.57 157.53 125 30 66.16 66.21 150 40 Forest Area 71 157.48 157.43 35 20 66.25 66.3 50 40 Forest Area 72 150.97 150.94 80 25 72.94 72.97 100 40 Forest Area 73 145.05 144.92 150 25 78.78 78.9 170 30 Junction 74 139.93 140 130 25 83.95 84.02 170 40 Junction 75 139.98 139.94 150 20 84.04 84.08 170 30 Bridge 76 139.85 139.79 110 20 84.17 84.23 150 30 Bridge Urban + 77 139.33 139.28 150 25 84.65 84.7 250 40 Bridge App 78 139.3 139.23 175 25 84.73 84.8 200 30 Urban Area Railway 79 126.25 126.22 25 10 97.92 97.96 30 10 Track Railway 80 126.22 126.15 55 10 97.96 98.03 80 10 Track Mungawali - Kurwai 81 125.05 125.11 225 35 98.97 99.03 250 40 Urban Area 82 125.11 125.04 150 25 99.03 99.1 170 30 Urban Area 83 124.91 124.87 50 20 99.23 99.27 60 20 Urban Area 84 124.86 124.83 80 20 99.28 99.31 125 20 Urban Area Urban Area 85 124.7 124.71 17 10 99.44 99.45 25 10 + Junction Urban Area 86 124.71 124.68 30 10 99.46 99.49 40 10 + Junction 87 124.67 124.65 150 25 99.5 99.52 200 30 Urban Area Urban Area 88 124.58 124.55 8 10 99.57 99.61 15 10 + Junction 89 124.35 124.32 125 25 99.82 99.85 150 30 Urban Area 90 124.3 124.26 45 20 99.88 99.92 60 20 Urban Area 91 124.22 124.16 95 20 99.95 100.02 110 20 Urban Area 92 123.98 123.92 22 10 100.2 100.26 30 10 Urban Area 93 58.32 58.28 40 10 100.35 100.4 45 10 Urban Area

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Existing Proposed S No. Chainage Radii Speed Chainage Radii Speed Remarks Start End (mt) (kmph) Start End (mt) (kmph) Urban Area 94 123.51 123.5 12 10 100.66 100.68 15 10 + Junction 95 120.17 120.11 80 20 104 104.06 100 20 Bridge 96 116.09 116.05 140 20 108.13 108.17 170 30 Bridge 97 115.98 115.9 190 30 108.23 108.32 250 40 Bridge 98 110.24 110.27 60 20 113.92 113.95 65 20 Bridge 99 110.04 110.1 70 20 114.05 114.12 85 20 Bridge 100 109.91 109.83 65 20 115.4 115.48 80 30 101 109.81 109.78 80 20 115.5 115.53 100 20 Bridge 102 109.71 109.68 13 10 115.59 115.62 19 10 Bridge 103 109.56 109.53 60 20 115.75 115.77 70 20 Urban Area 104 109.5 109.47 40 15 115.82 115.84 80 20 Urban Area 105 109.43 109.4 16 10 115.87 115.9 20 10 Urban Area 106 109.39 109.35 40 10 115.91 115.95 50 10 Urban Area 107 109.3 109.27 60 20 116.01 116.03 100 20 Urban Area Urban Area 108 102.44 102.41 10 10 121.78 121.81 15 10 + Junction 109 94.07 93.98 110 20 130.11 130.19 115 20 Bridge 110 93.79 93.6 225 30 130.38 130.57 250 35 Bridge

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APPENDIX 4.1 : NATIONAL AMBIENT AIR QUALITY STANDARDS

The finding as Notified on 16th November 2009 by the Central Pollution Control Board (CPCB) in exercise of its powers conferred under Section 6 and Section 25 of the Environment Protect Act, 1986.

Time-Weighted Concentration in Ambient Air

Ecologically Industrial, Pollutant Sensitive Area Residential Average (Notified by and other Central rural area Government) Annual* 50 20 3 SO2 ug/m 24 hours** 80 80 Annual* 40 30 3 NOx ug/m 24 hours** 80 80 Annual* 60 60 3 PM10 ug/m 24 hours** 100 100 Annual* 40 40 3 PM2.5 ug/m 24 hours** 60 60

Annual* 0.50 0.50 3 Lead ug/m

24 hours** 1.0 1.0

8 Hours** 2000 2000 3 CO ug/m 1 Hour** 4000 4000 8 Hours** 100 100 3 O3 ug/m 1 Hour** 180 180 Annual* 100 100 3 NH3 ug/m 24 hours** 400 400 Source: Gazette of India, Part II-Section-3-Subsection (i)

* Annual Arithmetic Mean of minimum 104 measurements in a year taken twice a week 24-hourly at uniform interval. ** 24-horly / 8-hourly values or 0.1 hourly monitored values shall be complied with 98% of the time in the year. However, 2% of the time, it may exceed but not on two consecutive days.

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APPENDIX 4.2 : Ambient Noise Level Limits (In Leq dB(A)), India

Day Time Night Time Area/Class (6:00 AM to 9:00 PM) (9:00 PM to 6:00 am)

Standard Standard

Industrial 75 70

Commercial 65 55

Residential 55 45

Silence 50 40 Source: Environment Protection Rules, 1986, Schedule III

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APPENDIX 4.3 : Drinking Water Standards And Probable Effects on Human Health (BIS: IS: 10500, 1991)

S. Prescribed limits Parameters Probable effects No. Desirable Permissible 1 COLOUR (HAZEN UNIT) 5 25 Aesthetically undesirable. 2 ODOUR Essentially free Aesthetically undesirable. 3 TASTE Agreeable Aesthetically undesirable. 4 TURBIDITY (NTU) 5 10 Indicates pollution/ contamination. Affects taste, corrodes supply 5 pH 6.5 8.5 system. Causes scaling, excessive soap HARDNESS, as CaCO3, 6 300 600 consumption, calcification of mg/l arteries. Causes staining of laundry and 7 IRON, as Fe , mg/l 0.30 1.00 porcelain. In traces it is essential for nutrition. May be injurious to heart or kidney patients. Taste, indigestion, 8 CHLORIDE, as Cl , mg/l 250 1000 corrosion and palatability are affected. RESIDUAL CHLORINE, only Excessive chlorination causes 9 when 0.20 - asthma, colitis and eczema Water is chlorinated May cause gastro-intestinal TOTAL DISSOLVED 10 500 2000 irritation, corrosion and laxative SOLIDS, mg/l effect to new users. Excessive Cause incrustation, deficiency causes rickets, 11 CALCIUM, as Ca, mg/l 75 200 essential for nervous, muscular, cardiac functions and in coagulation of blood. Its salts are cathartics and diuretic. Excessive may cause laxative effect; deficiency causes 12 MAGNESIUM, as Mg, mg/l 30 100 structural and functional changes. It is activator of many enzyme systems. Beneficial in human metabolism, deficiency results in nutritional anaemia in infants. Large amounts may result in liver damage, 13 COPPER, as Cu, mg/l 0.05 1.50 causes central nervous system irritation and depression. Enhances corrosion of Al in water supply systems. Causes gastro-intestinal irritation. Along with Mg or Na can have a 14 SULPHATE, as SO4, mg/l 200 400 cathartic effect. Concentration more than 750 mg/l may have laxative effect. Causes infant methaemoglobinaemia, at very 15 NITRATE, as N, mg/l 45 100 high concentration causes gastric cancer and effects central nervous

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S. Prescribed limits Parameters Probable effects No. Desirable Permissible and cardiovascular system.

Reduces dental carries, very high 16 FLUORIDE, as F, mg/l 1.00 1.50 concentration may cause crippling skeletal fluorosis. Acute toxicity may be associated with renal, arterial hypertension, 17 CADMIUM, as Cd, mg/l 0.01 No relaxation itai-itai (bone disease). Cd salts cause cramps, nausea, vomiting and diarrhoea. Burning in mouth, severe inflammation of gastro-intestinal tract with vomiting and diarrhoea. 18 LEAD, as Pb, mg/l 0.05 No relaxation Chronic toxicity produces nausea, severe abdominal pain, paralysis, mental confusion, visual disturbances, and anaemia etc. Essential and beneficial in human 19 ZINC, as Zn , mg/l 5 15 metabolism. Imparts astringent taste to water. Cr6+ produces lung tumours, 20 CHROMIUM, as Cr, mg/l 0.05 No relaxation coetaneous and nasal mucous membrane ulcers and dermatitis. Causes skin damage, circulatory 21 ARSENIC, as As, mg/l 0.05 No relaxation problems, and increased risk of skin cancer. Raises blood cholesterol, lowers 22 ANTIMONY, as Sb, mg/l 0.006 No relaxation blood sugar. 23 ALUMINIUM, as Al, mg/l 0.030 0.200 Leads to neurological disorders. 24 BARIUM, as Ba, mg/l 2 No relaxation Increases blood pressure. 25 BERYLLIUM, as Be, mg/l nil 0.0002 Is carcinogenic Causes nerve damage, thyroid 26 CYANIDE, as CN, mg/l 0.05 No relaxation problem. Neurological and renal disturbances. Excess causes 27 MERCURY, as Hg, mg/l 0.001 No relaxation gonadotoxic and mutagenic effects and disturbs the cholesterol metabolism. Essential as a cofactor in enzyme systems and metabolism processes. Excessive causes change in appetite and reduction 28 MANGANESE, as Mn, mg/l 0.10 0.30 in metabolism of iron to form haemoglobin. Imparts undesirable taste and stains plumbing fixtures and laundry. Leads to hair, finger loss, and 29 SELENIUM, as Se, mg/l 0.01 No relaxation numbness in fingers or toes, circulatory problems. Affects central nervous system, 30 BORON, as B, mg/l 1.00 5.00 salts may cause nausea, cramps, convulsions, coma, etc. 31 ALKALINITY, as CaCO3, 200 600 Imparts unpleasant taste, 113

S. Prescribed limits Parameters Probable effects No. Desirable Permissible mg/l deleterious to humans in presence of high pH, hardness and TDS. Imparts toxicity, accumulates in different organs of body, and 32 PESTICIDES, ug/l nil 0.001 affects immune and nervous systems. Carcinogenic. High concentration causes vomiting and diarrhoea stimulates 33 PHOSPHATE, as PO4, mg/l No guideline secondary hyperthyroidism and bone loss. Harmful to persons suffering from 34 SODIUM, as Na, mg/l No guideline cardiac, renal and circulatory diseases. Essential nutrition element but 35 POTASSIUM, as K, mg/l No guideline excessive amounts are cathartic. Non-toxic element but may be carcinogenic in animals, can react 36 NICKEL, as Ni , mg/l No guideline with DNA resulting in DNA damage in animals. PATHOGENS Causes water borne diseases like a)TOTAL COLIFORM coliform jaundice; Typhoid, 37 No/dl 1 10 Cholera etc. produces infections

b)FAECAL COLIFORM involving skin mucous membrane No/dl of eyes, ears and throat. RADIOACTIVITY: -BETA PARTICLES 0-4 milligram/year 38 Increases risk of cancer. -ALPHA PARTICLES 0-15 picocuries/year -RADIUM 0-05 picocuries/year

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APPENDIX 4.4 : Water Quality Criteria And Standards for Freshwater Classification (CPCB, 1979)

Characteristics A B C D E

Dissolved Oxygen (DO), 6 5 4 4 - mg/L, Min Biological Oxygen Demand, BOD, mg/L, 2 3 3 - - max Total Coliform organism 50 500 5000 - - **, MPN/100ml, Max pH value 6.5-8.5 6.5-8.5 6 – 9 6.5-8.5 6.5-8.5 Free Ammonia (as N), - - - 1.2 - mg/L, Max Electrical Conductivity, - - - - 2250 µmhos/cm, max Sodium absorption Ratio - - - - 26 Boron, mg/L, Max - - - - 2

A) Drinking water sources without conventional treatment but after disinfecting B) Outdoor Bathing (organized) C) Drinking water source with conventional treatment followed by disinfecting D) Propagation of wildlife, fisheries E) Irrigation, industrial cooling, controlled waste disposal

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APPENDIX 5.1: Guidelines for Borrow Areas Management

1. SELECTION OF BORROW AREAS Location of borrow areas shall be finalized as per IRC: 10-1961guidlines. The finalization of locations in case of borrows areas identified in private land shall depend upon the formal agreement between landowners and contractor. If, agreement is not reached between the contractor and landowners for the identified borrow areas sites, arrangement for locating the source of supply of material for embankment and sub-grade as well as compliance to environment requirements in respect of excavation and borrow areas as stipulated from time to time by the Ministry of Environment and Forests, Government of India, and local bodies, as applicable shall be the sole responsibility of the contractor. The contractor in addition to the established practices, rules and regulation will also consider following criteria before finalizing the locations. (1) The borrow area should not be located in agriculture field unless unavoidable i.e. barren land is not available. (2) The borrow pits preferably should not be located along the roads. (3) The loss of productive and agriculture soil should be minimum. (4) The loss of vegetation is almost nil or minimum. (5) The Contractor will ensure that suitable earth is available. 2. CONTRACTOR’S RESPONSIBILTY The Contractor shall obtain representative samples from each of the identified borrow areas and have these tested at the site laboratory following a testing programme approved by the Engineer. It shall be ensured that the sub-grade material when compacted to the density requirements shall yield the design CBR value of the sub-grade. Contractor shall begin operations keeping in mind following; (1) Haulage of material to embankments or other areas of fill shall proceed only when sufficient spreading and compaction plants is operating at the place of deposition. (2) No excavated acceptable material other than surplus to requirements of the Contract shall be removed from the site. Contractor should be permitted to remove acceptable material from the site to suit his operational procedure, then shall make consequent deficit of material arising there from. (3) Where the excavation reveals a combination of acceptable and un- acceptable materials, the Contractor shall, unless otherwise agreed by the Engineer, carry out the excavation in such a manner that the acceptable materials are excavated separately for use in the permanent works without contamination by the un-acceptable materials. The acceptable material shall be stockpiled separately. (4) The Contractor shall ensure that he does not adversely affect the stability of excavation or fills by the methods of stockpiling materials, use of plants are siting of temporary buildings or structures.

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3. BORROWING FROM DIFFERENT LAND-FORMS

A. Borrow Areas located in Agricultural Lands

(i) The preservation of topsoil will be carried out in stockpile. (ii) A 15 cm topsoil will be stripped off from the borrow pit and this will be stored in stockpiles in a designated area for height not exceeding 2m and side slopes not steeper than 1:2 (Vertical: Horizontal). (iii) Borrowing of earth will be carried out up to a depth of 1.5m from the existing ground level. (iv) Borrowing of earth will not be done continuously through out the stretch. (v) Ridges of not less than 8m widths will be left at intervals not exceeding 300m. (vi) Small drains will be cut through the ridges, if necessary, to facilitate drainage. (vii) The slope of the edges will be maintained not steeper than 1:4 (vertical: Horizontal). (viii) The depth of borrow pits will not be more than 30 cm after stripping the 15 cm topsoil aside.

B. Borrow Areas located in Elevated Lands

(i) The preservation of topsoil will be carried out in stockpile. (ii) A 15 cm topsoil will be stripped off from the borrow pit and this will be stored in stockpiles in a designated area for height not exceeding 2m and side slopes not steeper than 1:2 (Vertical: Horizontal). (iii) At location where private owners desire their fields to be levelled, the borrowing shall be done to a depth of not more than 1.5m or up to the level of surrounding fields

C. Borrow Areas near River side

(i) The preservation of topsoil will be carried out in stockpile. (ii) A 15 cm topsoil will be stripped off from the borrow pit and this will be stored in stockpiles in a designated area for height not exceeding 2m and side slopes not steeper than 1:2 (Vertical: Horizontal). (iii) Borrow area near to any surface water body will be at least at a distance of 15m from the toe of the bank or high flood level, whichever is maximum.

D. Borrow Areas near Settlements

(i) The preservation of topsoil will be carried out in stockpile. 117

(ii) A 15 cm topsoil will be stripped off from the borrow pit and this will be stored in stockpiles in a designated area for height not exceeding 2m and side slopes not steeper than 1:2 (Vertical: Horizontal). (iii) Borrow pit location will be located at least 0.75 km from villages and settlements. If un-avoidable, the pit will not be dug for more than 30 cm and drains will be cut to facilitate drainage. (iv) Borrow pits located in such location will be re-developed immediately after borrowing is completed. If spoils are dumped, that will be covered with a layers of stockpiled topsoil in accordance with compliance requirements with respect MOEF/PPCB guidelines.

E. Borrow Pits along the Road

Borrow pits along the road shall be discouraged and if deemed necessary and permitted by the Engineer; following precautions are recommended (i) The preservation of topsoil will be carried out in stockpile. (ii) A 15 cm topsoil will be stripped off from the borrow pit and this will be stored in stockpiles in a designated area for height not exceeding 2m and side slopes not steeper than 1:2 (Vertical: Horizontal). (iii) Ridges of not less than 8m widths should be left at intervals not exceeding 300m. (iv) Small drains shall be cut through the ridges of facilitate drainage. (v) The depth of the pits shall be so regulated that there bottom does not cut an imaginary line having a slope of 1 vertical to 4 horizontal projected from the edge of the final section of bank, the maximum depth of any case being limited to 1.5m. (vi) Also, no pit shall be dug within the offset width from the toe of the embankment required as per the consideration of stability with a minimum width of 10m. 4. REHABILITATION OF BORROW AREAS The objective of the rehabilitation programme is to return the borrow pit sites to a safe and secure area, which the general public should be able to safely enter and enjoy. Securing borrow pits in a stable condition is fundamental requirement of the rehabilitation process. This could be achieved by filling the borrow pit floor to approximately the access road level.

Re-development plan shall be prepared by the Contractor before the start of work inline with the owners will require and to the satisfaction of owner. The Borrow Areas shall be rehabilitated as per following; • Borrow pits shall be backfilled with rejected construction wastes and will be given a vegetative cover. If this is not possible, then excavation sloped will be smoothed and depression will be filled in such a way that it looks more or less like the original round surface. • Borrow areas might be used for aquaculture in case landowner wants such development. In that case, such borrow area will be photographed

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after their post use restoration and Environment Expert of Supervision Consultant will certify the post use redevelopment. The Contractor will keep record of photographs of various stages i.e., before using materials from the location (pre-project), for the period borrowing activities (construction Phase) and after rehabilitation (post development), to ascertain the pre and post borrowing status of the area.

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APPENDIX 7.1: Environmental Management Plan (SH-19: Pichhore-Chanderi-Mungawli-Kurwai 147.38 km) All activity for supervision is on part of SQC unless involvement of different department Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision A. Design and Construction Stage 1. Alignment  Pavement • Selection of suitable pavement Design requirement • All habitat areas throughout During the Included in Design SQC/MPRD damage and design in habitat areas the alignment design construction Consultant C inadequate considering alignment level and stage cost drainage drainage provisions in • Raise road level above the habitat areas nearby areas with provision of adequate side drains to evacuate the rain water and domestic discharges (drained by habitats occasionally) to prevent damage to road and rain water entry to habitats’ houses. • Provision of adequate no of cross drainage structures based on drainage pattern around the alignment  Safety along the • Make provisions of crash barriers Design requirement • Crash barriers are proposed During the Included in Design SQC/MPRD proposed at accident prone areas at the following chainages design construction Consultant C alignment • Provision of rumble strips in along the project corridor stage cost habitat areas to regulate speed. • Provision of retro-reflective Left Side Right Side warning sign boards nears From To From To school, hospital, religious places and forests areas 27.6 27.7 - - • Provision of footpaths along the 35.8 36.0 35.9 36.0 road near habitat areas, school, hospital, religious places and 39.0 39.0 39.0 39.0 forests 39.0 39.1 39.0 39.1 • Compliance with norms specified 48.1 48.1 48.1 48.1 in IRC codes for state highway for curvature and grading 48.3 48.3 48.3 48.3 • Provision of safety kerb with

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision footpath at all bridges 115.5 115.6 115.5 115.6 • The design should attempt to 124.1 124.2 124.1 124.2 equalize cut and fill. The centerline should be aligned so 124.3 124.3 124.3 124.3 that on all slopes below 60 • Rumble strips are proposed at degrees, half cut and half fill can the following chainages – be achieved. 54.75, 23.6, 19.4 (Pichhore- • Minimize the cutting in hill areas. Chanderi section), 124.8, Incorporate slope stabilization 148.5, 162.4 (Chanderi- measures to prevent any land Kurwai section) slide situation. • 2. Natural Hazards  Protection from • Design considering the IRC:34 Throughout the stretch Design Project Design SQC/MPRD damage from earthquake potential though the Recommendations Stage preparation Consultant C Earthquake area falls under low earthquake for road construction Cost intensity of 2/3 in waterlogged area and IRC: 75 and MOSRTH guidelines  Protection of road • Raise embankment height above for Design of High All the existing culverts/bridges Design Included in Design SQC/MPRD embankment in the HFL levels in the flood prone Embankments are improved to increase their and construction Consultant C Flood prone areas. carrying capacity. Constructi cost Areas • Provision of adequate balancing on Stage culverts. 3. Weather Conditions and Air Quality  Local Weather • Geometric adjustment to reduce Kyoto Protocol, Throughout project corridor, Design Road Side Design SQC conditions tree cutting. Environmental mainly at level crossings, and Plantations Consultant /MPRDC • Compensatory tree Plantation Protection Act, haulage roads, earthwork, Constructi +Additional and Contractor (1:7) 1986; The Air construction sites, loading on stage Plantation • Additional Plantation on river (Prevention and areas, storage areas, transport During the cost8=1.5 banks, borrow areas and Control of Pollution) route Constructi Million sensitive locations to increase Act, 1981 on stage (@1200/tree)

8 The total no. trees likely to be cut are estimated to be 176. Compensatory afforestation norm is 1:5. Additional plantation of 1:2 is suggested. Hence, 1232 trees have to be planted in lieu of compensatory plantation. Project has the provision of planting trees on both sides of the road. Project has the provision of planting trees on both sides of the road. The lump sum cost of cutting a tree, its afforestation and maintenance is taken as Rs. 1200.

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision the green cover and improve the + aesthetics IRC and  Dust Generation • Transport, loading and unloading MORTH Included in Design SQC/MPRD due to of loose and fine materials Specifications for project cost Consultant C construction through covered vehicles. Road and Bridge and Contractor SQC/MPRD activities and • Paved approach roads. works C Air (P and CP) transport, storage • Storage areas to be located Act 1974 and and handling of downwind of the habitation area. • Water spraying on earthworks, Central Motor and construction unpaved haulage roads and Vehicle materials other dust prone areas. Act 1988 • Provision of PPEs to workers.  Emission of air • Regular maintenance of Asphalt mixing plants, crushers, During the Included in Contractor SQC/MPRD pollutants (HC, machinery and equipment. DG sets locations Constructi project cost C SO2, NOX, CO • Batching, asphalt mixing plants on stage etc) from vehicles and crushers at downwind (1km) due to traffic direction from the nearest congestion and settlement. use of equipment • Only crushers licensed by the and machinery PCB shall be used Included in • DG sets with stacks of adequate monitoring cost height and use of low sulphur diesel as fuel. • Ambient air quality monitoring • Follow traffic management plan as given in Section 8. 4. Noise  Noise from • All equipment to be timely Legal requirement Throughout project section During the Cost for Contractor SQC/MPRD construction serviced and properly Noise Pollution especially at construction sites, Constructi Plantation C vehicle, maintained. (Regulation and residential areas and identified on stage already equipment and • Bottlenecks to be removed. Control) Rules, sensitive locations indicated machinery. • Construction equipment and 2000 and above. machinery to be fitted with amendments silencers and maintained thereof properly. + • Only IS approved equipments Clause No 501.8.6. shall be used for construction MoSRTH

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision activities. Specifications for • Timing of noisy construction Road and Bridge activities shall be done during works Monitoring night time and weekends near Cost as sensitive receptors such as indicated In schools and temples, concurrent EMoP. noisy operations may be separated to reduce the total noise generated, and if possible re-route traffic during construction to avoid the accumulation of noise beyond standards. Else provision of temporary noise barrier at sensitive locations or near sources. • Time regulation near residential and forest areas construction shall be restricted to daylight hours. • Initiation of multi layered plantation, to serve as mitigation option for operation phase • Honking restrictions near sensitive areas • PPEs to workers • Noise monitoring as per EMoP. 5. Land and Soil  Land use • For construction non-agricultural Project requirement Throughout the project section During Included in Contractor SQC/MPRD Change and Loss areas to be used as borrow and borrow areas design construction C of productive/top areas. and cost soil • If using agricultural land, top soil constructi to be preserved and laid over on Stage either on the embankment slope for growing vegetation to protect soil erosion.  Slope protection • Bio-turfing of embankments to IRC: 56 -1974 Throughout the stretch Design Construction Design SQC/MPRD and Soil erosion protect slopes. recommended especially along hilly areas and cost consultant and C 123

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision due to • Slope protection by providing practice for constructi Contractor, construction frames, dry stone pitching, treatment of on stage activities, masonry retaining walls, planting embankment slopes earthwork, and of grass and trees. for erosion control cut and fill etc. • The side slopes of all cut and fill Clause No. 306 and areas will be graded and covered 305.2.2 with stone pitching, grass and MoSRTH shrub as per design Specifications for specifications. Care should be Road and Bridge taken that the slope gradient works shall not be greater than 2:1. Guidelines IX for  Soil erosion at • The earth stockpiles to be Soil erosion At earth stockpiles Design Construction Contractor SQC/MPRD earth stockpiles provided with gentle slopes to and cost C prevent soil erosion. constructi on stage  Borrow areas • Non-productive, barren lands, IRC Guidelines on Borrow sites location. During Construction Contractor SQC/MPRD upland shall be used for borrow areas and Design cost C borrowing earth with the for quarries and necessary permissions/consents. (Environmental constructi • Depths of borrow pits to be Protection Act and on Stage regulated and sides not steeper Rules, 1986; Water than 25%. Act, Air Act) • Topsoil to be stockpiled and + Clause No. protected for use at the 305.2.2 MoSRTH rehabilitation stage. Specifications for • Transportation of earth materials Road and Bridge through covered vehicles. works • IRC recommended practice for Guidelines V for borrow pits (IRC 10: 1961). Borrow Areas • Borrow areas not to be dug Management continuously. • To the extent borrow areas shall be sited away from habitated areas. Borrow areas shall be leveled with salvaged material or other filling materials which do not pose contamination of soil. Else, it shall be converted into

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision fishpond in consultation with fishery department and land owner/community. Rehabilitation of the borrow areas as per Guidelines for redevelopment of Borrow Areas.  Quarry • Aggregates will be sourced from Clause No. 111.3 Operations existing licensed quarries. MoSRTH • Copies of consent/ approval / Specifications for rehabilitation plan for a new Road and Bridge quarry or use of existing source works Guidelines VI will be submitted to EO, MPRDC. for Quarry Areas • The contractor will develop a Management Quarry Redevelopment plan, as per the Mining Rules of the state and submit a copy of the approval to EA.  Compaction of • Construction vehicles, Design Parking areas, Haulage roads Just Included in Contractor SQC/MPRD soil and impact on machinery, and equipment to be requirement and construction yards. before construction C quarry haul roads stationed in the designated ROW commenc cost due to movement to avoid compaction. ement of of vehicles and • Approach roads/haulage roads constructi equipments shall be designed along the on barren and hard soil area to reduce the compaction. • Transportation of quarry material to the dumping site through heavy vehicles shall be done through existing major roads to the extent possible to restrict wear and tear to the village/minor roads. • Land taken for construction camp and other temporary facility shall be restored to its original conditions.  Contamination • Construction vehicles and Design Fuelling station, construction Just Monitoring Contractor SQC/MPRD of soil due to equipment will be maintained requirement sites, and construction camps before Cost Included C leakage/spillage and disposal location. commenc in EMoP 125

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision of oil, bituminous and refueled in such a fashion ement of and non that oil/diesel spillage does not constructi bituminous debris contaminate the soil. on generated from • Fuel storage and refueling sites demolition and to be kept away from drainage road construction channels. • Unusable debris shall be dumped in ditches and low lying areas. • To avoid soil contamination Oil- Interceptors shall be provided at wash down and refueling areas. • Waste oil and oil soaked cotton/ cloth shall be stored in containers labeled ‘Waste Oil’ and ‘Hazardous’ sold off to MoEF/SPCB authorized vendors • Non-bituminous wastes to be dumped in borrow pits with the concurrence of landowner and covered with a layer of topsoil conserved from opening the pit. • Bituminous wastes will be disposed off in an identified dumping site approved by the State Pollution Control Board • Soil quality monitoring 6. Water Resources Sourcing of water • Requisite permission shall be - Throughout the Project section During Included in Contractor SQC/MPRD during Construction obtained for abstraction of Constructi construction C groundwater from Central on stage cost Groundwater Authority • Arrangements shall be made by contractor that the water availability and supply to nearby communities remain unaffected.  Disposal of water • Provisions shall be made to Clause No. 1010 EP Throughout the Project section During Included in Contractor SQC/MPRD during connect road side drains with Act 1986 MoSRTH Constructi construction C

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision Construction exiting nearby ponds otherwise Specifications for on stage cost make provision of water Road and Bridge harvesting pits intermittently. works  Alteration in • Existing drainage system to be Design requirement, Near all drainage channels, river During Included in Contractor SQC surface water maintained and further Clause No 501.8.6. crossings etc. Constructi construction hydrology due to enhanced. MoSRTH on stage cost embankment • Provision shall be made for Specifications for adequate size and number of Road and Bridge cross drainage structures esp. in the areas where land is sloping towards road alignment. • Road level shall be raised above HFL level wherever road level is lesser than HFL.  Siltation in water • Embankment slopes to be Design requirement Near all river water bodies, During Included in Contractor SQC bodies due to modified suitably to restrict the , embankment slopes. Constructi construction construction soil debris entering water bodies. Clause No 501.8.6. on stage cost activities/ • Provision of Silt fencing shall be MoSRTH earthwork made at water bodies. Specifications for • Silt/sediment should be collected Road and Bridge and stockpiled for possible reuse works as surfacing of slopes where (CP and CP) they have to be re-vegetated. and worldwide best • Earthworks and stone works to practices be prevented from impeding natural flow of rivers, streams and water canals or existing drainage system.  Deterioration in • No vehicles or equipment should The Water Water bodies, refueling stations, During Construction Contractor SQC Surface water be parked or refuelled near (Prevention and construction camps. Constructi cost quality due to water-bodies, so as to avoid Control of Pollution) on Stage leakage from contamination from fuel and Act, 1974 and Monitoring cost vehicles and lubricants. amendments as indicated in equipments and • Oil and grease traps and fuelling thereof. EMoP waste from platforms to be provided at re- construction fuelling locations. camps. • All chemicals and oil shall be stored away from water and 127

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision concreted platform with catchment pit for spills collection. • All equipment operators, drivers, and warehouse personnel will be trained in immediate response for spill containment and eventual cleanup. Readily available, simple to understand and preferably written in the local language emergency response procedure, including reporting, will be provided by the contractors • Construction camp to be sited away from water bodies. • Wastes must be collected, stored and taken to approve disposal site only. • Water quality shall be monitored periodically. 7. Flora and Fauna  Vegetation loss • Minimize tree cutting to the Forest Conservation Throughout project corridor During the Indicated MPRDC SQC due to site extent possible. Act 1980 design above through preparation and • Roadside trees to be removed + and competent construction with prior approval of competent IRC SP: 21 and IRC Constructi authority activities and authority. SP:66 on stage Plantation Strategy • Compensatory plantation at 1:7 basis and additional plantation as per the IRC guidelines in consultation with Forest Department. • Regular maintenance of all trees planted. • Provision of LPG in construction camp as fuel source to avoid tree cutting, wherever possible. • Plantation of trees on both sides of the road. Integrate vegetation

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision management (IVM) with the carriage way completely clear of vegetation. From the edge of the road to the boundary of ROW, vegetation structured with smaller plants near the line and larger trees further away to avoid costly and provide habitats for a wide variety of plants and animals. Additional plantation near river banks to check erosion as part of compensatory plantation. • In the event of design changes during the construction stages additional assessments including the possibility to save trees shall be made by the EA. • Road side Plantation Strategy as per IRC specifications including manuring. • Control use of pesticides/fertilizers 8. Construction Camps  Impact associated • All camps should maintain Design Requirement All construction camps During Included in Contractor and SQC with location minimum distance from Constructi construction EO following: on stage cost # 500 m from habitation # 1000 m from forest areas where possible # 500 m from water bodies where possible # 500 m from through traffic route where possible • The average distance between two camps should be 50 km 129

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision  worker’s Health in • The location, layout and basic The Building and All construction camps During Part of the Contractor SQC construction facility provision of each labor Other Construction constructi Contract camp camp will be submitted to SQC workers (Regulation on stage prior to their construction. The of Employment and construction shall commence Conditions of only after approval of SQC. Service) Act 1996 • The contractor will maintain and necessary living accommodation The Water and ancillary facilities in (Prevention and functional and hygienic manner Control of Pollution) as approved by the EA. Act, 1974 and • Adequate water and sanitary amendments latrines with septic tanks thereof attached to soak pits shall be provided. • Preventive medical care to be provided to workers including a First-Aid kit that must be available in the camp. • Waste disposal facilities such as dust bins must be provided in the camps and regular disposal of waste must be carried out . • The Contractor will take all precautions to protect the workers from insect and pest to reduce the risk to health. This includes the use of insecticides which should comply with local regulations. • No alcoholic liquor or prohibited drugs will be imported to, sell, give, barter to the workers of host community. • Awareness raising to immigrant workers/local community on communicable and sexually transmitted diseases.

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision 8. Management of Construction Waste/Dismantled Debris  Selection of • Unproductive/wastelands shall Design Requirement At all Dumping Sites Constructi Part of the Contractor. SQC Dumping Sites be selected for dumping sites. and MoSRTH on contract • Away from residential areas and guidelines water bodies • Dumping sites have adequate capacity equal to the amount of debris generated. • Public perception and consent from the village Panchayats has to be obtained before finalizing the location. 131

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision  Reuse and • The existing bitumen surface disposal of shall be utilized for paving of construction and cross roads, access roads, and dismantled waste paving works in construction sites and camps, temporary traffic diversions, and haulage routes. • All excavated materials from roadway, shoulders, verges, drains, cross drainage will be used for backfilling embankments, filling pits, and landscaping. • Unusable debris material should be suitably disposed off at pre- designated disposal locations, with approval of the concerned authority. The bituminous wastes shall be disposed in secure landfill sites only in environmentally accepted manner. For removal of debris, wastes and its disposal MOSRTH guidelines should be followed. • Unusable and surplus materials, as determined by the Project Engineer, will be removed and disposed off-site. 8. Accessibility, Traffic Management, Accident and Safety Risks  Design • Temporary traffic diversion shall Throughout the project corridor During Project Contractor SQC requirement and be planned by the contractor and Design requirement especially at intersections. constructi preparation Traffic Planning approved by the ‘Engineer’. and on stage and During • The traffic control plans shall IRC SP:55 construction Construction contain details of diversions; cost Stage traffic safety arrangements during construction; safety measures for nighttime traffic

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision and precautions for transportation of hazardous materials. Traffic control plans shall be prepared in line with requirements of IRC’s SP 55 document’. • The Contractor will ensure that the diversion/detour is always maintained in running condition, particularly during the monsoon to avoid disruption to traffic flow. • On stretches where it is not possible to pass the traffic on the part width of existing carriageway, temporary paved diversions will be constructed. • Restriction of construction activity to only one side of the existing road. • The contractor shall inform local community of changes to traffic routes, and pedestrian access arrangements with assistance from “Engineer”. • Use of adequate signages to ensure traffic management and safety. Conduct of regular safety audit on safety measures.  Pedestrians, • All measures for the safety of Design requirement Near habitation on both sides of Included in Contractor in SQC animal and traffic during construction viz. and schools, temples, hospitals, construction consultation Vehicular signs, markings, flags, lights and • IRC: SP: 27 - graveyards, construction sites, cost. with Forest movement, flagmen as proposed in the 1984 Report haulage roads, diversion sites. department Traffic Control Plan/Drawings Containing Some of the specific locations and MPRDC shall be taken. Recommendation are: at chainages 54.75, 23.6, s of IRC Regional • Temporary access and diversion, Workshops on 19.4 (Pichhore-Chanderi with proper drainage facilities. Highway Safety section), 124.8, 148.5, 162.4 • Access to the schools, temples • IRC:SP: 32 -1988 (Chanderi-Kurwai section) and other public places must be Road Safety for maintained when construction Children (5-12 133

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision takes place near them. Years Old) • Fencing wherever cattle • IRC:SP: 44 -1994 movement is expected. To avoid Highway Safety Code the need for cattle underpasses, • IRC: SP: 55 - some of the proposed culverts 2001 Guidelines `near habitations may be for Safety in widened to facilitate cattle Construction movement. Zones  Safety of Workers • Contractors to adopt and • The Building and Construction sites Constructi Included in Obligation of SQC and accident risk maintain safe working practices. other on period construction Contractor from construction • Usage of fluorescent and Construction cost activities workers Act 1996 retroflectory signage, in local and Cess Act of language at the construction 1996 sites • Factories Act • Training to workers on safety 1948 procedures and precautions. • Mandatory appointment of safety officer. • All regulations regarding safe scaffolding, ladders, working platforms, gangway, stairwells, excavations, trenches and safe means of entry and egress shall be complied with. • Provision of PPEs to workers. • Provision of a readily available first aid unit including an adequate supply of dressing materials. • The contractor will not employ any person below the age of 14 years for any work • Use of hazardous material should be minimized and/or restricted. • Emergency plan (to be approved by engineer) shall be prepared to respond to any accidents or

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision emergencies. • Accident Prevention Officer must be appointed by the contractor.  Accident risk to • Restrict access to construction • local community sites to authorized personnels • Physical separation must be provided for movement of vehicular and human traffic. • Adequate signages must be provided for safe traffic movement 9. Common Property Resources and other Utilities  Utilities • All telephone and electrical Project requirement Throughout the corridor Before Included in Contractor/SQ SQC poles/wires and underground Constructi construction / C cables should be shifted before on R and R cost. start of construction 10. Enhancement Measures  Environmental • Maintenance of tree Environmental Throughout the corridor Design Construction Contractor SQC enhancement plantations. Enhancement as and cost along the corridor • Enhancement/rehabilitation of part of project Constructi borrow areas and camp sites requirement on Stage etc. 11. Contractor Demobilization 135

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision  Clean-up • Contractor will prepare site Project requirement Throughout the Corridor and Immediate ---- Contractor SQC Operations, restoration plans, which will be borrow areas ly after Restoration and approved by the ‘Engineer’. Constructi Rehabilitation The clean-up and restoration on operations are to be implemented by the contractor prior to demobilization. • All construction zones including river-beds, culverts, road-side areas, camps, hot mix plant sites, crushers, batching plant sites and any other area used/affected by the project will be left clean and tidy, at the contractor's expense, to the satisfaction of the Environmental officer. All the opened borrow areas will be rehabilitated .and ‘Engineer’ will certify in this regard. B. Operation Stage 1. Climate and Air quality  Air pollution due • Roadside tree plantations shall Environmental Throughout the Corridor Througho Indicated In SQC/contractor to due to be maintained. Protection Act, ut EMoP vehicular • Regular maintenance of the road 1986; The Air operation movement will be done to ensure good (Prevention and period surface condition Control of Pollution) • Vehicular air pollution will be Act, 1981 managed and monitored at the toll plazas. • Ambient air quality monitoring. If monitored parameters are above the prescribed limit, suitable control measures must be taken. • Technological and behavioral changes • Road signs shall be provided reminding the motorist to

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision properly maintain their vehicles to economize on fuel consumption and protect the environment. 2. Noise Environment  Noise due to • Effective traffic management Noise Pollution Noise sensitive areas such as Througho Included in SQC movement of and good riding conditions shall (Regulation and 54.75, 23.6, 19.4 (Pichhore- ut additional traffic be maintained to reduce the Control) Rules, Chanderi section), 124.8, 148.5, operation plantation cost. noise level throughout the 2000 and 162.4 (Chanderi-Kurwai section) period stretch and speed limitation and amendments honking restrictions may be thereof enforced near sensitive locations. • The effectiveness of the multilayered plantation should be monitored and if need be, solid noise barrier shall be placed. • Create awareness amongst the residents about likely noise levels from road operation at different distances, the safe ambient noise limits and easy to implement noise reduction measures while constructing a building close to the road.

3. Land and Soil  Soil erosion at • Periodic checking to be carried Project requirement At bridge locations and Througho Included in SQC embankment to assess the effectiveness of embankment slopes and other ut Operation/ during heavy rain the stabilization measures viz. probable soil erosion areas. operation Maintenance fall. turfing, stone pitching, river period cost training structures etc. • Necessary measures to be followed wherever there are failures 4. Water Resources 137

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision  Contamination of • Monitoring of surface water Near surface Water bodies surface water bodies Indicated in quality due to EMoP leakage of oil  Siltation • Regular visual checks shall be made to observe any incidence of blockage of drains/culverts. Regular checks shall be made for soil erosion and turfing conditions of river training structures for its effective maintenance.  Water logging • Regular checks shall be done Throughout the corridor due to blockage along the alignment to ensure of streams that flow of water is maintained through cross drains and other channels/streams. • Monitoring of water borne diseases due to stagnant water bodies  Protection of • Immediate removal of deposited Project requirement Identified Flood prone areas During Operation and SQC Embankment in silt from drainage channels and whole Maintenance Flood prone out-let points. Rejuvenation of operation Cost Areas the drainage system by removing stage encroachments/ congestions. This shall be done in close coordination with concerned department. • Long term strategy to be worked out with water resources, agriculture, soil and other department. 5. Flora and Fauna  Vegetation • Planted trees, shrubs, and Forest Conservation Throughout project section During Indicated in SQC grasses to be properly Act 1980 whole Monitoring cost maintained. operation in EMoP • The tree survivalist audit to be period conducted at least once in a

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Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision year to assess the effectiveness • Maintenance of box culverts, wherever provided. 6. Flooding/ inundation  Road inundation • MPRDC will ensure that all Project operation Throughout the stretch During Overall SQC due to choking of drains (side drains and all cross requirement particularly near low lying areas whole Operation cost drainage drainages) are periodically and crossings especially near operation channels cleared especially before Sehrai village enroute to Kurwai. period monsoon season to facilitate the quick passage of rainwater and avoid flooding. 7. Right-of-Way Maintenance  Accident Risk due • Efforts shall be made to make Project requirement Throughout the Project route During Included in SQC to uncontrolled shoulder completely clear of whole operation/ growth of vegetation. operation Maintenance vegetation • Regular maintenance of period. cost plantation along the roadside • Invasive plant not to be planted near the road. 8. Accidents and Safety  Accident risks • Traffic control measures, IRC:SP:55 Throughout the Project route During Included in SQC associated with including speed limits, will be whole operation/ traffic movement. enforced strictly. operation Maintenance • Further encroachment and period. cost squatting within the ROW will be prevented. • No school or hospital will be allowed to be established within 100 m of the highway without permission from the planning authorities. • Monitor/ensure that all safety provisions included in design and construction phase are properly maintained • Highway patrol unit(s) for round 139

Environmental Remedial Measure Reference to laws Approximate Time Mitigation Institutional Responsibility Issue/ Component /guidelines Location Frame Cost Implementation Supervision the clock patrolling. Phone booths for accidental reporting and ambulance services with minimum response time for rescue of any accident victims, if possible. • Tow-away facility for the break down vehicles, if possible. • Coordination with operating agency of intersecting National Highways to have common facilities and share the costs as appropriate, if possible.  Transport of • Preparation of spill prevention Throughout the project stretch Included in SQC Dangerous and control and emergency operation/ Goods preparedness and responsive Maintenance plans based on an analysis of cost. hazards, implementation of presentation and control measures. • Emergency plan for vehicles carrying hazardous material 9. Monitoring Operation Performance  Monitoring • The MPRDC will monitor the Throughout the corridor Included in SQC Operation operational performance of the EMoP Performance various mitigation/ enhancement measures carried out as a part of the project • The indicators selected for monitoring include the survival rate of trees; utility of enhancement provision, status of rehabilitation of borrow areas, Air quality, water quality, noise levels, soil quality, drainage pattern, etc.

EA: Executing Agency, MPRDC: Madhya Pradesh Road Development Corporation, SQC: Supervision Quality Controller, EO: Environmental Officer, IRC: Indian Road Congress

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APPENDIX 7.2: Monitoring Plan for the Performance Indicators Env. Project Frequency Approximate Indicator Parameters Method/Guidelines Location Standards Implementation Supervision Stage and Duration cost (Rs) s High volume sampler Hot mix plants, stone crushers to be located 50 m 24 hr Contractor and construction/ earthwork Construction from the plant in the continuous, 6x5000x3x3 through approved sites and as suggested by NAAQS SQC stage downwind direction. 3/year for 3 =Rs. 2,70,000 monitoring SQC Use method specified years agency SPM, (Total 6 Locations) by CPCB for analysis Air RSPM, SO2, High volume sampler Quality NOX, CO, to be located 50 m Major Road Intersections and 24 hr SQC through HC from the selected 6X5000x3X1 Operation Residential area continuous, approved locations in the NAAQS =Rs 90,000 SQC stage (6 Locations) 3/year for 1 monitoring downwind direction. year agency Use method specified by CPCB for analysis Groundwater at Construction Ground Camps/site and Surface water water: (IS: at and downstream of Budhni Contractor Construction 10500:1991) 3/year for 3 6x 4000x3X3 through approved river and any large pond CPCB SQC stage and years =Rs 216, 000 monitoring Grab sample collected located close to the alignment Surface agency from source and being used by local water for analyze as per Water Class D and community. Quality Standard Methods for Class E as Groundwater at 2 locations and Prescribed Examination of Water by CPCB and Wastewater Surface water sample of river EO through Operation Budhni (downstream of bridge 3/year for 1 6X3x4000 approved and for CPCB SQC stage vector borne Location) and stagnant water year =Rs 72, 000 monitoring diseases bodies developed due to agency borrow areas Once during Guidelines Siltation Visual Checks for presence of All rivers/streams/drainage rainy seasons Routine work from water in Water Construction construction debris/waste and channels and major water of the of Engineering Contractor SQC resources Bodies bodies along the stretch construction Team blockade of drainage channels department period.

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Env. Project Frequency Approximate Indicator Parameters Method/Guidelines Location Standards Implementation Supervision Stage and Duration cost (Rs) s Guidelines EO, with support Once during Routine work from water of Water Operation operation of of Engineering SQC st resources Resource 1 year Team department Department Construction sites, major road Free field at 1 m from intersections and 1 each at 24 hr 10x1500x3x3 Construction the equipment whose residential, commercial and continuous, =Rs. 1,35,000 SQC SQC stage noise levels are being sensitive locations along the 3*/year for 3 Equivalent determined. alignment. years Noise levels Noise (10 Locations) on dB (A) MoEF levels Equivalent Noise scale for day levels using an Near residential, commercial and night Operation integrated noise level and silence zone. 3 / year for 1 6x3000x3X1 SQC SQC stage meter kept at a (6 Locations) year =Rs 54, 000 distance of 15 m from edge of Pavement NPK (ICAR standard ) Once during CPCB and Construction and heavy agricultural land and HMP whole NPK as per 12,000 SQC SQC Stage metals for sites construction ICAR Soil dredging stage standard Quality sites At oil spillage locations and Once for the Operation Oil and As specified by the other probable soil first year of CPCB 12,000 SQC SQC stage grease site engineer contamination location operation MPRDC/SQC Part of routine Construction Visual action of After first rain Contractor MPRDC Stage Visual check Throughout the project Checks engineering Soil for Soil corridor especially at River team Erosion erosion and banks, bridge locations Part of routine Once during Operation siltation structures Visual action of operation of Engineering Team of MPRDC Stage st Checks engineering 1 year team Throughout the Project Part of routine Drainage Once in a Construction Corridor especially at probable None action of Contractor’s Congesti Visual Checks year before SQC stage drainage congestion areas as Specific engineering Engineering Team on rainy season described in IEE team 143

Env. Project Frequency Approximate Indicator Parameters Method/Guidelines Location Standards Implementation Supervision Stage and Duration cost (Rs) s Once in a Part of routine Operation year before None action of MPRDC Engineering Team Stage rainy season Specific engineering for 3 yrs team IRC guidelines Identification of and Best Contractor with Construction Visual Once in a borrow areas as per Borrow areas to be operated Practices approval from SQC Stage Checks month IEE for Borrow MPRDC Borrow Part of the area Areas Contract operation Borrow Operation Visual Rehabilitation as Quarterly for 1 Area Closed Borrow Areas MPRDC Stage Checks recommended in IEE year rehabilitatio n Plan Storage Area, Construct Construction IRC Quarterly ion Sites for guidelines Part of the Contractor with Construction Rapid audit as per during Sites and Hygiene, Construction Sites and Camp and to the regular approval from SQC stage reporting format construction Labour drainage satisfaction monitoring E.O., MPRDC period Camp Medical of SQC Facilities Etc. During site Surveillance monitoring of trees Construction Throughout the Project clearance in felling SQC/Local Forest Departments Stage Section construction As phase Included in Tree suggested overall The Engineer will be responsible Plantatio by Forest plantation Cost for monitoring upto the Defect n Operation Audit for survival rate of trees Throughout the Project Once in a Dept. Liability Period in any particular stage plantation Section year for years stretch. After this period the SQC will be responsible for monitoring Monitoring Costs: INR 0.86 Million MPRDC – Madhya Pradesh Road Development Corporation Limited, EO: Environmental Officer, SQC-Supervision Quality Controller; IS - India standard; NOx - Nitrogen Oxide; Pb - Plumbum, (lead); RPM - Respirable Particulate Matter; SO2 - Sulfur Dioxide; SPM - Suspended Particulate Matter, HC- Hydrocarbon, CO- Carbon monoxide