Rehabilitation and Modernization of Guddu Barrage. Social

Total Page:16

File Type:pdf, Size:1020Kb

Rehabilitation and Modernization of Guddu Barrage. Social SINDH BARRAGES REHABILITATION PROJECT Rehabilitation and Modernization of Guddu Barrage. Social Management Framework December 2014 Sindh Irrigation Department i SINDH BARRAGES REHABILITATION PROJECT REHABILITATION AND MODERNIZATION OF GUDDU BARRAGE Social Management Framework December 2014 Sindh Irrigation Department Government of Sindh ii SINDH BARRAGES REHABILITATION PROJECT Social Management Framework List of Abbreviations Abbreviation Definition BHU Basic Health Unit CoI Corridor of Impact CSC Construction Supervision Consultant DC Deputy Commissioner ESIA Environmental and Social Impact Assessment ESMP Environment and Social Management Plan ESU Environment and Social Unit GoSindh Government of Sindh GRM Grievance Redress Mechanism ID Irrigation Department (Government of Sindh) LAA Land Acquisition Act (1894) MEC Monitoring and Evaluation Consultants MML Mott Mcdonald Limited MMP Mott Mcdonald Pakistan NGO Non-Governmental Organisation NRP National Resettlement Policy Pakistan O&M Operation and Maintenance OP 4.12 World Bank Operation Policy 4.12 on Involuntary Resettlement P&D Planning and Development PAPs Project Affected Persons PMO Project Management Office RAP Resettlement Action Plan RoW Right of Way RPF Resettlement Policy Framework S/he She or he SAP Social Action Plan SMF Social Management Framework SIDA Sindh Irrigation and Drainage Authority WSIP Water Sector Improvement Project iii SINDH BARRAGES REHABILITATION PROJECT Rehabilitation & Modernization of Guddu Barrage Social Management Framework Table of Contents EXECUTIVE SUMMARY…………………………………………………………………………………………………………………………………. 1 1. INTRODUCTION ........................................................................................................................................ 5 1.1 GENERAL.................................................................................................................................................... 5 1.2 OBJECTIVES AND COVERAGE ........................................................................................................................... 5 2. PROJECT DESCRIPTION ............................................................................................................................. 7 2.1 INTRODUCTION ........................................................................................................................................... 7 2.2 DESCRIPTION OF CONSTRUCTION WORKS ......................................................................................................... 8 2.2.1 SITE ACCESS............................................................................................................................................ 8 2.2.2 CONSTRUCTION & LABOUR CAMPS ............................................................................................................. 8 2.2.3 CONSTRUCTION OF STAFF COLONY .............................................................................................................. 9 2.2.4 REPLACEMENT OF GATES & MINOR STRUCTURAL REPAIR TO REGULATORS ......................................................... 9 2.2.5 RECONFIGURATION OF LEFT POCKET DIVIDE WALL ....................................................................................... 10 2.2.6 SITE RESTORATION ................................................................................................................................. 11 2.3 RESETTLEMENT SCOPING ............................................................................................................................. 12 3. SOCIO-ECONOMIC CONDITIONS IN PROJECT AND COMMAND AREAS ................................................... 13 3.1 ADMINISTRATIVE SETUP .............................................................................................................................. 13 3.2 DEMOGRAPHY, ETHNICITY AND TRIBES AND SOCIAL COHESION AND CONFLICT ...................................................... 13 3.3 INTER-TRIBAL CONFLICT .............................................................................................................................. 13 3.4 HOUSING ................................................................................................................................................. 14 3.5 LITERACY .................................................................................................................................................. 14 3.6 ECONOMIC CONDITIONS ............................................................................................................................. 14 3.7 AGRICULTURE AND LIVESTOCK ...................................................................................................................... 14 3.8 VULNERABLE GROUPS ................................................................................................................................. 15 3.9 WOMEN IN THE PROJECT AREA .................................................................................................................... 15 3.10 NGOS INVOLVEMENT ................................................................................................................................. 16 3.11 KEY SOCIO-ECONOMIC INFORMATION OF COMMAND AREAS ............................................................................. 16 3.11.1 GHOTKI FEEDER CANAL COMMAND AREA .................................................................................................. 16 3.11.2 BEGHARI SINDH AND DESERT PAT FEEDER CANAL COMMAND AREA ................................................................ 16 3.11.3 COMMUNICATIONS IN THE COMMAND AREA .............................................................................................. 17 4. RESETTLEMENT POLICY FRAMEWORK .................................................................................................... 18 4.1 OBJECTIVES .............................................................................................................................................. 18 4.2 RESETTLEMENT OF PROJECT AFFECTED PERSONS.............................................................................................. 18 4.3 LEGAL FRAMEWORK ................................................................................................................................... 19 4.3.1 PAKISTAN LEGAL FRAMEWORK – LAND ACQUISITION ACT (LAA) 1894 ........................................................... 19 4.3.2 WORLD BANK FRAMEWORK - INVOLUNTARY RESETTLEMENT POLICY (OP 4.12) ................................................ 23 4.3.3 COMPARISON OF PAKISTAN AND WORLD BANK POLICIES .............................................................................. 24 4.3.4 REMEDIAL MEASURES TO BRIDGE THE GAP ................................................................................................. 25 4.4 ELIGIBILITY AND ENTITLEMENT CRITERIA ......................................................................................................... 26 4.4.1 CATEGORY OF DISPLACED PERSON ............................................................................................................ 26 iv 4.4.2 ELIGIBILITY CRITERIA ............................................................................................................................... 26 4.4.3 METHOD TO DETERMINE THE CUT-OFF DATES ............................................................................................. 27 4.4.4 ENTITLEMENTS ...................................................................................................................................... 27 4.4.5 CALCULATION FOR COMPENSATION PAYMENTS ........................................................................................... 33 4.4.6 ALLOWANCES ........................................................................................................................................ 34 4.5 PREPARING RESETTLEMENT ACTION PLAN ...................................................................................................... 35 4.5.1 PROCESS FOR SCREENING AND REVIEW OF RAP ........................................................................................... 35 4.5.2 SCREENING FOR INVOLUNTARY RESETTLEMENT ............................................................................................ 35 4.5.3 BASELINE, SOCIO-ECONOMIC DATA, AND RESETTLEMENT SURVEYS ................................................................. 36 4.5.4 RESETTLEMENT ENTITLEMENT AND POLICY MATRIX ...................................................................................... 36 4.5.5 IMPLEMENTATION ARRANGEMENTS .......................................................................................................... 36 4.5.6 PREPARATION OF MONITORING, EVALUATION AND REPORTING PLAN .............................................................. 36 4.5.7 GRIEVANCE AND REDRESS MECHANISM (GRM) .......................................................................................... 37 4.5.8 COST ESTIMATES ................................................................................................................................... 37 4.5.9 PUBLIC CONSULTATION AND PARTICIPATION ............................................................................................... 37 4.5.10 RESETTLEMENT PLANNING ....................................................................................................................... 38 4.5.11 RAP SUBMISSION AND APPROVAL ...........................................................................................................
Recommended publications
  • Geospatial Analysis of Indus River Meandering and Flow Pattern from Chachran to Guddu Barrage, Pakistan Vol 9 (2), December 2018
    Geospatial Analysis of Indus River Meandering and Flow Pattern from Chachran to Guddu Barrage, Pakistan Vol 9 (2), December 2018 Open Access ORIGINAL ARTICLE Full Length Ar t icle Geospatial Analysis of Indus River Meandering and Flow Pattern from Chachran to Guddu Barrage, Pakistan Danish Raza* and Aqeel Ahmed Kidwai Department of Meteorology-COMSATS University Islamabad, Islamabad, Pakistan ABS TRACT Natural and anthropogenic influence affects directly ecologic equilibrium and hydro morphologic symmetry of riverine surroundings. The current research intends to study the hydro morphologic features (meanders, shape, and size) of Indus River, Pakistan by using remote sensing (RS) and geographical information science (GIS) techniques to calculate the temporal changes. Landsat satellite imagery was used for qualitative and analytical study. Satellite imagery was acquired from Landsat Thematic Mapper (TM), Enhanced Thematic Mapper Plus (ETM+) and Operational Land Imager (OLI). Temporal satellite imagery of study area was used to identify the variations of river morphology for the years 1988,1995,2002,2009 and 2017. Research was based upon the spatial and temporal change of river pattern with respect to meandering and flow pattern observations for 30 years’ temporal data with almost 7 years’ interval. Image preprocessing was applied on the imagery of the study area for the better visualization and identification of variations among the objects. Object-based image analysis technique was performed for better results of a feature on the earth surface. Model builder (Arc GIS) was used for calculation of temporal variation of the river. In observation many natural factor involves for pattern changes such as; floods and rain fall.
    [Show full text]
  • The Geographic, Geological and Oceanographic Setting of the Indus River
    16 The Geographic, Geological and Oceanographic Setting of the Indus River Asif Inam1, Peter D. Clift2, Liviu Giosan3, Ali Rashid Tabrez1, Muhammad Tahir4, Muhammad Moazam Rabbani1 and Muhammad Danish1 1National Institute of Oceanography, ST. 47 Clifton Block 1, Karachi, Pakistan 2School of Geosciences, University of Aberdeen, Aberdeen AB24 3UE, UK 3Geology and Geophysics, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA 4Fugro Geodetic Limited, 28-B, KDA Scheme #1, Karachi 75350, Pakistan 16.1 INTRODUCTION glaciers (Tarar, 1982). The Indus, Jhelum and Chenab Rivers are the major sources of water for the Indus Basin The 3000 km long Indus is one of the world’s larger rivers Irrigation System (IBIS). that has exerted a long lasting fascination on scholars Seasonal and annual river fl ows both are highly variable since Alexander the Great’s expedition in the region in (Ahmad, 1993; Asianics, 2000). Annual peak fl ow occurs 325 BC. The discovery of an early advanced civilization between June and late September, during the southwest in the Indus Valley (Meadows and Meadows, 1999 and monsoon. The high fl ows of the summer monsoon are references therein) further increased this interest in the augmented by snowmelt in the north that also conveys a history of the river. Its source lies in Tibet, close to sacred large volume of sediment from the mountains. Mount Kailas and part of its upper course runs through The 970 000 km2 drainage basin of the Indus ranks the India, but its channel and drainage basin are mostly in twelfth largest in the world. Its 30 000 km2 delta ranks Pakiistan.
    [Show full text]
  • Transboundary River Basin Overview – Indus
    0 [Type here] Irrigation in Africa in figures - AQUASTAT Survey - 2016 Transboundary River Basin Overview – Indus Version 2011 Recommended citation: FAO. 2011. AQUASTAT Transboundary River Basins – Indus River Basin. Food and Agriculture Organization of the United Nations (FAO). Rome, Italy The designations employed and the presentation of material in this information product do not imply the expression of any opinion whatsoever on the part of the Food and Agriculture Organization of the United Nations (FAO) concerning the legal or development status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. The mention of specific companies or products of manufacturers, whether or not these have been patented, does not imply that these have been endorsed or recommended by FAO in preference to others of a similar nature that are not mentioned. The views expressed in this information product are those of the author(s) and do not necessarily reflect the views or policies of FAO. FAO encourages the use, reproduction and dissemination of material in this information product. Except where otherwise indicated, material may be copied, downloaded and printed for private study, research and teaching purposes, or for use in non-commercial products or services, provided that appropriate acknowledgement of FAO as the source and copyright holder is given and that FAO’s endorsement of users’ views, products or services is not implied in any way. All requests for translation and adaptation rights, and for resale and other commercial use rights should be made via www.fao.org/contact-us/licencerequest or addressed to [email protected].
    [Show full text]
  • Sukkur Barrage Rehabilitation and Modernization Public Disclosure Authorized
    Government of Sindh, Pakistan Public Disclosure Authorized Sindh Barrages Improvement Project - Sukkur Barrage Rehabilitation and Modernization Public Disclosure Authorized ENVIRONMENTAL AND SOCIAL ASSESSMENT Public Disclosure Authorized EXECUTIVE SUMMARY Sindh Irrigation Department Public Disclosure Authorized December 2017 Contents List of Acronyms .............................................................................................................. iii 1. Introduction ................................................................................................................. 1 1.1. Background .......................................................................................................... 1 1.2. Sindh Barrages Improvement Project (SBIP)........................................................ 2 1.3. The Environmental and Social Assessment.......................................................... 3 2. Policy, Legal and Administrative Framework ........................................................... 5 2.1. Applicable Legislation and Policies in Sindh, Pakistan ......................................... 5 2.2. Environmental Procedures ................................................................................... 6 2.3. World Bank Safeguard Policies ............................................................................ 6 3. Project Description ................................................................................................... 10 3.1. Description of Sukkur Barrage ...........................................................................
    [Show full text]
  • Pakistan Irrigation Department
    E4716 Government of Sindh, Pakistan Irrigation Department Public Disclosure Authorized Sindh Barrages Improvement Project – Guddu Barrage Rehabilitation Public Disclosure Authorized Public Disclosure Authorized ENVIRONMENTAL AND SOCIAL ASSESSMENT Report by Independent Environmental Consultants (Reviewed Draft for Disclosure) Public Disclosure Authorized December 2014 Contents List of Acronyms ................................................................................................................... iii 1 Introduction ...................................................................................................................... 1 1.1 Background ............................................................................................................... 1 1.2 The Proposed Project ................................................................................................ 2 1.3 The Environmental and Social Assessment............................................................... 3 1.4 Composition of Study Team ...................................................................................... 4 2 Policy, Legal and Administrative Framework ................................................................ 6 2.1 General ..................................................................................................................... 6 2.2 Applicable National Environmental Policies and Legislation ...................................... 6 2.2.1 National Environmental Policies and Guidelines 6 2.3 Applicable Provincial
    [Show full text]
  • Causation and Avoidance of Catastrophic Flooding Along The
    2013 GSA PRESIDENTIAL ADDRESS CELEBRATE GSA’S 125TH ANNIVERSARY JANUARY 2013 | VOL. 23, NO. 1 A PUBLICATION OF THE GEOLOGICAL SOCIETY OF AMERICA® Causation and Avoidance of Catastrophic Flooding along the Indus River, Pakistan Preliminary Announcement and Call for Papers: 2013 GSA Rocky Mountain Section Meeting Final Announcement and Call for Papers: 2013 GSA Northeastern Section Meeting Causation and Avoidance of Catastrophic Flooding along the Indus River, Pakistan James P.M. Syvitski and G. Robert Brakenridge*, Community to investigate inundation dynamics (Brakenridge et al., 1994, Surface Dynamics Modeling System, INSTAAR, University of 1998; O’Grady et al., 2011). Here, we analyze data from a suite of Colorado, Boulder, Colorado 90309-0545, USA, orbital sensors to track the 2010 Indus River flooding at high spatial resolution and frequent temporal sampling. The Shuttle Radar Topography Mission (SRTM) provides topography at 90 m ABSTRACT spatial and ~1.3 m vertical resolution; the data were collected in The catastrophic flood of 2010 along the Indus River began in February 2000, during the dry season when the Indus River was at July with unusually intense but not unprecedented rainfall in the extreme low stage (Digital Elevation Model [DEM]; see GSA upland catchment. During four months, close to 2,000 fatalities Supplemental Data1). GeoEye data show surface water changes occurred and ~20,000,000 inhabitants were displaced. The finer than 1 m; the MODIS sensor revisits twice daily at much meteorological events triggered but did not cause this “natural” coarser spatial resolution and AMSR-E provides independent disaster. Analysis of multi-temporal remote sensing and monitoring of river discharge changes.
    [Show full text]
  • Wazir Khan, General Manager SUPARCO, Pakistan • Brief Introduction to SUPARCO
    UN/Germany Expert Meeting on Space Technologies for Flood and Drought Risk Reduction 05 - 06 June 2014, Bonn Germany Wazir Khan, General Manager SUPARCO, Pakistan • Brief Introduction to SUPARCO • Disaster Management Frame Work , Pakistan • Role of SUPARCO in Disaster Management • Application of Space Technology for Flood Monitoring and Management • International Collaboration/Cooperation • Conclusions • Enhance indigenous capabilities in space technology and promote peaceful applications of space sciences for socioeconomic development of the country • Prepare and propose long term as well as short term space programs and plans to the government • Advise government in all space related matters • Liaise with national & international agencies CHINA Proposed Space & Atmospheric Research CHINA Centre (SPARC) Gilgit Gilgit Space & Atmospheric Research Centre (SPARC) Swat Warsak AFGHANISTANAFGHANISTAN Dam Tarbela Dam Peshawar Khanpur Dam ISLAMABAD Tanda Dam Jammu & Kashmir IslamabadMangla Dam • Satellite Ground Station Rasool Barrage • Chashma Barrage Space & Atmospheric Research Station Marala Headworks • Geomagnetic Observatory Qadirabad KalashahLAHORE Kako Trimmu Barrage LahoreBalloki Headworks Paksat Ground Control Station –L Space Applications & Research QUETTA Taunsa Barrage Centre (SPARC) Sidhnai Headworks Multan Quetta Islam Headworks •Satellite ResearchINDIA & Punjnad Headworks Development Center •TT&C Station for LEO Satellite Guddu Barrage INDIA IRANIRAN Sukkur Barrage Space & Atmospheric Research Facility, Multan •SUPARCO HQs •Space
    [Show full text]
  • Hydel Power Potential of Pakistan 15
    Foreword God has blessed Pakistan with a tremendous hydel potential of more than 40,000 MW. However, only 15% of the hydroelectric potential has been harnessed so far. The remaining untapped potential, if properly exploited, can effectively meet Pakistan’s ever-increasing demand for electricity in a cost-effective way. To exploit Pakistan’s hydel resource productively, huge investments are necessary, which our economy cannot afford except at the expense of social sector spending. Considering the limitations and financial constraints of the public sector, the Government of Pakistan announced its “Policy for Power Generation Projects 2002” package for attracting overseas investment, and to facilitate tapping the domestic capital market to raise local financing for power projects. The main characteristics of this package are internationally competitive terms, an attractive framework for domestic investors, simplification of procedures, and steps to create and encourage a domestic corporate debt securities market. In order to facilitate prospective investors, the Private Power & Infrastructure Board has prepared a report titled “Pakistan Hydel Power Potential”, which provides comprehensive information on hydel projects in Pakistan. The report covers projects merely identified, projects with feasibility studies completed or in progress, projects under implementation by the public sector or the private sector, and projects in operation. Today, Pakistan offers a secure, politically stable investment environment which is moving towards deregulation
    [Show full text]
  • Investigation of Isotopes and Hydrological Processes in Indus River System, Pakistan
    PINSTECH- 215 INVESTIGATION OF ISOTOPES AND HYDROLOGICAL PROCESSES IN INDUS RIVER SYSTEM, PAKISTAN Manzoor Ahmad Zahid Latif Jamil Ahmad Tariq Waheed Akram Muhammad Rafique . Isotope Application Division Directorate of Technology Pakistan Institute of Nuclear Science and Technology P.O. Nilore, Islamabad, Pakistan November, 2009 ABSTRACT Indus River, one of the longest rivers in the World, has five major eastern tributaries viz. Bias, Sutlej, Ravi, Chenab and Jhelum) while many small rivers join it from the right side among which Kabul River is the biggest with its main tributaries, the Swat, Panjkora and Kunar. All these main rivers are perennial and originate from the mountains. Basic sources of these rivers are snowmelt, rainfall and under certain conditions seepage from the formations. Different water sources are labeled with different isotope signatures which are used as fingerprints for identifying source and movement of water, geochemical and/or hydrological processes, and dynamics (age of water). Monitoring of isotopes in rivers can also enhance understanding of the water cycle of large river basins and to assess impacts of environmental and climatic changes on the water cycle. Therefore, a national network of suitable stations was established for isotopic monitoring of river waters in Indus Basin with specific objectives to study temporal variations of isotopes (2H, 18O and 3H), understand water cycles and hydrological processes in the catchments of these rivers, and to develop comprehensive database to support future isotope-based groundwater studies in the basin on recharge mechanism, water balance and monitoring of ongoing environmental changes. Water samples were collected during 2002-2006 on monthly basis from more than 20 stations at the major rivers and analyzed for 18O, 2H and 3H isotopes.
    [Show full text]
  • Hydro Power Resources of Pakistan (I) Private Power and Infrastructure Board
    Private Power and Infrastructure Board Foreword Pakistan is endowed with plenty of natural resources, including water resources. Besides water supply and irrigation, water resources are also utilized to produce electricity. National water resources have rich potential for hydropower generation, estimated as 60000 MW which could be economically harnessed. Out of this vast hydropower potential only 11% has been developed so far. Hydropower is the best available option in the recent scenario of meeting challenges of projected future energy demands of our country as it is sustainable, reliable, renewable, clean, low cost and indigenous thus can be the principal source of energy. It is therefore imperative to put all-out efforts towards development of the untapped hydropower potential without further delay. Accordingly, there is a transition in policy priority i.e. shifting from development of gas/oil based thermal power plants with merits of comparatively shorter construction time and lower capital investment to hydropower generation. The Private Power and Infrastructure Board (PPIB) has already been successful in attracting significant investment in developing hydropower projects, which are currently at different stages of implementation. The world-over, hydropower projects are characterized with a variety of technical and economic constraints and bottlenecks, Pakistan being no exception. These include hydrological risks, resettlement and environmental issues, regulatory matters, market dynamics and financing problems. In the past no attention was ever paid to address these impediments in development of hydropower projects. The government has now taken a number of initiatives to remove all the factors hampering Independent Power Producers (IPPs) in developing hydropower projects. Focus is on creating synergy among various stakeholders including regulatory bodies.
    [Show full text]
  • NATIONAL DRAINAGE PROGRAM (NDP) PROJECT Sindh Province 35° 35° N.W.F.P
    65° UZBEK. 70° 75° TAJIKISTAN CHINA TAJIK. PAKISTAN TURKMENISTAN NATIONAL DRAINAGE PROGRAM (NDP) PROJECT Sindh Province 35° 35° N.W.F.P. Approx. Line Peshawar of Control AFGHANISTAN CULTURAL SITES MENTIONED IN REQUEST JAMMU SELECTED BASIN BOUNDARIES ISLAMABAD AND KASHMIR DHANDS AND LAGOONS MENTIONED IN REQUEST DESERTS/HILLS WEIRS/BARRAGES MENTIONED IN REQUEST SELECTED TOWNS Lahore CANALS MENTIONED IN REQUEST MAJOR CITIES PUNJAB Quetta DRAINS MENTIONED IN REQUEST TEHSIL HEADQUARTERS 30° 30° NSDS (shown in SAR but no longer proposed under NDP Project) DISTRICT HEADQUARTERS Area of map PROVINCE HEADQUARTERS BALOCHISTAN RIVERS OR STREAMS PROVINCE BOUNDARIES ISLAMIC REP. OF INDIA IRAN CANALS INTERNATIONAL BOUNDARIES DRAINS SINDH 25 BRANCH/DISTRIBUTARY CANALS 25° Karachi ° AREA WATER BOARDS Arabian Sea BARRAGES 65° 70° 75° 67° 68° 69° 70° 71° This map was produced by the Map Design Unit of The World Bank. The boundaries, colors, denominations and any other information shown Kashmor Guddu Barrage on this map do not imply, on the part of The World Bank Group, any PUNJAB judgment on the legal status of any territory, or any endorsement or Murad acceptance of such boundaries. Unihar Kandh Kot Jacobabad Dil N.W. Canal Hazaro Begari Canal Canal Canal Dy. Feeder Ubauro Begari 28° Khirthar Garhi Khaio Choi Branch Feeder 28° Faizabad Dy. Shikarpur Khanpur Sindh Daharki Ghotki Shahdadkot Garhi Yasin Ghotki Mirpur Mathelo Nujpur Dy. Mithri Dy. Shahdadkot Branch Lakhi Pano Aqil Ratodero Sukkur RBOD (Right Bank Outfall Drain) Miro Khan Branch Sukkur Barrage
    [Show full text]
  • Guddu Barrage Rehabilitation
    GUDDU BARRAGE REHABILITATION Islamabad : The World Bank on Friday approved $ 188 million to improve the reliability and safety of Guddu Barrage and strengthen the Sindh Irrigation Department’s capacity to operate and manage the barrages. Guddu Barrage, carried out under the Sindh Barrages Improvement Project (SBIP), is needed due to natural ageing of the infrastructure. The rehabilitation work would eliminate possible sources of failure and potentially five the structure another 50 tears of life. “Barrages are strategic assets of Sindh and millions of people depend on the water that is controlled, diverted, and managed by them. Their continued operation and management require specialized expertise, experience, decision making, and continuity of operation”, said World Bank Country Director for Pakistan, Rachid Benmessaond. He said in addition to physical rehabilitation of the barrage infrastructure, this project would also support the Sindh government in training and technical assistance in procurement, financial. Social and environmental safeguards for operating hydraulic irrigation infrastructure. “The SBIP would support the gate replacement works to improve the regulation and flow of the barrage, replacement of all 65 main barrage steel gates, 25 main canal head regulator gates and hoist gears including all mechanical and electrical equipment. The project would also finance the independent panel of experts, who would review, monitor, evaluate and help guide the rehabilitation process with regards to the safety of th barrage”, he added. Task Team Leader of the project Abdul Hamid Azad said the Guddu barrage constitutes the most strategic component of the large Indus Basin Irrigation System. The effective operation and structural stability are important for agricultural production and for averting porential disaster during floods.
    [Show full text]