The Mindlessness Called River Linking Proposals
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Flood Forecasting and Warning Networkperformanceapprmsal 2008
FLOOD FORECASTING AND WARNING NETWORKPERFORMANCEAPPRMSAL 2008 GOVERNMENT OF INDIA CENTRAL WATER COMMISSION FLOOD FORECAST MONITORING DIRECTORATE NEW DELHI - 110066 Feb,2010 PREFACE Central Water Commission had made a small beginning in Flood Forecasting & Warning service in India in November 1958 with .one forecasting station at Delhi, the national capital, on the river Yamuna. Today, its network of Flood Forecasting and Warning Stations has gradually extended over the years and covers almost all the major inter-state flood prone river basins throughout the country. The network comprised of 175 Flood Forecasting Stations including 28 inflow forecast during the year 2008, in 9 major river basins and 71 sub basins of the country. It covered 15 states besides NCT Delhi and UT of Dadra & Nagar Haveli. The flood forecasting activities of the Commission are being performed every year from May to October through its 21 field divisions which issue flood forecasts and warnings to the civil authorities of the states as well as to other organizations of the central & state governments, as and when the river water level touches or is expected to touch the warning level at the flood forecasting stations. The flood season 2008 witnessed unprecedented flood events in recent history. Both the river Subarnarekha at Rajghat and river Ghaghra at Ayodhya had once again recorded in 2008 a fresh "unprecedented Flood", for the second consecutive year after experiencing a similar event in 2007. In addition, "unprecedented Flood" was recorded on river Puthimari at N.H.Road crossing, river Devi, a distributory of river Mahanadi at Alipingal and Gharghra at Elgin Bridge. -
MMIW" 1. (8Iiira)
..nth Ser... , Vol. ru, No. 11 ...,. July 1., 200t , MMIW" 1. (8IIIra) LOK SABHA DEBATES (Engllah Version) Second Seulon (FourtMnth Lok Sabha) (;-. r r ' ':1" (Vol. III Nos. 11 to 20) .. contains il'- r .. .Ig A g r ~/1'~.~.~~: LOK SABHA SECRETARIAT NEW DELHI Price : Rs. 50.00 EDITORIAL BOARD G.C. MalhotrII Secretary-General Lok Sabha Anand B. Kulkllrnl Joint Secretary Sharda Prued Principal Chief Editor telran Sahnl Chief Editor Parmnh Kumar Sharma Senior Editor AJIt Singh Yed8v Editor (ORIOINAL ENOUSH PROCEEDINGS INCLUDED IN ENGUSH VERSION AND ORIGINAL HINDI PROCEEDINGS INCLUDED IN HINDI VERSION WILL BE.TREATED AS AUTHORITA11VE AND NOT THE TRANSLATION THEREOF) CONTENTS ,.. (Fourteenth Serles. Vol. III. Second Session. 200411926 (Saka) No. 11. Monday. July 19. 2OO4IAudha, 28. 1121 CSU-) Sua.lECT OBITUARY REFERENCE ...... ...... .......... .... ..... ............................................ .......................... .................................... 1·2 WRITTEN ANSWERS TO QUESTIONS Starred Question No. 182-201 ................................................................. ................ ................... ...................... 2-36 Unstarred Question No. 1535-1735 .................... ..... ........ ........ ...... ........ ......... ................ ................. ........ ......... 36-364 ANNEXURE I Member-wise Index to Starred List of Ouestions ...... ............ .......... .... .......... ........................................ ........... 365 Member-wise Index to Unstarred Ust of Questions ........................................................................................ -
Flood Forecasting and Warning Network Performance Appraisal Report 2014
GOVERNMENT OF INDIA CENTRAL WATER COMMISSION FLOOD FORECAST MONITORING DIRECTORATE People being rescued by the army personnels and local people after the floods at Tangpura in Srinagar. FLOOD FORECASTING AND WARNING NETWORK PERFORMANCE APPRAISAL REPORT 2014 NEW DELHI – 110066 March 2016 Member (RM) Central Water Commission Sewa Bhawan, R. K. Puram New Delhi-110066 PREFACE Central Water Commission had started Flood Forecasting & Warning service in India in November 1958 by setting one forecasting station at Old Delhi Bridge, for the national capital, on the river Yamuna. Today, its network of Flood Forecasting and Warning Stations gradually extended covering almost all the major inter-state flood prone river basins throughout the country. It comprises of 175 Flood Forecasting Stations including 28 inflow forecast in 9 major river basins and 71 sub basins of the country. It covers 16 states besides NCT Delhi and UT of Dadra & Nagar Haveli. The flood forecasting activities of the Commission are being performed every year from May to October through its 20 field divisions which issue flood forecasts and warnings to the civil authorities of the states as well as to other organizations of the central & state governments, as and when the river water level touches or is expected to cross the warning level at the flood forecasting stations. Inflow Forecasts are issued for 28 reservoir/dam/barrages. The forecasts are formulated whenever the inflow into the dam exceeds the threshold value fixed by the respective project authorities for reservoir regulation as well as flood moderation. The flood season 2014 witnessed unprecedented flood events at 2 stations in the rivers Ghaghra and Rapti in the country. -
11 Rainfall Fluctuations and Depleting Water Levels in Alwar City
SGVU J CLIM CHANGE WATER Vol. 5, 2018 pp. 11-16 Chauhan and Verma SGVU J CLIM CHANGE WATER Vol. 5, 11-17 ISSN: 2347-7741 Rainfall Fluctuations and Depleting Water Levels In Alwar City Divya Chauhan1,Vijay Kumar Verma2 1Research Scholar, BSR Govt. Arts College, Alwar (Raj.) 2Lecturer, BSR Govt. Arts College, Alwar (Raj.) *Corresponding Author: [email protected] ABSTRACT: Water is the key to life. It is one of the basic needs for us to survive. Alwar had water resources in abundance but in recent years , it experienced a huge depletion in water levels that it even reaches to dark zone. Rainfall fluctuation is one of the major causes of it. In the last decade , the average rainfall of alwar decreased at a sharp rate, that in 2010-2011 it was about 64cm but in 2016-2017 it has reached to 55cm(approx.) on an average. Such a decrease results in rapid ground water depletion in alwar. Previously, the rate of ground water depletion was about 0.30 m per annum but now it has reached to approximately 1m per annum. The adversely affected areas of alwar are Behror and Neemrana blocks where the water level has reached to the depth of more than 40m .The major cause of rainfall fluctuation in recent year is seasonal shift due to increasing global warming worldwide. Now its high time to take this problem seriously. In all , we could recover water depletion to a extent by rainwater harvesting and other management techniques , so that the levels will improve to a bit. -
Reconciling Drainage and Receiving Basin Signatures of the Godavari River System
Biogeosciences, 15, 3357–3375, 2018 https://doi.org/10.5194/bg-15-3357-2018 © Author(s) 2018. This work is distributed under the Creative Commons Attribution 4.0 License. Reconciling drainage and receiving basin signatures of the Godavari River system Muhammed Ojoshogu Usman1, Frédérique Marie Sophie Anne Kirkels2, Huub Michel Zwart2, Sayak Basu3, Camilo Ponton4, Thomas Michael Blattmann1, Michael Ploetze5, Negar Haghipour1,6, Cameron McIntyre1,6,7, Francien Peterse2, Maarten Lupker1, Liviu Giosan8, and Timothy Ian Eglinton1 1Geological Institute, ETH Zürich, Sonneggstrasse 5, 8092 Zürich, Switzerland 2Department of Earth Sciences, Utrecht University, Heidelberglaan 2, 3584 CS Utrecht, the Netherlands 3Department of Earth Sciences, Indian Institute of Science Education and Research Kolkata, 741246 Mohanpur, West Bengal, India 4Division of Geological and Planetary Science, California Institute of Technology, 1200 East California Boulevard, Pasadena, California 91125, USA 5Institute for Geotechnical Engineering, ETH Zürich, Stefano-Franscini-Platz 3, 8093 Zürich, Switzerland 6Laboratory of Ion Beam Physics, ETH Zürich, Otto-Stern-Weg 5, 8093 Zürich, Switzerland 7Scottish Universities Environmental Research Centre AMS Laboratory, Rankine Avenue, East Kilbride, G75 0QF Glasgow, Scotland 8Geology and Geophysics Department, Woods Hole Oceanographic Institution, 86 Water Street, Woods Hole, Massachusetts 02543, USA Correspondence: Muhammed Ojoshogu Usman ([email protected]) Received: 12 January 2018 – Discussion started: 8 February 2018 Revised: 18 May 2018 – Accepted: 24 May 2018 – Published: 7 June 2018 Abstract. The modern-day Godavari River transports large sediment mineralogy, largely driven by provenance, plays an amounts of sediment (170 Tg per year) and terrestrial organic important role in the stabilization of OM during transport carbon (OCterr; 1.5 Tg per year) from peninsular India to the along the river axis, and in the preservation of OM exported Bay of Bengal. -
DISASTER MANAGEMENT PLAN. [Dowr] ****************************************** 1
DISASTER MANAGEMENT PLAN. [DoWR] ****************************************** 1. Introduction The state Odisha is ranked as the 5th most flood prone state of the country after UP, Bihar, Assam and West Bengal with a flood prone area of 33400 km2. The south-west monsoon brings rains to the state from June to September every year. The state receives an average annual rainfall of 1500 mm and more than 80% of it occurs during monsoon period only. The coastal districts of the state are more vulnerable to frequent low pressure, cyclonic storms, depression and deep depression. The state has five major river basins namely Mahanadi, Brahmani, Baitarani, Subarnarekha and Rushikulya which cause high floods in their respective deltas. The rivers like Vamshadhara and Burhabalang also cause flash floods due to instant runoff from their hilly catchment. It is a fact that the three major river system Mahanadi, Brahmani and Baitarani forms a single delta during high flood and in most of the cases the flood water of these three systems blend together causing considerable flood havoc. Besides the state has 476.40 kms of coastline on the west of Bay of Bengal. The flood problem becomes more severe when the flood synchronies with high tides causing slow recede of flood. The silt deposited constantly by the waves in the delta area raises the flood level and the rivers often overflow their banks. The flood problem in the state generally aggravated due to some or all of the reasons as below: - Erratic monsoon, heavy monsoon rainfall accompanied by low pressures, depressions, deep depressions and cyclones. - Dam releases due to heavy inflows, thus causing massive outflows in the river. -
March-April 2003
Dams, Rivers & People UPDATE ON RELATED ISSUES SANDRP VOL 1-ISSUE 2-3 MARCH-APRIL 2003 INDEX About DRP 1 Let’s have feet on ground, Mr Prabhu (Himanshu Thakkar, SANDRP) 2 River Link News: How the Opposition is Mounting 5 Famine of Good deeds and ideas (Anupam Mishra) 7 Appeal by Scientists of West Bengal (Kalyan Rudra and Samar Bagchi) 8 Thoughts on Linking Rivers: Can We manage existing systems? (GK Bhat) 9 Bhakra: Reality behind legend (Shripad Dharmadhikary and Swathi Seshadri) 10 Bankrupt Math of WWF (Patrick McCully) 11 Pesticides in YOUR bottled water (Compiled by Bipin Chandra, SANDRP) 12 --------------------------------------------------------------------------------------------------------------------------------------------------- News from the Narmada Valley 14 Publications available at SANDRP 29 Hydro Projects 15 Water Privatisation 30 Dams in South Asia 16 QUOTES 32 Silted Reservoirs of Japan 18 Koshi Victims of Flood Protection 33 92 dams scrapped in Japan 19 Muhane River struggle in Bihar 34 HR Crisis at Three Gorges 20 “Death by Hunger is Murder” 35 Irrigation Scams 21 Punjab village for sale 36 Poor Performance in Bihar 22 Power Options 38 RIDF is flop 23 Small Hydro 39 Water a Human Right: UN 24 Uttaranchal Invites Private sector 40 Groundwater 25 Public washing of dirty linen 41 Rainwater Harvesting 26 Foreign Investors are going out 42 Plan to save Nagpur water bodies 27 YOUR RESPONSES 44 Toti Bachao Morcha in Punjab 28 ABOUT Dams, Rivers & People The DRP will be available both in electronic (text To clearly reflect the issues we are dealing with, we and word versions) and printed versions. The DRP have decided to change the name of our periodical are also available at www.narmada.org/sandrp and to Dams, Rivers & People. -
India Upper Indravati Irrigation Project Field Survey
India Upper Indravati Irrigation Project Field Survey: July 2003 1. Project Profile and Japan’s ODA Loan China New Delhi Nepal Bhutan Bangladesh Calcutta Myanmar India Bhubaneshwar Mumbai Project Site Site Map Indravati Main Canal 1.1 Background In India, expansion and improvement of irrigation facilities has been emphasized as a measure to alleviate repeatedly occurring drought damage, as a part of the country’s food self-sufficiency policy. Irrigation facilities are absolutely indispensable in low precipitation regions because the amount of rainfall in India is unpredictable and varies substantially by region, season, and year. Moreover even in heavy precipitation regions, irrigation facilities are extremely important for providing water for agricultural use during the summer season when demand for water is at its peak. The total land area under irrigation in India was scheduled to increase to approximately 57 million hectares by the conclusion of the sixth 5-year plan (March 1985) and to approximately 68 million hectares by the conclusion of the seventh plan (FY 1985- FY1989). The Orissa State Government launched the Upper Indravati Multipurpose Project in 1978 to promote the comprehensive development of the region, which tends to suffer from drought. The project was composed of three units, Unit I (dams and reservoirs), Unit II (irrigation), and Unit III (hydroelectric power). The purpose of this project was to construct a dam on the upper Indravati River, a branch of the Godavari River, discharge the water to the Mahanadi River basin, and produce 600 MW (four generators at 150 MW per generator) of hydroelectric power. In conjunction, the water used to generate the hydroelectric power would then be used for irrigation of approximately 109,000 ha. -
A Review of Methods of Hydrological Estimation at Ungauged Sites in India. Colombo, Sri Lanka: International Water Management Institute
WORKING PAPER 130 A Review of Methods of Hydrological Estimation at Ungauged Sites in India Ramakar Jha and Vladimir Smakhtin Postal Address P O Box 2075 Colombo Sri Lanka Location 127, Sunil Mawatha Pelawatta Battaramulla Sri Lanka Telephone +94-11 2880000 Fax +94-11 2786854 E-mail [email protected] Website http://www.iwmi.org SM International International Water Management IWMI isaFuture Harvest Center Water Management Institute supportedby the CGIAR ISBN: 978-92-9090-693-3 Institute Working Paper 130 A Review of Methods of Hydrological Estimation at Ungauged Sites in India Ramakar Jha and Vladimir Smakhtin International Water Management Institute IWMI receives its principal funding from 58 governments, private foundations and international and regional organizations known as the Consultative Group on International Agricultural Research (CGIAR). Support is also given by the Governments of Ghana, Pakistan, South Africa, Sri Lanka and Thailand. The authors: Ramakar Jha is a Research Scientist at the National Institute of Hydrology (NIH), Roorkee, India. Vladimir Smakhtin is Principal Scientist in Hydrology and Water Resources at the International Water Management Institute (IWMI), Colombo, Sri Lanka. Jha, R.; Smakhtin, V. 2008. A review of methods of hydrological estimation at ungauged sites in India. Colombo, Sri Lanka: International Water Management Institute. 24p. (IWMI Working Paper 130) / hydrology / models / river basins / runoff / flow / low flows/ flow duration curves/ estimation / flooding /unit hydrograph/ungauged basins/ India / ISBN 978-92-9090-693-3 Copyright © 2008, by IWMI. All rights reserved. Please direct inquiries and comments to: [email protected] ii Contents Summary ................................................................................................................................ v Introduction ................................................................................................................................ 1 Estimating Low Flows and Duration Curves at Ungauged Sites .............................................. -
List of Rivers in India
Sl. No Name of River 1 Aarpa River 2 Achan Kovil River 3 Adyar River 4 Aganashini 5 Ahar River 6 Ajay River 7 Aji River 8 Alaknanda River 9 Amanat River 10 Amaravathi River 11 Arkavati River 12 Atrai River 13 Baitarani River 14 Balan River 15 Banas River 16 Barak River 17 Barakar River 18 Beas River 19 Berach River 20 Betwa River 21 Bhadar River 22 Bhadra River 23 Bhagirathi River 24 Bharathappuzha 25 Bhargavi River 26 Bhavani River 27 Bhilangna River 28 Bhima River 29 Bhugdoi River 30 Brahmaputra River 31 Brahmani River 32 Burhi Gandak River 33 Cauvery River 34 Chambal River 35 Chenab River 36 Cheyyar River 37 Chaliya River 38 Coovum River 39 Damanganga River 40 Devi River 41 Daya River 42 Damodar River 43 Doodhna River 44 Dhansiri River 45 Dudhimati River 46 Dravyavati River 47 Falgu River 48 Gambhir River 49 Gandak www.downloadexcelfiles.com 50 Ganges River 51 Ganges River 52 Gayathripuzha 53 Ghaggar River 54 Ghaghara River 55 Ghataprabha 56 Girija River 57 Girna River 58 Godavari River 59 Gomti River 60 Gunjavni River 61 Halali River 62 Hoogli River 63 Hindon River 64 gursuti river 65 IB River 66 Indus River 67 Indravati River 68 Indrayani River 69 Jaldhaka 70 Jhelum River 71 Jayamangali River 72 Jambhira River 73 Kabini River 74 Kadalundi River 75 Kaagini River 76 Kali River- Gujarat 77 Kali River- Karnataka 78 Kali River- Uttarakhand 79 Kali River- Uttar Pradesh 80 Kali Sindh River 81 Kaliasote River 82 Karmanasha 83 Karban River 84 Kallada River 85 Kallayi River 86 Kalpathipuzha 87 Kameng River 88 Kanhan River 89 Kamla River 90 -
Project on Reviving and Constructing Small Water Harvesting Systems in Rajasthan
Sida Evaluation 03/40 Project on Reviving and Constructing Small Water Harvesting Systems in Rajasthan Pankaj Kumar B M Kandpal Department for Asia Project on Reviving and Constructing Small Water Harvesting Systems in Rajasthan Pankaj Kumar B M Kandpal Sida Evaluation 03/40 Department for Asia PROJECT ON REVIVING AND CONSTRUCTING SMALL WATER HARVESTING SYSTEMS IN RAJASTHAN – Sida EVALUATION 03/40 1 This report is part of Sida Evaluations, a series comprising evaluations of Swedish development assistance. Sida’s other series concerned with evaluations, Sida Studies in Evaluation, concerns methodologically oriented studies commissioned by Sida. Both series are administered by the Department for Evaluation and Internal Audit, an independent department reporting directly to Sida’s Board of Directors. This publication can be downloaded/ordered from: http://www.sida.se/publications Authors: Pankaj Kumar, B M Kandpal. The views and interpretations expressed in this report are the authors’ and do not necessarily reflect those of the Swedish International Development Cooperation Agency, Sida. Sida Evaluation 03/40 Commissioned by Sida, Department for Asia Copyright: Sida and the authors Registration No.: 1.13.3/TBS Date of Final Report: March 2003 Printed by Edita Art. no. Sida 3380en ISBN 91-586-8549-9 ISSN 1401—0402 SWEDISH INTERNATIONAL DEVELOPMENT COOPERATION AGENCY Address: S-105 25 Stockholm, Sweden. Office: Sveavägen 20, Stockholm Telephone: +46 (0)8-698 50 00. Telefax: +46 (0)8-20 88 64 Telegram: sida stockholm. Postgiro: 1 56 34–9 E-mail: [email protected]. Homepage: http://www.sida.se PROJECT ON REVIVING AND CONSTRUCTING SMALL WATER HARVESTING SYSTEMS IN RAJASTHAN – Sida EVALUATION 03/40 Innehåll Executive Summary .................................................................................................. -
Flood Forecasting and Warning Network Performance Appraisal Report 2013
GOVERNMENT OF INDIA CENTRAL WATER COMMISSION FLOOD FORECAST MONITORING DIRECTORATE Uttarakhand Floods on the bank of River Mandakini in Rudraprayag June, 2013 FLOOD FORECASTING AND WARNING NETWORK PERFORMANCE APPRAISAL REPORT 2013 NEW DELHI – 110066 July 2014 Member (RM) Central Water Commission Sewa Bhawan, R. K. Puram New Delhi-110066 PREFACE Central Water Commission had started Flood Forecasting & Warning service in India in November 1958 by setting one forecasting station at Old Delhi Bridge, for the national capital, on the river Yamuna. Today, its network of Flood Forecasting and Warning Stations gradually extended covering almost all the major inter-state flood prone river basins throughout the country. It comprises of 175 Flood Forecasting Stations including 28 inflow forecast in 9 major river basins and 71 sub basins of the country. It covers 15 states besides NCT Delhi and UT of Dadra & Nagar Haveli. The flood forecasting activities of the Commission are being performed every year from May to October through its 20 field divisions which issue flood forecasts and warnings to the civil authorities of the states as well as to other organizations of the central & state governments, as and when the river water level touches or is expected to cross the warning level at the flood forecasting stations. Inflow Forecasts are issued for 28 reservoir/dam/barrages. The forecasts are formulated whenever the inflow into the dam exceeds the threshold value fixed by the respective project authorities for reservoir regulation as well as flood moderation. The flood season 2013 witnessed unprecedented flood events at 3 stations in the rivers Alaknanda, Ganga and Yamuna in the country.