Your search found 162 records
1 Huppert, W.; Svendsen, M.; Vermillion, D. L. 2001. Governing maintenance provision in irrigation: a guide to institutionally viable maintenance strategies. Eschborn, Germany: Deutsche Gesellschaft fur Technische Zusammenarbeit (GTZ) GmbH. 192p.
(Location: IWMI HQ Call no: P 5848/10 Record No: H028829)
(0.82 MB) (843.99 KB)
2 Barker, A.; Manji, F. 2000. Writing for change: an interactive guide to effective writing, writing for science, writing for advocacy – CRROM and users’ guide. Oxford, UK: Fahamu; Ottawa, Canada: IDRC. 28p. + 1 CD.
(Location: IWMI-HQ Call no: 808 G000 BAR Record No: H037087)
3 WHO. 2006. Guidelines for the safe use of wastewater, excreta and greywater: Volume 1 - Policy and regulatory aspects. 3rd ed. Geneva, Switzerland: WHO. 100p.
(Location: IWMI HQ Call no: 363.7284 G000 WHO Record No: H040278)
4 WHO. 2006. Guidelines for the safe use of wastewater, excreta and greywater: Volume 2 – Wastewater use in agriculture. 3rd ed. Geneva, Switzerland: WHO. 196p.
(Location: IWMI HQ Call no: 363.7284 G000 WHO Record No: H040279)
(15.48 MB)
5 Ghassemi, F.; Whetton, P.; Little, R.; Littleboy, M. (Eds.) 2001. MODSIM 2001, International Congress on Modelling and Simulation, The Australian National University, Canberra, Australia, 10-13 December 2001: Integrating Models for Natural Resources Management Across Disciplines, Issues and Scales: Proceedings, Volume 2, Natural Systems, Part 2. Canberra, Australia: Modelling and Simulation Society of Australia and New Zealand. pp.523-1030.
(Location: IWMI HQ Call no: 003.3 G000 GHA Record No: H040383)
6 Perera, L. R. 2004. Guide book for re-organizing and strengthening the FWUCs and FWUGs. Phnom Penh, Cambodia: Ministry of Water Resources and Meteorology (MOWRAM); IWMI Cambodia. 54p.
(Location: IWMI HQ Call no: IWMI 631.7.3 G700 PER Record No: H040392)
7 Krattiger, A. 2007. Intellectual property management in health and agricultural innovation: a handbook of best practices. Oxford, UK; Davis, CA, USA; Rio de Jeneiro, Brazil; Ithaca, NY, USA: Centre for the Management of Intellectual Property in Health Research and Development (MIHR), Oxford Centre for Innovation; Public Intellectual Property Resource for Agriculture (PIPRA), University of California; Oswaldo Cruz Foundation (Fiocruz); bioDevelopments-International Institute. 214p.
(Location: IWMI HQ Call no: 346.048 G000 KRA Record No: H041090)
8 Krattiger, A. 2007. Intellectual property management in health and agricultural innovation: a handbook of best practices. Oxford, UK: Centre for the Management of Intellectual Property in Health Research and Development (MIHR), Oxford Centre for Innovation; Davis, CA, USA: Public Intellectual Property Resource for Agriculture (PIPRA), University of California; Rio de Jeneiro, Brazil: Oswaldo Cruz Foundation (Fiocruz); Ithaca, NY, USA: bioDevelopments-International Institute. 1 CD.
(Location: IWMI HQ Call no: CD Col Record No: H041091)
9 Mwakalila, S. 2005. Water resources management guidelines in Ruaha Basin in Tanzania. In Lankford, B. A.; Mahoo, H. F. (Eds.). Proceedings of East Africa Integrated River Basin Management Conference, Sokoine University of Agriculture, Morogoro, Tanzania, 7 – 9 March 2005. Theme four: water governance and institutions. Morogoro, Tanzania: Soil-Water Management Research Group, Sokoine University of Agriculture. pp.195-208.
(Location: IWMI HQ Call no: CD Col Record No: H041160)
10 Prasad, K. 2005. Indian approach to dams and development. Delhi, India: Institute for Resource Management and Economic Development. 110p.
(Location: IWMI HQ Call no: 627.8 G635 PRA Record No: H041526)
11 Chatterjee, A.; Phillips, B.; Stroud, D. A. 2008. Wetlands management planning: a guide for site managers. Gland, Switzerland: WWF International; International Union for Conservation of Nature (IUCN); Ramsar Convention; Wageningen, Netherlands: Wetlands International. 76p.
(Location: IWMI HQ Call no: e-copy only Record No: H041574)
12 Devi, M. G.; Samad, Madar. 2008. Wastewater treatment and reuse: an institutional analysis for Hyderabad, India. In Kumar, M. Dinesh (Ed.). Managing water in the face of growing scarcity, inequity and declining returns: exploring fresh approaches. Proceedings of the 7th Annual Partners Meet, IWMI TATA Water Policy Research Program, ICRISAT, Patancheru, Hyderabad, India, 2-4 April 2008. Vol.1. Hyderabad, India: International Water Management Institute (IWMI), South Asia Sub Regional Office. pp.513-523.
(Location: IWMI HQ Call no: IWMI 631.7 G635 KUM Record No: H041888)
(0.12 MB)
(Location: IWMI HQ Call no: 333.91 GG30 MOR Record No: H042150)
(0.98 MB)
This book contains guidelines, methods and tools for use in processes of planning and dialogue within and between local and intermediate levels. It describes a practical and logical framework of activities based on the involvement of those who use and manage water. The guidelines advocate a process of collaboration through dialogue, to bring about a change in the way water sector professionals and water users work with each other.
14 Dissanayake, Priyanka. 2009. The role of pollution prevention strategies, best management practices and cleaner production in hospital wastewater management. Paper presented at the International Perspective on Environmental and Water Resources Conference, (2nd Developing Nations Conference) of the Asian Institute of Technology (AIT) and Environmental and Water Resources Institute (EWRI) of the American Society of Civil Engineers (ASCE), Bangkok, Thailand, 5-7 January 2009. 8p.
(Location: IWMI HQ Call no: e-copy only Record No: H042123)
(0.33 MB)
Hospital effluents can be especially hazardous and toxic due to their content of chemical, pathogenic and bio-hazardous wastes. Many of these toxic pollutants are not fully removed or neutralized by traditional municipal wastewater treatment plants, which are primarily designed to address parameters such as Biochemical Oxygen Demand (BOD), Total Suspended Solids (TSS), etc. They are also not easily removed by filtration, settling or flocculation. The common disposal of liquid waste from hospitals into the municipal network collection system or in cesspits is of serious concern and it requires swift and effective address. Wastewater from hospitals contains pollutants that are hazardous and require on-site management to prevent contaminating the city’s sewage system and other surface waters. Unlike industrial operations that typically have a few large volume waste streams; hospitals generate different volumes of a wide variety of wastes and emissions. Most important chemicals in hospital wastewater are disinfectants (due to their major use in hospital practice), antibiotics, cytostatic agents, anesthetics, heavy metals (silver, chromium, zinc, lead, copper, platinum, and mercury), rare earth elements (gadolinium, indium, and osmium) and iodinated X-ray contrast media. Pollution prevention strategies and Best Management Practices (BMPs) to pollutant load reduction at the source is the best solution available to overcome this problem. The pollutant load reduction can be initiated by applying pollution prevention strategies and Best Management Practices (BMPs) to practices that use these chemicals. The goal of pollution prevention in healthcare environments is the same as throughout industry do to eliminate and/or reduce pollution at the source. The major difference when undertaking pollution prevention at healthcare facilities is that they do not manufacture a ‘product’, operate a fabrication ‘process’ or generate waste materials that can be readily recycled, reused or reprocessed. Therefore, the role of Pollution Prevention Strategies, Best Management Practices and Cleaner Production will be somewhat different than other industrial sectors. Pollution Prevention Strategies, Best Management Practices and Cleaner Production applicable to hospital wastewater management in Sri Lanka and Bangladesh are addressed in this paper.
15 van Koppen, Barbara. 2009. Guidelines for community-driven water resource management: as initiated by the Integrated Water Resource Management Demonstration Projects in Malawi, Mozambique, Namibia, Swaziland and Zambia. Pretoria, South Africa: SADC/Danida Water Sector Support Programme; Pretoria, South Africa: International Water Management Institute (IWMI). 24p.
(Location: IWMI HQ Call no: e-copy only Record No: H042174)
(0.65 MB)
These guidelines are based on the IWRM Demonstration Projects in Malawi, Mozambique, Namibia, Swaziland and Zambia, implemented by the SADC Regional Water Sector Programme supported by Danida, and synthesized by Barbara van Koppen. It provides a practical step-by-step guide on how to apply community-driven water resource management for improved livelihoods and sustainable water systems for multiple uses. The guideline is aimed at implementers of community water development projects, in particular the local government.
16 Maltby, E. (Ed.) 2009. Functional assessment of wetlands: towards evaluation of ecosystem services. Cambridge, UK: Woodhead Publishing. 672p. + CD.
(Location: IWMI HQ Call no: 333.918 G000 MAL Record No: H042272)
(0.67 MB)
17 Wani, S. P.; Joshi, P. K.; Raju, K. V.; Sreedevi, T. K.; Wilson, M. J.; Shah, A.; Diwakar, P. G.; Palanisami, K.; Marimuthu, S.; Jha, K. A.; Ramakrishna, Y. S.; Sundaram, S. S. M.; D'Souza, M. 2008. Community watershed as a growth engine for development of dryland areas: a Comprehensive Assessment of Watershed Programs in India. Patancheru, Andhra Pradesh, India: International Crops Research Institute for the Semi-Arid Tropics (ICRISAT). 145p. (Global Theme on Agroecosystems Report 47)
(Location: IWMI HQ Call no: 333.91 G635 WAN Record No: H034791)
(0.76 MB)
(Location: IWMI HQ Call no: 333.91 G635 RAJ Record No: H034792)
(0.73 MB)
19 Zaporozec, A. (Ed.) 2002. Groundwater contamination inventory: a methodological guide. Paris, France: UNESCO. 160p. (IHP-VI Series on Groundwater 2)
Call no: e-copy only Record No: H034803)
(7.67 MB)
The broad objective of this document is to present a methodology for the inventory of groundwater contamination and to provide a guideline for planning, conducting, evaluating, and presenting the inventory. The guideline is aimed at professionals – as a manual or reference material for hydrogeologists or other specialists responsible for organizing and conducting groundwater contamination inventories, particularly in developing countries. Understanding of basic principles of hydrogeology and groundwater chemistry fundamentals is expected. The main objectives are to summarise and describe all kinds of contamination sources that planners and managers should be familiar with, and to help hydrogeologists in: designing and implementing an inventory of contamination sources; determining the extent and degree of existing contamination; explaining the impact of the existing and potential contamination sources on groundwater; presenting results of the inventory on maps, and using results of the inventory to suggest alternative strategies to protect groundwater.
20 Kuppannan, Palanisami; Kumar, D. S.; Wani, S. P. 2009. A manual on impact assessment of watersheds. Patancheru, Andhra Pradesh, India: International Crops Research Institute for the Semi-Arid Tropics (ICRISAT); Patancheru, Andhra Pradesh, India: International Water Management Institute, IWMI-TATA Water Policy Research Program. 52p. (Global Theme on Agroecosystems Report 53)
(Location: IWMI HQ Call no: IWMI 333.91 G635 PAL Record No: H034811)
(2.32 MB) (2.32 MB)
Recognising the importance of watershed development as a strategy of rural development, both central and state governments, non-governmental organisations, International Development Agencies invest huge funds on watershed development. The watershed approach enables the planners to internalize such externalities and other linkages among agricultural and related activities. Experience shows that various watershed development programme brought significant positive impact. Impact evaluations contribute to improve the effectiveness of policies and programs. Different methodologies have been used in the evaluation literature mainly the qualitative and quantitative methods. Choosing appropriate methodology for impact assessment of natural resource management interventions is essential.
This bulletin outlines the various concepts and methods in watershed impact evaluation with examples. The use of economic surplus approach with consumer and producers’ surplus is compared with the conventional approach with only producers’ surplus. Also incorporation of the rainfall variability in the watershed evaluation is demonstrated. A simple computer based watershed programme incorporating the various components of the watershed development is also developed and included.
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