Your search found 29 records
1 Metternicht, G.; Hurni, L.; Gogu, R. 2005. Remote sensing of landslides: An analysis of the potential contribution to geo-spatial systems for hazard assessment in mountainous environments. Remote Sensing of Environment, 98:284-303.
(Location: IWMI-HQ Call no: P 7430 Record No: H037633)
(Location: IWMI HQ Call no: P 7906 Record No: H040140)
3 Hewawasam, T. 2010. Effect of land use in the upper Mahaweli catchment area on erosion, landslides and siltation in hydropower reservoirs of Sri Lanka. Journal of National Science Foundation, 38(1)3-14.
(Location: IWMI HQ Call no: PER Record No: H043330)
(1.10 MB)
4 Joshi, P. K.; Singh, T. P. 2011. Geoinformatics for climate change studies. New Delhi, India: The Energy and Resources Institute (TERI). 470p.
(Location: IWMI HQ Call no: 621.3678 G000 JOS Record No: H044290)
(0.33 MB)
5 Vrba, J.; Verhagen, B. T. (Eds.) 2011. Groundwater for emergency situations: a methodological guide. Paris, France: UNESCO. International Hydrological Programme (IHP). 316p. (UNESCO IHP-VII Series on Groundwater No. 3)
(Location: IWMI HQ Call no: e-copy only Record No: H044405)
(17.39 MB) (17.4MB)
The aim of the UNESCO IHP project ‘Groundwater for Emergency Situations’ (GWES) is to consider natural catastrophic events that could adversely influence human health and life and to identify in advance emergency groundwater resources resistant to natural disasters that could replace damaged public and domestic drinking water supplies. The GWES project was approved during the 15th session of the Intergovernmental Council of the International Hydrological Programme (IHP). It was included in the Implementation Plan of the Sixth Phase of the IHP (2002–2007), Theme 2: ‘Integrated watershed and aquifer dynamics’, under the title ‘Identification and management of strategic groundwater bodies to be used for emergency situations as a result of extreme events or in case of conflicts’. The Second phase of the GWES project is implemented within IHP VII (2008–2013) by an International Working Group composed of UNESCO, and IAH representatives and experts from different regions of the world.
(Location: IWMI HQ Call no: 363.34 G000 CEN Record No: H044954)
(0.41 MB)
7 Siddiqui, Salman; Bharati, Luna; Pant, Menuka; Gurung, Pabitra; Rakhal, Biplov. 2012. Nepal: building climate resilience of watersheds in mountain eco-regions - climate change and vulnerability mapping in watersheds in middle and high mountains of Nepal. ADB Technical Assistance Consultant's Report for Department of Soil Conservation and Watershed Management (DSCWM), Government of Nepal. Kathmandu, Nepal: Asian Development Bank (ADB). 96p.
(Location: IWMI HQ Call no: e-copy only Record No: H045011)
(5.46 MB) (5.46MB)
Project Preparatory Technical Assistance 7883-NEP
8 de Silva, Sanjiv. 2012. Structural vulnerability to climate change in Bangladesh: a literature review. [Project report prepared by IWMI for the CGIAR Research Program on Climate Change, Agriculture and Food Security (CCAFS) under the project "Water-related Interventions to Reduce Vulnerability to Climate Change: Do they Address the Structural Causes of Gendered Vulnerability in the IGP [Indo Gangetic Plains]"]. Colombo, Sri Lanka: International Water Management Institute (IWMI). 82p.
(Location: IWMI HQ Call no: e-copy only Record No: H045713)
(1.69 MB)
9 Aheeyar, Mohamed; Manthrithilake, Herath. 2014. Increasing water related disasters: policy and institutional gaps. In Sri Lanka. Ministry of Disaster Management. Proceedings of the Disaster Management Conference: The future we want- Safer Sri Lanka, Colombo, Sri Lanka, 24-26 September 2014. Colombo, Sri Lanka: Ministry of Disaster Management. pp.382-383.
(Location: IWMI HQ Call no: e-copy only Record No: H046627)
(0.14 MB)
(Location: IWMI HQ Call no: 912 G744 SRI Record No: H046358)
(1.92 MB)
(Location: IWMI HQ Call no: 363.34 G000 ISM Record No: H046897)
(0.51 MB)
(Location: IWMI HQ Call no: 624.151363 G000 BAR Record No: H047280)
(0.43 MB)
(Location: IWMI HQ Call no: e-copy only Record No: H047943)
Beginning on 14 May 2016, a low pressure area over the Bay of Bengal caused torrential rain to fall across Sri Lanka. Some locations saw over 350 mm (13.77 inches) of rain fall in 24 hours. Floods and landslides have caused havoc in as many as 19 districts of the country, including around Colombo, causing floods and landslides which affected half a million people with causality reported over 100 and estimated economic losses closer to $2billion. In recent years, due to an increasing number in the frequency and intensity of extreme meteorological events potentially related to climate change, a growing attention has been paid to the operational use of satellite remote sensing applied to emergency response and relief measures. This is mainly due to the large and timely availability of different types of remotely sensed data as well as geospatial information acquired in the field which may be potentially exploited in the different phases of the disaster management cycle. IWMI jointly with Disaster Management Centre (DMC), Sri Lanka activated disaster charter with Sentinel Asia and escalated International Disaster Charter to access satellite images during the crisis response phase to support government agencies in relief and rescue measures. A total of 13 satellite images both microwave and optical datasets (ALOS-2, Sentinel-1, RISAT-1, RADARSAT-2, TerraSAR-X, FORMOSAT, Landsat-8) were provided by various space agencies to generate flood situation maps on a daily basis. The emergency flood situation maps were regularly shared to national and international organizations within 3-4 hours after the post-event image is acquired by the space agencies to support in relief measures. The derived flood maps were overlaid with local administrative division to give specific information on the priority area to the DMC and Air Force authorities to focus relief measures. These rapid response maps can further be used for postdisaster relief policy and damage assessment.
(Location: IWMI HQ Call no: e-copy only Record No: H047993)
(1.09 MB) (1.09 MB)
This study attempts to understand local people’s perceptions of climate change, its impacts on agriculture and household food security, and local adaptation strategies in the Hindu-Kush Himalayan (HKH) region, using data from 8083 households (HHs) from four river sub-basins (SBs), i.e. Upper Indus (Pakistan), Eastern Brahmaputra (India), Koshi (Nepal) and Salween and Mekong (China). The majority of households in SBs, in recent years, have perceived that there have been more frequent incidences of floods, landslides, droughts, livestock diseases and crop pests, and have attributed these to climate change. These changes have led to low agricultural production and income, particularly in Eastern Brahmaputra (EB) where a substantial proportion of HHs reported a decline in the production of almost all staple and cash crops, resulting in very low farm income. Consequently, households’ dependency on external food items supplied from plain areas has increased, particularly in the Upper Indus (UI) and EB. After hazards, households face transitory food insecurity owing to damage to their local food systems and livelihood sources, and constrained food supply from other areas. To cope with these, HHs in SBs make changes in their farming practices and livestock management. In EB, 11 % of HHs took on new off-farm activities within the SB and in SM, 23 % of HHs chose out-migration as an adaptation strategy. Lastly, the study proposes policy instruments for attaining sustainable food security, based on agro-ecological potential and opportunities for increasing agricultural resilience and diversity of livelihoods.
15 Brocca, L.; Crow, W. T.; Ciabatta, L.; Massari, C.; de Rosnay, P.; Enenkel, M.; Hahn, S.; Amarnath, Giriraj; Camici, S.; Tarpanelli, A.; Wagner, W. 2017. A review of the applications of ASCAT [Advanced SCATterometer] soil moisture products. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10(5):2285-2306. [doi: https://doi.org/10.1109/JSTARS.2017.2651140]
(Location: IWMI HQ Call no: e-copy only Record No: H048009)
Remote sensing of soil moisture has reached a level of good maturity and accuracy for which the retrieved products are ready to use in real-world applications. Due to the importance of soil moisture in the partitioning of the water and energy fluxes between the land surface and the atmosphere, a wide range of applications can benefit from the availability of satellite soil moisture products. Specifically, the Advanced SCATterometer (ASCAT) on board the series of Meteorological Operational (Metop) satellites is providing a near real time (and long-term, 9+ years starting from January 2007) soil moisture product, with a nearly daily (sub-daily after the launch of Metop-B) revisit time and a spatial sampling of 12.5 and 25 km. This study first performs a review of the climatic, meteorological, and hydrological studies that use satellite soil moisture products for a better understanding of the water and energy cycle. Specifically, applications that consider satellite soil moisture product for improving their predictions are analyzed and discussed. Moreover, four real examples are shown in which ASCAT soil moisture observations have been successfully applied toward: 1) numerical weather prediction, 2) rainfall estimation, 3) flood forecasting, and 4) drought monitoring and prediction. Finally, the strengths and limitations of ASCAT soil moisture products and the way forward for fully exploiting these data in real-world applications are discussed.
16 Hirji, R.; Nicol, Alan; Davis, R. 2017. South Asia climate change risks in water management. Washington, DC, USA: World Bank; Colombo, Sri Lanka: International Water Management Institute (IWMI). 96p. (Climate Risks and Solutions: Adaptation Frameworks for Water Resources Planning, Development and Management in South Asia)
(Location: IWMI HQ Call no: e-copy only Record No: H048847)
(923 KB)
17 Lacombe, Guillaume; Chinnasamy, Pennan; Nicol, Alan. 2019. Review of climate change science, knowledge and impacts on water resources in South Asia. Background Paper 1. Colombo, Sri Lanka: International Water Management Institute (IWMI). 73p. (Climate Risks and Solutions: Adaptation Frameworks for Water Resources Planning, Development and Management in South Asia) [doi: https://doi.org/10.5337/2019.202]
(Location: IWMI HQ Call no: e-copy only Record No: H049184)
(7.58 MB)
18 Davis, R.; Hirji, R. 2019. Review of water and climate change policies in South Asia. Background Paper 2. Colombo, Sri Lanka: International Water Management Institute (IWMI). 120p. (Climate Risks and Solutions: Adaptation Frameworks for Water Resources Planning, Development and Management in South Asia) [doi: https://doi.org/10.5337/2019.203]
(Location: IWMI HQ Call no: e-copy only Record No: H049185)
(1.57 MB)
(Location: IWMI HQ Call no: e-copy SF Record No: H049478)
(Location: IWMI HQ Call no: e-copy SF Record No: H049945)
Powered by DB/Text
WebPublisher, from