110 likes | 121 Views
The Asian Water Cycle Initiative addresses water issues in the Asia-Pacific region through integrated water management, data sharing, and observation systems. The program focuses on capacity building and collaboration to tackle climate change impacts on water resources effectively.
E N D
Asian Water Cycle Initiative Toshio Koike Earth Observation Data Integration and Fusion Research Initiative (EDITORIA) The University of Tokyo
Asian Water Cycle Initiative (AWCI)Background • There is a rapidly growing concern about the common water issues in the Asia-Pacific Region. • Floods and droughts, characterized by the large fluctuations of the Asian-Australian monsoon rainfall system and the fragile topography associated with circum-Pacific and Alpine-Himalayan tectonic zones, are leading to large human and socio-economic losses. • Water scarcity and pollution and environmental degradation including desertification are increasingly serious in Asia where is the most densely populated region with the largest population increment in the world. • Many countries are worrying about possibly considerable impacts of the global climate change on such vulnerable and critical water-related situation in the Asia-Pacific Region..
Asian Water Cycle Initiative (AWCI)Needs • to develop integrated water management approaches for addressing the various water-related issues comprehensively and effectively; • to share timely, quality, long-term information on water quantity and quality and their variation as a basis for sound decision making of national water policies and management strategies; • to construct a comprehensive, coordinated and sustained observation system of systems, including prediction systems and decision support capabilities; • to promote regional approaches in which we can make coordinated efforts for observation and prediction based on common ideas on the water-related issues in the Asia-Pacific Region; • to develop capacity building for making maximum use of globally integrated data and fused information for local purposes as well as for observation and collecting data.
GEOSS Asian Water Cycle Initiative (AWCI)[integration and use of earth observation data] + [capacity building] programme Integration and use of earth observation data Satellite data, global network data, numerical forecasting model, assimilation of data Capacity Building Area data / information In-situ data In-situ data In-situ data In-situ data use of satellite data *Space Agencies Research obs, Modeling andanalysis *UNU, universities Research Institute, etc. In-situ observation River management *ICHARM, MRC ESCAP, etc. Common items Basin 1 Basin 2 Basin 3 Basin 4
Combination of the architecture and data framework and the capacity building strategy of GEOSS. A cooperative implementation body by linking science community, space agencies, and water-related decision makers. Well coordination among existing operational systems and international and national projects on research and capacity building. Strategic approaches by shifting scientific achievements to operational use dedicating to the societal benefits. A clearly described baseline plan for implementation including the agreed data policy and timeline. Sharing advanced data infrastructure and downscaling methods for bridging between global data and local information. Asian Water Cycle Initiative (AWCI)Uniqueness 1/2
Capacity building components for a broader community to generate, interpret and utilize value-added products from the observations, beyond training of qualified technical personnel to operate the observing instruments. Efforts for convergence of observations, interoperability arrangement, and data management based on the heritage of and the experience through the Coordinated Enhanced Observing Period (CEOP), which is one of the project of the World Climate Research Programme (WCRP) and is closely related to the Monsoon Asia Integrated Regional Study (MAIRS) of the Earth System Science Partnership (ESSP). Efforts for capacity building in water management based on the precedent discussions led by Integrated Global Water Cycle Observation (IGWCO) of Integrated Global Observation Strategy Partnership (IGOS-P) Asian Water Cycle Initiative (AWCI)Uniqueness – 2/2
Target groups • Researchers / Scientists • Customizing existing knowledge to suit local conditions supported by global experiences • Professional / Practitioners • Introducing new methods, tools, standards • Administrative / Local governments • Over view of technology and science
International Coordination Group Country Representative Bangladesh -- Samarendra Karmakar (Bangladesh Meteorological Department) Bhutan -- Karma Chhophel(Hydro-met Services) Cambodia -- Long Saravuth (Department Hydrology and River Works) China -- Qian Mingkai (Huaihe River Commission, Ministry of Water Resources) India -- Nilkanth Y Apte (India Meteorological Department) Indonesia -- Joesron Loebis (Research Institute for Water Resources) Japan -- Toshio Koike (The University of Tokyo) Korea -- Deg-Hyo Bae (Sejong University) Laos -- Chanthachith Amphaychith (Lao National Mekong Committee) Malaysia -- (Cancelled) Mongolia -- Davaa Gombo (Institute of Meteorology and Hydrology ) Myanmar -- Htay Htay Than (Dept. of Meteorology and Hydrology) Nepal -- Shiv Kumar Sharma (Department of Water Induced Disaster Prevention) Pakistan -- Bashir AHMAD (Water Resources Research Institute/ National Agriculture Research Center) Philippines -- Flaviana Hilario (PAGASA/DOST) Sri Lanka -- S. B. Weerakoon (University of Peradeniya) Thailand -- Thada Sukhapunaphan (Ministry of Agriculture and Cooperatives) Uzbekistan -- Sergey Myagkov (Hydrometeorological Research Institut) Vietnam -- Khanh Van Duong (National Hydro-meteorological Forecasting Center) WG Co-chairs:K. Fukami (Flood), C. Fu (Drought), B.Hoque (Water Quality) Invited Experts:C. Ishida (Satellite), S. Herath (CB) AWCI Secretary:A.Goda, P.Koudelova, O. Saavedra, K.Tamagawa
Timeline • 2007 Pre-phase: survey of capabilities • Summary of inputs of observations, and needs and resources of • capacity building • Drafting a Implementation Plan • Summer ITT2 • Input to the Task Sheets • Test Archive: Metadata, Observed Data during CEOP Phase 1 • Autumn/Winter AWCI3 Input to the 4th EO Summit • Review of Updated Status of Test Archive • Adoption of the Implementation Plan • -2011 • Data Archive 2007-2010 (considering water year) • Demonstration Implementation • 2009 -2010 • Preparation for shifting • from more-research to more-operational phase