Your search found 7 records
1 Hoogeveen, J.. 1999. A regional water balance of the Aral Sea Basin through GIS. Rome, Italy: FAO. Land and Water Development Division. 11p.
Water balance ; GIS ; Watersheds ; Precipitation ; Runoff ; Evaporation ; Irrigation / Central Asia / Aral Sea Basin / Amu Darya / Syr Darya
(Location: IWMI-HQ Call no: P 5388 Record No: H025660)
2 Droogers, P.; van Dam, J.; Hoogeveen, J.; Loeve, R. 2004. Adaptation strategies to climate change to sustain food security. In Aerts, J. C. J. H.; Droogers, Peter (Eds.). Climate change in contrasting river basins: adaptation strategies for water, food and environment. Cambridge, MA, USA: CABI. pp.49-73.
(Location: IWMI-HQ Call no: 630.2515 G000 AER Record No: H036670)
3 Strzepek, K.; McCluskey, A.; Hoogeveen, J.; van Dam J. 2004. Food demand and production: A global and regional perspective. In Aerts, J. C. J. H.; Droogers, Peter (Eds.), Climate change in contrasting river basins: Adaptation strategies for water, food and environment. Cambridge, MA, USA: CABI. pp.239-253.
(Location: IWMI-HQ Call no: 630.2515 G000 AER Record No: H036679)
4 de Fraiture, Charlotte; Wichelns, D.; Rockstrom, J.; Kemp-Benedict, E.; Eriyagama, Nishadi; Gordon, L. J.; Hanjra, M. A.; Hoogeveen, J.; Huber-Lee, A.; Karlberg, L. 2007. Looking ahead to 2050: scenarios of alternative investment approaches. In Molden, David (Ed.). Water for food, water for life: a Comprehensive Assessment of Water Management in Agriculture. London, UK: Earthscan; Colombo, Sri Lanka: International Water Management Institute (IWMI). pp.91-145.
Food supply ; Food production ; Fisheries ; Water use ; Rainfed farming ; Irrigated farming ; Ecosystems ; Poverty
(Location: IWMI HQ Call no: IWMI 630.7 G000 IWM Record No: H040196)
(2.97 MB)
5 Molden, David; Oweis, T. Y.; Pasquale, S.; Kijne, J. W.; Hanjra, M. A.; Bindraban, P. S.; Bouman, B. A. M.; Cook, S.; Erenstein, O.; Farahani, H.; Hachum, A.; Hoogeveen, J.; Mahoo, H.; Nangia, V.; Peden, D.; Sikka, A.; Silva, P.; Turral, Hugh; Upadhyaya, A.; Zwart, S. 2007. Pathways for increasing agricultural water productivity. In Molden, David (Ed.). Water for food, water for life: a Comprehensive Assessment of Water Management in Agriculture. London, UK: Earthscan; Colombo, Sri Lanka: International Water Management Institute (IWMI). pp.279-310.
Water use ; Productivity ; Crop production ; Evapotranspiration ; Water delivery ; Irrigation management ; Fisheries
(Location: IWMI HQ Call no: IWMI 630.7 G000 IWM Record No: H040200)
(2.06 MB)
6 Karimi, P.; Bastiaanssen, Wim G. M.; Sood, Aditya; Hoogeveen, J.; Peiser, L.; Bastidas-Obando, E.; Dost, R. J. 2015. Spatial evapotranspiration, rainfall and land use data in water accounting - Part 2: reliability of water acounting results for policy decisions in the Awash Basin. Hydrology and Earth System Sciences, 19:533-550. [doi: https://doi.org/10.5194/hess-19-533-2015]
Water accounting ; Land use ; Rain ; Evapotranspiration ; Policy making ; Decision making ; River basins ; Remote sensing ; Satellite surveys ; Indicators ; Hydrology ; Case studies / Ethiopia / Awash Basin
(Location: IWMI HQ Call no: e-copy only Record No: H046821)
http://www.hydrol-earth-syst-sci.net/19/533/2015/hess-19-533-2015.pdf
https://vlibrary.iwmi.org/pdf/H046821.pdf
https://vlibrary.iwmi.org/pdf/H046821.pdf
(6.95 MB) (6.95 MB)
Water Accounting Plus (WA+) is a framework that summarizes complex hydrological processes and water management issues in river basins. The framework is designed to use satellite-based measurements of land and water variables and processes as input data. A general concern associated with the use of satellite measurements is their accuracy. This study focuses on the impact of the error in remote sensing measurements on water accounting and information provided to policy makers. The Awash Basin in the central Rift Valley in Ethiopia is used as a case study to explore the reliability of WA+ outputs, in the light of input data errors. The Monte Carlo technique was used for stochastic simulation of WA+ outputs over a period of 3 yr. The results show that the stochastic mean of the majority of WA+ parameters and performance indicators are within 5 % deviation from the original WA+ values based on one single calculation. Stochastic computation is proposed as a standard procedure for WA+ water accounting because it provides the uncertainty bandwidth for every WA+ output, which is essential information for sound decision-making processes. The majority of WA+ parameters and performance indicators have a coefficient of variation (CV) of less than 20 %, which implies that they are reliable and provide consistent information on the functioning of the basin. The results of the Awash Basin also indicate that the utilized flow and basin closure fraction (the degree to which available water in a basin is utilized) have a high margin of error and thus a low reliability. As such, the usefulness of them in formulating important policy decisions for the Awash Basin is limited. Other river basins will usually have a more accurate assessment of the discharge in the river mouth.
7 Cullmann, J.; Dilley, M. (Ed.); Egerton, P.; Grasso, V. F. (Ed.); Honore, C.; Lucio, F.; Luterbacher, J.; Nullis, C.; Power, M.; Rea, A.; Repnik, M.; Stander, J.; Idle, T. (Ed.); Msemo, N. (Ed.); Baubion, N.; Roudier, P.; Woillez, M.- N.; Gomes, A. M.; Dobardzic, S.; Pina, C. L.; Naran, B.; Richmond, M.; Harding, J.; Macasil, M. L. K.; Chaponniere, E.; Hoyer, B.; Losenno, C.; Vaananen, E.; Baugh, C.; Prudhomme, C.; Brovko, E.; Giusti, S.; Hoogeveen, J.; Maher, S.; Neretin, L.; Pek, E.; Gutierrez, A.; Ramage, S.; Venturini, S.; Intsiful, J.; Barnwal, A.; Iqbal, F.; Aich, V.; Debevec, L.; Grey, S.; Sumner, T.; Marsden, K.; Katsanakis, R.; Sengupta, R.; Bensada, A.; Olhoff, A.; Ivanova, O.; Kappelle, M.; Nield, M.; Wang, Y.; Bertule, M.; Glennie, P.; Lloyd, G. J.; Benchwick, G.; Creitaru, L.; Larroquette, B.; Stephens, E.; Properzi, F.; Schade, M.; Bogdanova, A.- M.; Kull, D.; de France, J.; Aich, V.; Alexieva, A.; Bastani, H.; Berit, A.; Berod, D.; Bode, G.; Boscolo, R.; Chernov, I.; de Coning, E.; Eggleston, S.; Ehlert, K.; Delju, A.; Douris, J.; Gallo, I.; Kim, H.; Migraine, J.- B.; Msemo, N.; Polcher, J.; Sparrow, M.; Stefanski, R.; Tripathi, R.; Vara, R. L. S.; Woolnough, S.; Zuniga, J. A.; Christiana, P.; Luo, T.; Saccoccia, L. 2021. 2021 state of climate services: water. Geneva, Switzerland: WMO. 46p. (WMO No.1278)
Water resources ; Climate change ; Information services ; Early warning systems ; Socioeconomic aspects ; Communities ; Flooding ; Water stress ; Drought ; Forecasting ; Governance ; Water supply ; Gender ; Decision making ; Disasters ; Economic losses ; Hurricanes ; Resilience ; Policies ; Hydroelectric power generation ; Meteorological stations ; Disaster risk management ; Disaster risk reduction ; Natural disasters ; Case studies / Asia / Thailand / Africa / Gambia / Europe / Slovakia / North America / Central America / Hondura / Caribbean / South America
(Location: IWMI HQ Call no: e-copy only Record No: H050659)
(4.62 MB) (4.62 MB)
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