Your search found 15 records
1 Schumm, S. A.; Winkley, B. R. (Eds.) 1994. The variability of large alluvial rivers. New York, NY, USA: ASCE. xiii, 467p.
Rivers ; Flood control ; Sedimentation ; Hydrology / USA / Egypt / Colombia / Pakistan / Australia / Indonesia / Java / Canada / Venezuela / Bangladesh / China / West Africa / Mississippi River / California / Sacramento River / Magdalena River / Nile River / Sindh / Indus River / Murray River / Citanduy River / British Columbia / Fraser River / Orinoco River / Red River / Canadian River / Niobrara River / Alabama River / Platte River / Yellow River / Rio Grand Valley / Niger River / Arial Khan River
(Location: IWMI-HQ Call no: 551.483 G000 SCH Record No: H019251)
2 Bird, J. 1999. Towards effective water policy and the consequences for irrigation management. Journal of Applied Irrigation Science, 34(1):5-22.
Water policy ; Irrigation management ; Development projects ; Development banks ; River basins ; Water resource management ; Land development ; International cooperation ; Water users ; Cooperatives / Sri Lanka / Indonesia / Laos / Vietnam / Pakistan / Kazakhstan / Philippines / Red River
(Location: IWMI-HQ Call no: PER Record No: H023323)
(1.89 MB)
3 ESCAP. 1998. Sources and nature of water quality problems in Asia and the Pacific. New York, NY, USA: UN. ix, 164p.
Water quality ; Rivers ; Water pollution ; Water management ; Rehabilitation ; Strategy planning ; Case studies / Australia / Bangladesh / Cambodia / China / India / Indonesia / Laos / Myanmar / Nepal / Pakistan / Philippines / Korea Republic / Sri Lanka / Thailand / Vietnam / Aral Sea Basin / Indus River / Ravi River / Red River / Saigon River / Brantas River
(Location: IWMI-HQ Call no: 333.91 G570 ESC Record No: H025108)
4 Dubayah, R. O.; Wood, E. F.; Engman, E. T.; Czajkowski, K. P.; Zion, M.; Rhoads, J. 2000. Remote sensing in hydrological modeling. In Schultz, G. A.; Engman, E. T. (Eds.), Remote sensing in hydrology and water management. Berlin, Germany: Springer. pp.85-110.
Remote sensing ; Hydrology ; Models ; Water resource management ; Design ; Water balance ; Runoff ; Watersheds ; GIS ; Soil moisture ; Soil water ; Precipitation / USA / Red River / Arkansas River Basin
(Location: IWMI-HQ Call no: 621.3678 G000 SCH Record No: H027011)
5 Gu, R.; Deutschman, M. 2001. Hydrologic assessment of water losses in river. Journal of Water Resources Planning and Management, 127(1):6-12.
Hydrology ; Assessment ; Water loss ; River basins ; Water delivery ; Open channels ; Flow discharge ; Design ; Water conveyance ; Water balance ; Mathematical models ; Evapotranspiration ; Precipitation ; Stream flow ; Soil moisture ; Groundwater / USA / North Dakota / Sheyenne River / Missouri River / Red River
(Location: IWMI-HQ Call no: PER Record No: H027225)
6 Fontenelle, J.; Defourny, P.; Thinh, L. D.; Thinh, L. V. (Eds.) 2000. Atlas of the Bac Hung Hai Polder (Vietnam): Irrigation and drainage Management and agricultural diversification in the Bac Hung Hai Primary Water Control Unit, Red River Delta - Vietnam. Hanoi, Vietnam: Agricultural Publishing House. 58p.
Irrigation systems ; Drainage ; Irrigation management ; Water control ; Maps ; GIS ; Diversification / Vietnam / Red river / Bac Hung Hai
(Location: IWMI-HQ Call no: 631.7.8 G784 FON Record No: H028819)
7 Shultz, S. D.; Fridgen, P. M. 2001. Floodplains and housing values: Implications for flood mitigation projects. Journal of the American Water Resources Association, 37(3):595-603.
Flood plains ; River basins ; Flood control ; Water resource management ; Planning / USA / North Dakota / Fargo / Minnesota / Moorhead / Red River
(Location: IWMI-HQ Call no: PER Record No: H029176)
8 Tu, D. T. 2002. Land and water investment in Viet Nam: Past trends, returns and future. In FAO. RAP. Investment in land and water û Proceedings of the Regional Consultation, Bangkok, Thailand, 3-5 October 2001. Bangkok, Thailand: FAO. RAP. pp.339-350.
Water resources ; Climate ; Environmental effects ; Irrigation systems ; Irrigation programs ; Dams ; Flood control ; Land development ; Water resource management ; Investment / Vietnam / Mekong River Delta / Red River / Ca River / Ma River
(Location: IWMI-HQ Call no: 631.7.4 G570 FAO Record No: H030018)
9 Ahmad, S.; Simonovic, S. P. 2005. An artificial neural network model for generating hydrograph from hydro-meteorological parameters. Journal of Hydrology, 315:236-251.
Hydrology ; Runoff ; River basins ; Watersheds ; Precipitation ; Forecasting ; Models ; Neural networks ; Performance evaluation / Canada / Manitoba / Red River
(Location: IWMI-HQ Call no: P 7455 Record No: H037944)
10 Simmons, Robert. 2004. Review of the current contamination status of potentially toxic elements (PTEs) in the Greater Mekong sub-region. UNESCAP-IWMI-IAEA Training Workshop on the Development of Effective Management and Decision-Making Tools for the Mitigation of Contamination of Soils, Crops and Water in the Greater Mekong Sub-region, Bangkok, Thailand, 16-18 June 2004. 50p.
Soils ; Soil degradation ; Rice ; Surface water ; Groundwater ; Water pollution ; Water quality ; Arsenic ; Public health ; Diseases ; Cadmium ; Fluorides / Vietnam / Thailand / Cambodia / Myanmar / Laos / China / Red River / Hanoi / Mekong
(Location: IWMI-HQ Call no: IWMI 333.91 G800 SIM, CD Col Record No: H038811)
11 Biswas, A. K. (Ed.) 2003. Water resources of North America. Berlin, Germany: Springer. 381p.
Ecology ; Water resources development ; Planning ; Water quality ; Monitoring ; Flood control ; Water use ; Wastewater treatment ; Irrigation water ; Domestic water ; Industrialization ; Energy resources ; Fisheries ; Wetlands ; Public health ; River basin management ; Legal aspects ; Aquifers ; Climate ; Precipitation ; Land ownership ; Institutions ; Water storage ; Water use ; Drinking water / USA / Canada / Mexico / North America / Red River / British Columbia / Great Lakes / Quebec / Fraser River / Northern River Basin
(Location: IWMI HQ Call no: 333.91 G370 BIS Record No: H040174)
12 Luu, T. N. M.; Orange, Didier; Dang T. H.; Le Lan Anh; Garnier, J. 2007. Impact des activites anthropiques sur les flux de matieres en suspension et sur la qualite des eaux du fleuve Rouge a l’entree du delta. In French. [Impact of human activities on material flows suspended and the water quality of the Red River at the entrance of the delta]. In Do, S. Q. Integrated management of water and soil: resources, facilities and risk in rural and urban - proceedings of the 1st Scientific Meeting of the Inter-Network AUF, Hanoi, Vietnam, 6-9 November 2007 - Theme 2: Towards a sustainable management of rural and urban water systems. Montreal, Canada: Agence Universitaire de la Francophonie (AUF); Marseille, France: Institut de Recherche pour le Developpement (IRD); Hanoi, Vietnam: National University of Hanoi (UNH); Hanoi, Vietnam: Academy of Agricultural Sciences of Vietnam (SSAC); Hanoi, Vietnam: National Institute for Soils and Fertilizers (NISF). 6p.
Rivers ; Water quality ; Wastewater ; Pollution control / Vietnam / Red River / Hanoi / Day River / Nhue River
(Location: IWMI HQ Call no: 333.9162 G784 LUU Record No: H040809)
http://www.infotheque.info/fichiers/JSIR-AUF-Hanoi07/articles/AJSIR_2-p9_Luu.pdf
https://vlibrary.iwmi.org/pdf/H040809.pdf
https://vlibrary.iwmi.org/pdf/H040809.pdf
(173KB)
The water quality of the Red River is studied near Hanoi in comparison with the water quality of two small rivers, Day and Nhue, going to the Sea of China. The suspended load in the Red River is strongly linked to the rainy season, even near Hanoi in spite of the large demography: the suspended load is weak during the dry season, high during the rainy season (rising from 19 to 115 mg/l in 2005/2006). However our measurements prove that the suspended load increases within the Red River inside the Delta: we assume that it is due to the erosion of the river bank. In comparison with the Red River, the waters of the small streams are less loaded in suspended matter, due to the use of dams. At the opposite, the conductivity of the small streams are equal or highest than the Red River water. The measurements (concentrations in ammonium and phosphate) prove that the Red river could be used to clean the waste waters to drain the surface waters of the Delta to the Chinese sea.
13 Dang, T. H.; Coynel, A.; Orange, Didier; Blanc, G.; Etcheber, H.; Schafer, J.; Le, L. A. 2009. Erosion and impact of human disturbance on sediment transport in the Red River, Vietnam. [Goldschmidt Conference Abstracts 2009]. Geochimica et Cosmochimica Acta, 73(13) Supplement 1:A260.
(Location: IWMI HQ Call no: e-copy only Record No: H042657)
http://www.goldschmidt2009.org/abstracts/finalPDFs/A260.pdf
https://vlibrary.iwmi.org/pdf/H042657.pdf
https://vlibrary.iwmi.org/pdf/H042657.pdf
(0.11 MB)
Mechanical erosion and sediment transfers depend strongly on many natural parameters related to topography, climate and land cover [1]. Additionally, anthropogenic activities may affect sediment supplies to estuaries, deltas and the coastal zone [2]. The Red River (China/Vietnam, A=155 000 km²) is a typical tropical humid river originating from the mountainous area of the Yunnan Province in China. Based on daily discharges (Q) and suspended particulate matter (SPM) concentrations between 1960-2007 at SonTay gauging station (outlet of the river and entry to the Delta) provided by the national institute IMHE-MONRE, the mean annual SPM fluxes was estimated to 90 Mt/yr, corresponding to a sediment yield of 600 t/km²/yr, similar to the Ganges/Brahmaputra system [3], and probably due to same controlling factors. The temporal variability of annual SPM fluxes (ranging from 24 to 200 Mt/yr) is strongly related to the interannual hydrological conditions. However, some years of high water flow did not account for high sediment fluxes, especially after 1989 when the HoaBinh dam was operated. Sediment rating curves (power law-type; SPM=aQb) were fitted for both periods (1960-1989; 1990-2007). The analysis of the pre- and post-1989 sediment rating parameters (a, b) suggests a downshift of a-parameter values after 1989, attributed to decreased sediment supply [4]. A single sediment rating curve derived from 1960-1989 data was used to simulate the annual variability of former sediment delivery, generating excellent cumulative flux estimates (error <-5%). In contrast, applying the same rating curve to the 1986-2007 data resulted in systematic, important (up to 97%) overestimation. This suggests that the HoaBinh dam reduces annual SPM delivery to the delta by half, implying changes in nutrient and contaminant transport.
14 Minh, L. T. N.; Orange, Didier; Anh, L. L.; Linh, T. T. M.; Toan, Tran Duc. 2007. Su bien doi hang nam cua chat ran lo lung va chat luong nuoc tai vung cua song dong bang chau tho song hong. In Vietnamese. [Annual evolution of suspended matter flows and the quality of water of the Red River at the entry of its delta.]. Vietnamese Scientific Journal, 2:94-97.
(Location: IWMI HQ Call no: e-copy only Record No: H043008)
(1.19 MB)
15 Bird, J. 1998. Towards effective water policy and the consequences for irrigation management. In Abernethy, C. L.; Heim, F. (Eds.). Institutional reform and co-operation in irrigated agriculture, with special reference to Lao PDR and Vietnam: proceedings of the International Workshop held from April 27 to May 2, 1998 in Luang Prabang, Lao PDR and the two national meetings held on May 7, 1998 in Hanoi, Vietnam and May 8, 1998 in Vientiane, Lao PDR. Feldafing, Germany: ZEL. Food and Agriculture Development Centre. pp.98-117.
Water policy ; Irrigation management ; Development projects ; Development banks ; River basins ; Water resource management ; Land development ; International cooperation ; Water users ; Cooperatives / Sri Lanka / Indonesia / Laos / Vietnam / Pakistan / Kazakhstan / Philippines / Red River
(Location: IWMI HQ Call no: 631.7.3 G708 ABE Record No: H044975)
(1.98 MB)
Powered by DB/Text WebPublisher, from
