Your search found 13 records
1 Roberts, M. S.; Steenhuis, T.; Pfeffer, M. 1996. Effects of pump-irrigation on groundwater resources and the rural poor in Cambodia. Project proposal prepared by Cornell University. iv, 18p. + annexes.
Groundwater irrigation ; Irrigation effects ; Groundwater potential ; Rural economy ; Poverty ; Research projects / Cambodia
(Location: IWMI-HQ Call no: P 4655 Record No: H021636)
2 Godaliyadda, G. G. A.; Renault, D.; Steenhuis, T.. 1998. A typology analysis of irrigation system operations in Sri Lanka. Unpublished research paper. 16p.
Irrigation operation ; Irrigation canals ; Canal regulation techniques ; Rice ; Reservoirs / Sri Lanka
(Location: IWMI-HQ Call no: IIMI 631.7.1 G744 GOD Record No: H022634)
(0.66 MB)
3 Faulkner, J. W.; Steenhuis, T.; van de Giesen, N.; Andreini, Marc; Liebe, J. R. 2008. Water use and productivity of two small reservoir irrigation schemes in Ghana’s upper east region. Irrigation and Drainage, 57: 151-163.
Reservoirs ; Productivity ; Water availability ; Irrigated farming ; Irrigation programs ; Irrigation canals ; Irrigation practices / Ghana / Tanga Reservoir / Weega Reservoir
(Location: IWMI HQ Call no: IWMI 631.7.1 G200 FAU Record No: H041063)
To examine the impact of small reservoir irrigation development in Africa, the performance and productivity of two small reservoirs and irrigation schemes in the Upper East Region of Ghana were investigated in this study. Hydrologic data measured included daily irrigation volumes and daily evaporation. Farmer cost inputs, excluding labor, and harvest data were also recorded. There was a strong contrast in water availability between the two systems, the Tanga system having a higher amount of available water than did the Weega system. The concept of relative water supply was used to confirm this disparity; Tanga was an inefficient system with a relative water supply of 5.7, compared to a value of 2.4 for the efficient Weega system. It was also concluded that the dissimilar water availabilities resulted in the evolution of very different irrigation methods and coincided with different management structures. Where there was more water available per unit land (Tanga), management was relaxed and the irrigation inefficient. Where there was less water available per unit land (Weega), management was well structured and irrigation efficient. The productivity of water (US$ m_3) of the Tanga system was half that of the Weega system, when analyzed at a high market price for crops grown. In terms of productivity of cultivated land (US$ ha_1), however, the Tanga system was 49% more productive than the Weega system. The difference in the productivity of land is primarily a result of increased farmer cash inputs in the Tanga system as compared to the Weega system. The difference in the productivity of water can be attributed to the varying irrigation methods and management structures, and ultimately to the contrasting water availability.
4 Awulachew, Seleshi Bekele; McCartney, Matthew; Steenhuis, T.; Ahmed, A.; Bashar, K. 2008. Improved water and land management in the Ethiopian highlands and implications for the downstream Blue Nile. Paper presented at the Second Nile Development Forum, Khartoum, Sudan, 17-19 November 2008. 12p.
River basin management ; Rain ; Runoff ; Models ; Irrigation programs ; Sedimentation ; Erosion ; Watersheds / Ethiopia / Sudan / Egypt / Abbay Blue Nile River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H041758)
(0.42 MB)
5 Awulachew, Seleshi Bekele; Tenaw, M.; Steenhuis, T.; Easton, Z.; Ahmed, A.; Bashar, K. E.; Hailesellassie, A. 2008. Impact of watershed interventions on runoff and sedimentation in Gumera Watershed. In Humphreys, E.; Bayot, R. S.; van Brakel, M.; Gichuki, F.; Svendsen, M.; Wester, P.; Huber-Lee, A.; Cook, S. Douthwaite, B.; Hoanh, Chu Thai; Johnson, N.; Nguyen-Khoa, Sophie; Vidal, A.; MacIntyre, I.; MacIntyre, R. (Eds.). Fighting poverty through sustainable water use: proceedings of the CGIAR Challenge Program on Water and Food, 2nd International Forum on Water and Food, Addis Ababa, Ethiopia, 10-14 November 2008. Vol.1. Keynotes; Cross-cutting topics. Colombo, Sri Lanka: CGIAR Challenge Program on Water and Food. pp.109-113.
River basins ; Flow ; Simulation models ; Watershed management ; Runoff ; Sedimentation ; Erosion ; Soil loss ; Soil degradation / Ethiopia / Sudan / Gumera Watershed / Abbay-Blue Nile River Basin
(Location: IWMI HQ Call no: IWMI 333.91 G000 HUM Record No: H041752)
http://cgspace.cgiar.org/bitstream/handle/10568/3706/IFWF2_proceedings_Volume%20I.pdf?sequence=1
https://vlibrary.iwmi.org/pdf/H041752.pdf
https://vlibrary.iwmi.org/pdf/H041752.pdf
(7.964MB)
6 Liebe, J.; van de Giesen, N.; Andah, W.; Andreini, Marc; Walter, T.; Steenhuis, T.. 2008. Calibrating runoff models in ungauged basins using small reservoirs as satellite observed runoff gauges. In Humphreys, E.; Bayot, R. S.; van Brakel, M.; Gichuki, F.; Svendsen, M.; Wester, P.; Huber-Lee, A.; Cook, S. Douthwaite, B.; Hoanh, Chu Thai; Johnson, N.; Nguyen-Khoa, Sophie; Vidal, A.; MacIntyre, I.; MacIntyre, R. (Eds.). Fighting poverty through sustainable water use: proceedings of the CGIAR Challenge Program on Water and Food, 2nd International Forum on Water and Food, Addis Ababa, Ethiopia, 10-14 November 2008. Vol.1. Keynotes; Cross-cutting topics. Colombo, Sri Lanka: CGIAR Challenge Program on Water and Food. pp.135-142.
Reservoirs ; Storage ; Models ; Remote sensing ; Satellite surveys ; Watersheds ; Hydrology ; Runoff ; Percolation / Ghana / Burkina Faso / Volta River Basin
(Location: IWMI HQ Call no: IWMI 333.91 G000 HUM Record No: H041787)
http://ifwf2.org/addons/download_presentation.php?fid=1113
https://vlibrary.iwmi.org/pdf/H041787.pdf
https://vlibrary.iwmi.org/pdf/H041787.pdf
7 Steenhuis, T.; Taylor, J.; Collick, A.; van de Giesen, N.; Liebe, J.; Andreini, Marc; Easton, Z. 2009. Rainfall-discharge relationships for monsoonal climates. In Andreini, Marc; Schuetz, Tonya; Harrington, Larry (Eds.). Small reservoirs toolkit, theme 2 b: hydrology and physical measures of performance. Colombo, Sri Lanka: CGIAR Challenge Program on Water and Food (CPWF); Colombo, Sri Lanka: International Water Management Institute (IWMI); Brasilia, DF, Brasil: Brazilian Agricultural Research Corporation (Embrapa Cerrados Center); Harare, Zimbabwe: University of Zimbabwe (UZ); Accra, Ghana: Ghana Water Research Institution (WRI); Delft, The Netherlands: Delft University of Technology (TUD); Stockholm, Sweden: Stockholm Environment Institute (SEI); Marseille, France: Institut de Recherche pour le Developpement (IRD); Bonn, Germany: Center for Development Research, University of Bonn; Ithaca, NY, USA: Cornell University. 10p.
Rivers ; Discharges ; Water balance ; Simulation models ; Watersheds ; Climate ; Rain ; Evapotranspiration / Africa / Abay Blue Nile / Volta Basin
(Location: IWMI HQ Call no: e-copy only Record No: H042665)
Methods for estimating runoff that have been developed for temperate climates may not be suitable for use in the monsoonal climates of Africa, where there is a distinct dry season in which soils dry out to a considerable depth. Water balance models have been shown to better predict river discharge in regions with monsoonal climates than alternative methods based on rainfall intensity, or on the USDA-SCS curve number. This tool can be used to develop a simple water balance model for predicting river discharge.
8 Awulachew, Seleshi Bekele; Tenaw, M.; Steenhuis, T.; Easton, Z.; Ahmed, A.; Bashar, K. E. 2008. Blue Nile flow, sediment and impact of watershed interventions: case of Gumera Watershed. Paper presented at the Second International Forum on Water and Food, Addis Ababa, Ethiopia, 10-13 November 2008. 8p.
Watershed management ; Erosion ; Sedimentation ; Runoff ; Models ; Flow ; River basins / Ethiopia / Gumera Watershed / Abbay-Blue Nile Basin
(Location: IWMI HQ Call no: e-copy only Record No: H043010)
(0.49 MB) (0.49 MB)
High population pressure, inappropriate agricultural policies, improper land-use planning, over-dependency on agriculture as source of livelihood and extreme dependence on natural resources are inducing deforestation, overgrazing, expansion of agriculture to marginal lands and steep slopes, declining agricultural productivity and resource-use conflicts in many parts of Blue Nile. Increased land degradation from poor agricultural practices and erosion results in increased siltation and the reduced water quality in the river basin. The rainfall, runoff and sediment are highly variable both in time and space. Poor water and land management upstream severely affect runoff characteristics and the quality of water reaching downstream. The result is a downward spiral of poverty and food insecurity for millions of people both within the upper catchment and downstream across international borders. Quantification of the erosion, sedimentation processes and evaluation of impacts of interventions are difficult tasks. This paper schematizes the Blue Nile Basin (BNB) at various spatial levels as micro watershed, watershed, sub-basin to basin. It considers a particular watershed to model runoff, sediment and impact of watershed intervention. The result shows that runoff can be reasonably simulated with calibration of R2=0.87 and validation of result of 0.82, and comparable sediment modelling results. The study also demonstrates, by undertaking spatial analysis using topographic, soil and land use parameters it is possible to identify the high sediment risk sub-watersheds. Impact of typical watershed intervention using various widths of vegetative filter and application on high erosion risk watersheds show reduction of sediment yield from 52% to 74%
9 Liebe, J.; Andreini, Marc; van de Giesen, N.; Steenhuis, T.. 2007. The small reservoirs project: research to improve water availability and economic development in rural semi-arid areas. In Kitissou, M.; Ndulo, M.; Nagel, M.; Grieco, M. (Eds.). The hydropolitics of Africa: a contemporary challenge. Newcastle, UK: Cambridge Scholars. pp.325-332.
Reservoirs ; Research projects ; Water availability ; Economic development ; Rural areas ; Semiarid zones ; Groundwater ; Surface water ; Rain / Ghana / Burkina Faso
(Location: IWMI HQ Call no: IWMI, 333.91 G000 KIT Record No: H044806)
(0.51 MB)
10 Tadesse, A.; Dagnew, D. C.; Belete, M. A.; Tilahun, S. A.; Mekuria, Wolde; Steenhuis, T.. 2015. Impact of soil and water conservation practices on sediment losses and discharge in the headwaters of the Lake Tana Basin in the Ethiopian highlands [Abstract only] Paper presented at the 10th Alexander von Humboldt Conference 2015 on Water-Food-Energy River and Society in the Tropics. EGU Topical Conference Series, Addis Ababa, Ethiopia, 18-20 November 2015. 1p.
Soil conservation ; Water conservation ; Sediment ; Water erosion ; Watersheds ; Discharges ; River basins ; Highlands ; Runoff / Ethiopia / Blue Nile Basin / Lake Tana Basin / Tikur-Wuha Watershed / Guali Watershed
(Location: IWMI HQ Call no: e-copy only Record No: H047342)
http://meetingorganizer.copernicus.org/AvH10/AvH10-42-1.pdf
https://vlibrary.iwmi.org/pdf/H047342.pdf
https://vlibrary.iwmi.org/pdf/H047342.pdf
(0.04 MB) (37.63 KB)
Donor and governmental sponsored soil and water conservation measures has been carried out in the last half century in the Lake Tana basin, Ethiopia. However, sediment loads in to the lake has never been reduced suggesting that the effectiveness of integrated soil and water conservation measures reducing soil loss needs to be investigated. The present study was conducted in two watersheds (Tikur-Wuha covers 500 ha and Guali covers190 ha) located in the headwaters of Lake Tana to investigate the impacts of soil and water conservation practices on discharge and sediment loads. In both watersheds different soil and water conservation technologies have been implemented since 2010 by the Tana Belese integrated watershed management project: gully treatment, stone buds, soil bunds, stone faced soil bunds, water ways, cut- off drains, hill side terracing, micro basins and area closures. Daily rainfall, runoff and sediment concentration were collected from 2010 – 2012. The results showed that average runoff volume was reduced by 13% in Tikur-wuha and by 7% in Guali from 2010-2012. The sediment load in Tikur-wuha watershed was reduced by 48% in 2011 and 30% in 2012, while sediment load in Guali watershed was reduced by 1% and 35% in 2011 and 2012 respectively. The results support that the implemented integrated SWC measures through government sponsored with full participation of the community and through incorporating different SWC technology options were effective in reducing runoff and sediment load. We recommend fortifying the government led SWC campaign with full participation of the local community to reduce soil erosion and siltation of Lake Tana.
11 Dagnew, D.; Guzman, C.; Zegeye, A.; Tebebu, T.; Akal, A.; Mekuria, Wolde; Ayana, E.; Tilahun, S.; Steenhuis, T.. 2015. Effectiveness and sustainability of large scale soil and water conservation interventions in the sub-humid Ethiopian highlands: evidence from Debre Mawi watershed [Abstract only] Paper presented at the 10th Alexander von Humboldt Conference 2015 on Water-Food-Energy River and Society in the Tropics. EGU Topical Conference Series, Addis Ababa, Ethiopia, 18-20 November 2015. 1p.
Soil conservation ; Water conservation ; Humid climate ; Watersheds ; Highlands ; Sustainability ; Runoff ; Gully erosion ; Sediment / Ethiopia / Ethiopian Highlands / Debre Mawi Watershed
(Location: IWMI HQ Call no: e-copy only Record No: H047343)
http://meetingorganizer.copernicus.org/AvH10/AvH10-18-2.pdf
https://vlibrary.iwmi.org/pdf/H047343.pdf
https://vlibrary.iwmi.org/pdf/H047343.pdf
(0.04 MB) (39.04 KB)
Using measured runoff and sediment monitoring, the effectiveness of large scale soil and water conservation (SWC) implementations are analyzed from a five year (2010-2014) study, in the 95 ha Debre Mawi watershed and four nested sub-watersheds. Under the large scale government led SWC program, terraces with infiltration furrows were installed in 2012. The results indicate that runoff, sediment loads and sediment yields decreased significantly after the implementation of SWC practices. Sediment loads were reduced mainly because of the reduced runoff. Though sediment concentration decreased in the sub-watersheds, it decreased only marginally for the main watershed because of the entrainment of loose soil from the collapse of unstable banks of gullies. Infiltration furrows were effective in collecting runoff and suspended sediment (from rills) on the hillsides where Nitisols dominate (very deep, well-drained, permeable soils where rain water could infiltrate easily). But, on the saturated flat bottom lands and fields dominated by vertisols (that form wide-deep cracks during the dry season and swell during the rainy season), infiltration was restricted and conservation practices became conduits for carrying excess rainfall. Our continuous observations and photo monitoring of bunds on Nitisols and saturated bottomlands indicate that installing soil bunds on these areas caused the collapse of soil bunds in to the furrows. The soil from the collapsed bund is then easily washed away in a concentrated runoff and further initiated gullies in the Debre Mawi watershed. Large scale soil and water conservation interventions have short term effectiveness of reducing runoff and sediment loads. However, long term benefits can only be sustained with continuous maintenance of uphill infiltration furrows, as most ditches are filled up with sediments within two-three years. In addition, large scale soil and water conservation interventions should give priority to gully treatments, should consider local soil types and saturation dynamics to install bunds in the sub-humid Ethiopian highlands.
12 Tesema, M.; Schmitter, Petra; Nakawuka, Prossie; Tilahun, S. A.; Steenhuis, T.; Langan, Simon. 2016. Evaluating irrigation technologies to improve crop and water productivity of onion in Dangishta watershed during the dry monsoon phase. Paper presented at the International Conference of the Advancement of Science and Technology, Bahir Dar, Ethiopia, 17-18 July 2016. 10p.
Crop production ; Crop management ; Water productivity ; Water use efficiency ; Water conservation ; Water management ; Onions ; Monsoon climate ; Dry season ; Watershed services ; Wet cultivation ; Soil moisture ; Soil water balance ; Rhizosphere ; Rain ; Agriculture ; Fertilizer application / Ethiopia / Dangishta Watershed
(Location: IWMI HQ Call no: e-copy only Record No: H047635)
(611 KB)
13 Muche, H.; Abdela, M.; Schmitter, Petra; Nakawuka, Prossie; Tilahun, S. A.; Steenhuis, T.; Langan, Simon. 2017. Application of deep tillage and Berken Maresha for hardpan sites to improve infiltration and crop productivity [Abstract only] Paper presented at the 5th International Conference on the Advancement of Science and Technology, Bahir Dar University, Ethiopia. 1p.
Crop production ; Crop yield ; Productivity ; Infiltration ; Tillage ; Penetration ; Grain ; Maize ; Erosion ; Runoff / Ethiopia / Blue Nile River
(Location: IWMI HQ Call no: e-copy only Record No: H048309)
Long term use of Maresha plow, a conventional plow pulled by oxen, has resulted in the formation of a restrictive layer thereby limiting water movement and aeration as well as root zone penetration in the soil profile. Several studies have shown that improved tillage practices can positively affect infiltration and aeration resulting in increased rainwater use efficiency and agricultural production. However, rather limited information is available about the use of the Berken plough as a potential alternative for tillage practices. We studied the impact of improved tillage practices on infiltration, erosion, runoff and crop productivity during the rainy period of 2016 in Robit-Bata watershed located in upper Blue Nile, Ethiopia. The experiments were carried out in Maize fields where four tillage treatments were compared: (i) no-till (NT), no ploughing; (ii) conventional (CT), plots tilled three times using oxen driven Maresha, (iii) deep (DT), manual digging up to 60 cm using a mattock and (iv) Berken tillage (BT), plots tilled three times using an oxen driven Berken plough. Soil physical parameters (e.g. penetration resistance, bulk density) where measured before tillage treatment and after the cropping season. Additionally, crop performance (plant height, yield, residual biomass and root depth) and measurements on infiltration, sediment yield and runoff were collected. Tillage depth was significantly higher in DT (60 cm) followed by BT (27.58 cm) and CT (18.13cm). At the end of the season, the measured penetration resistance was significantly (p<0.01) lower at 20 cm depth in the DT and BT plots compared to the NT and the CT treatments. Infiltration rates increased from 115.2 mm hr-1(NT), 120 mm hr-1(CT) to 242.4 mm hr-1(DT), 261.6 mm hr-1(BT) (p<0.01) . The total runoff depth significantly decreased in the DT (29.46 mm) and BT treatments (33.53 mm) as compared to the CT (71.45 mm) and NT (98.77 mm) (p < 0.05). Similarly higher sediment yields were recorded for the CT (5.5 t ha-1) and NT (6.6 t ha-1) compared to the DT (2.6 tha-1) and BT (2.6 t ha-1) plots. Deeper tillage in DT and BT treatments as well as the presence of invisible barriers along the contour in Berken system could be the reason for the observed increase in filtration and the reduction of runoff and soil loss. On the other hand, the root length under DT was (> 50cm) followed by BT (>40cm) and NT and CT (both < 30 cm). Grain yield of maize was significantly lower in the NT (2.6 t ha-1) compared to yields measured in the CT (3.8 t ha-1), DT (3.8t ha-1) and BT (4.0 t ha-1) treatments (p <0.05). Results show that improved tillage practices such as deep tillage or Berken plough could increase permeability and herefore root penetration and agricultural productivity whilst decreasing erosion and runoff in the Ethiopian Highlands. The adoption of these techniques in the Ethiopian highlands could improve the sustainability of rainfed agriculture and reduce the environmental impacts associated with traditional tillage practices.
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