Targeting of intervention areas to reduce reservoir sedimentation in the Tana catchment (Kenya) using SWAT

Hunink, Johannes E.; Niadas, Ioannis A.; Antonaropoulos, P.; Droogers, P.; Vente, Joris de

doi:10.1080/02626667.2013.774090

Cited by 51 publications

(35 citation statements)

References 63 publications

(59 reference statements)

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“…A similar line of reasoning is often maintained when interpreting sedimentary archives in alluvial plains and deltas, where the temporal evolution of sediments in the valley is often directly linked to land‐use changes on the catchment slopes and/or changes in climate (Hoffmann et al ., ; Macklin and Lewin, ). Finally, catchment management plans often aim to reduce sedimentation in reservoirs by implementing soil conservation measures in well‐targeted areas, again supposing that a direct link exists between sediment production and catchment yield (Hunink et al ., ).…”

Section: Introductionmentioning

confidence: 98%

Sediment yield of the lower Tana River, Kenya, is insensitive to dam construction: sediment mobilization processes in a semi‐arid tropical river system

Geeraert

Omengo

Tamooh

et al. 2015

Earth Surf Processes Landf

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Garissa. Many models relate the sediment load of rivers to catchment characteristics, thereby implicitly assuming that alterations in the catchment induce changes in the sediment load. Our research confirms that the response of an alluvial river to external disturbances such as land use or climate change is often indirect or non-existent as autogenic processes overwhelm the changes in the input signal.

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Section: Introductionmentioning

confidence: 98%

Sediment yield of the lower Tana River, Kenya, is insensitive to dam construction: sediment mobilization processes in a semi‐arid tropical river system

Geeraert

Omengo

Tamooh

et al. 2015

Earth Surf Processes Landf

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show abstract

“…However, as was shown previously, there can be considerable deviations with an approach using high-resolution information on crop status, as is provided by remote sensing, especially at the sub-basin scale. When outputs at smaller scale become the focal point of study, for example for prioritizing measures across the landscape [63], literature-based values will result in a loss of information and consequent inaccurate results. Figure 8 shows a comparison of all methods at the sub-basin scale.…”

Section: Variable/ Percentilementioning

confidence: 99%

Hydrological Modelling using Satellite-Based Crop Coefficients: A Comparison of Methods at the Basin Scale

Hunink¹,

Eekhout

Vente

et al. 2017

Remote Sensing

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Abstract:The parameterization of crop coefficients (kc) is critical for determining a water balance. We used satellite-based and literature-based methods to derive kc values for a distributed hydrologic model. We evaluated the impact of different kc parametrization methods on the water balance and simulated hydrologic response at the basin and sub-basin scale. The hydrological model SPHY was calibrated and validated for a period of 15 years for the upper Segura basin (~2500 km 2 ) in Spain, which is characterized by a wide range of terrain, soil, and ecosystem conditions. The model was then applied, using six kc parameterization methods, to determine their spatial and temporal impacts on actual evapotranspiration, streamflow, and soil moisture. The parameterization methods used include: (i) Normalized Difference Vegetation Index (NDVI) observations from MODIS; (ii) seasonally-averaged NDVI patterns, cell-based and landuse-based; and (iii) literature-based tabular values per land use type. The analysis shows that the influence of different kc parametrization methods on basin-level streamflow is relatively small and constant throughout the year, but it has a bigger effect on seasonal evapotranspiration and soil moisture. In the autumn especially, deviations can go up to about 15% of monthly streamflow. At smaller, sub-basin scale, deviations from the NDVI-based reference run can be more than 30%. Overall, the study shows that modeling of future hydrological changes can be improved by using remote sensing information for the parameterization of crop coefficients.

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“…Obviously, convincing these companies to pay farmers is very difficult because the idea is quite new to them and they require quantitative studies supporting claims being made. Based on an available soil map, that was transformed in a map of Hydraulic Response Units, the hydrology of the basin was simulated with the SWAT (Soil and Water Assessment Tool) model, focusing on 11 well established soil conservation scenario's (WOCAT 2007) (Hunink et al 2012(Hunink et al , 2013Kauffman et al 2014). Figure 3 shows the georeferenced simulated results of the effects of the ridging scenario in terms of the expected decline of erosion rates (and a corresponding increase of Green Water) as compared with a baseline scenario describing actual conditions.…”

Section: Case Study 1: Cradle-to-cradle Dairy Farming In the Northernmentioning

confidence: 99%

Reaching out from the soil-box in pursuit of soil security

Bouma¹

2015

Soil Science and Plant Nutrition

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Soil security can only be achieved when the global soil resource is maintained and improved, requiring a reversal of current degradation processes. This demands a major effort by soil scientists in at least four directions by: (i) demonstrating the importance of soils in inter-and transdisciplinary programs focusing on food, water, climate, biodiversity and energy problems, which are environmental issues that are widely acknowledged to be important; (ii) focusing research on the seven soil functions to demonstrate the importance of soil for widely recognized Ecosystem Services (ES) and Sustainable Development Goals (SDG); (iii) reframing reporting of soil studies by not only including technical data but embedding this in human-interest storylines, building on the deep emotional links between soil and man, and (iv) educating and involving knowledge brokers that can link science with societal partners not only during a given project but also in the preparatory and implementation phase. Scientists can only effectively participate in Communities of Practice when they have first properly organized their own affairs in Communities of Scientific Practice. Two case studies illustrated the proposed procedures, combining results of state-of-the-art quantitative models with a description of aspirations, concerns and frustrations of the various stakeholders involved, including farmers, regulators, citizens and entrepreneurs. The connectivity dimension of soil security was quite important here. Soil scientists would be well advised to return to their roots when field work was effectively coupled with laboratory studies. Basic research is and will remain crucial for the profession but should be better linked with tacit knowledge in an effective knowledge chain, working in both directions. Overall, reframing of the soil message is not only needed but also very well possible, requiring out-of-the-box thinking.

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Targeting of intervention areas to reduce reservoir sedimentation in the Tana catchment (Kenya) using SWAT

Cited by 51 publications

References 63 publications

Sediment yield of the lower Tana River, Kenya, is insensitive to dam construction: sediment mobilization processes in a semi‐arid tropical river system

Sediment yield of the lower Tana River, Kenya, is insensitive to dam construction: sediment mobilization processes in a semi‐arid tropical river system

Hydrological Modelling using Satellite-Based Crop Coefficients: A Comparison of Methods at the Basin Scale

Reaching out from the soil-box in pursuit of soil security

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