Estimating in-season actual evapotranspiration over a large-scale irrigation scheme in resource-limited conditions
Article
Article Title | Estimating in-season actual evapotranspiration over a large-scale irrigation scheme in resource-limited conditions |
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Article Category | Article |
Authors | Sawadogo, Estimating in-season actual evapotranspiration over a large-scale irrigation scheme in resource-limited conditions, Gundogdu, Kemal, Traore, Farid, Kouadio, Louis and Hessels, Tim |
Journal Title | Proceedings of the Bulgarian Academy of Sciences |
Journal Citation | 73 (10), pp. 1473-1480 |
Number of Pages | 10 |
Year | 2020 |
Publisher | Bulgarian Academy of Sciences |
Place of Publication | Bulgaria |
ISSN | 1310–1331 |
2367–5535 | |
Digital Object Identifier (DOI) | https://doi.org/10.7546/CRABS.2020.10.18 |
Web Address (URL) | http://www.proceedings.bas.bg/index_old.html |
Abstract | Reliable and readily available data on actual evapotranspiration (ETa) over large-scale areas throughout the crop growing season are critical for improved agricultural irrigation and water resource management. On-site data collection is costly, labour-intensive, and very challenging in resource-limited conditions. Thus, open-source satellite-based approaches might be adopted as cost-effective alternatives. In this study, the performance of a cost-effective and open source satellite-based approach for estimating ETa over a large-scale (1200 ha) irrigation system, the Kou Valley Irrigation Scheme (KVIS), in Burkina Faso was assessed. ETa values over the critical irrigation period during the 2014 dry season (January-April) were estimated using the Python module for Surface Energy Balance Algorithm for Land model (PySEBAL). Then, they were compared against the Water Productivity Open-access (FAO-WaPOR), and United States Geological Survey-Famine Early Warning Systems Network Operational Simplified Surface Energy Balance (USGS-FEWS NET's SSEBop) ETa over the same period at different temporal scales. Overall, ETa values were satisfactorily estimated throughout the crop growth season across the Kou Valley irrigation scheme using PySEBAL. They spatially varied depending on the soil type and crop, with daily values ranging from 4.09 mm day−1 to 7.7 mm day−1, for a seasonal average of 619 mm. The finer spatial resolution (30 m) of PySEBAL outputs allowed better estimations compared to the FAO-WaPOR and SSEBop-based approaches. Our findings help ascertain the use of the PySEBAL model in semi-arid environment in Burkina Faso, and could serve as a basis for developing strategies for improved irrigation water management in countries experiencing similar conditions such as Burkina Faso. |
Keywords | Landsat; Remote sensing; Semi-arid environment; Sub-Sahara; Water management |
Contains Sensitive Content | Does not contain sensitive content |
ANZSRC Field of Research 2020 | 300206. Agricultural spatial analysis and modelling |
Byline Affiliations | University of Uludag, Turkiye |
Institut de l’Environnement et de Recherches Agricoles, Burkina Faso | |
Centre for Applied Climate Sciences (Research) | |
Delft University of Technology, Netherlands |
https://research.usq.edu.au/item/yzyz1/estimating-in-season-actual-evapotranspiration-over-a-large-scale-irrigation-scheme-in-resource-limited-conditions
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