Spatiotemporal Surface of Agricultural Water Requirement for Integrated Water Resources Management View Full Text


Ontology type: schema:Chapter     


Chapter Info

DATE

2018

AUTHORS

Wei Song , Yaqun Liu , Xiangzheng Deng , Ying Zhang , Ze Han

ABSTRACT

Agricultural irrigation consumes about 80% of total worldwide water consumption, and agricultural intensification has led to negative consequences including ecosystem degradation and decreases in biodiversity, especially in arid and semi-arid areas. Thus, it is crucial for sustainable development of economy and ecosystems to effectively manage agricultural water. We model the spatiotemporal surface of agricultural water requirement (AWR) in the Heihe River Basin (HRB) using multiple methods, such as multi-temporal normalized difference vegetation-water index (NDVWI) and the Food and Agriculture Organization of the United Nations (FAO) Penman-Monteith formula. We also discuss the reasons and policy implications for AWR changes. The results show that AWR increases upstream-to-downstream within the HRB from 0 up to 150 mm and between 300 and 450 mm. From 2007 to 2012, annual mean AWR increased from 339.95 to 370.11 mm. Monthly mean AWR initially increased before decreasing in concert with crop growth, and the largest values for this index were recorded during June. Mean AWR for oilseed rape, corn, barley, and other crops all increased by 33.37, 43.75, 21.91, and 26.01 mm, respectively. While the mean AWR of wheat decreased by 14.84 mm. Mainly because of changes in crop planting structure and climate, the total AWR for the HRB in 2012 reached 2692.58 × 106 m3, an increase of 332.16 × 106 m3 (14.07%) compared to 2007. Thus, to maintain both the sustainable development and ecological security, the cultivation of water-demanding crops and the further expansion of agricultural land should also be avoided. More... »

PAGES

1-27

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/978-981-10-0841-2_12-1

DOI

http://dx.doi.org/10.1007/978-981-10-0841-2_12-1

DIMENSIONS

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44 schema:description Agricultural irrigation consumes about 80% of total worldwide water consumption, and agricultural intensification has led to negative consequences including ecosystem degradation and decreases in biodiversity, especially in arid and semi-arid areas. Thus, it is crucial for sustainable development of economy and ecosystems to effectively manage agricultural water. We model the spatiotemporal surface of agricultural water requirement (AWR) in the Heihe River Basin (HRB) using multiple methods, such as multi-temporal normalized difference vegetation-water index (NDVWI) and the Food and Agriculture Organization of the United Nations (FAO) Penman-Monteith formula. We also discuss the reasons and policy implications for AWR changes. The results show that AWR increases upstream-to-downstream within the HRB from 0 up to 150 mm and between 300 and 450 mm. From 2007 to 2012, annual mean AWR increased from 339.95 to 370.11 mm. Monthly mean AWR initially increased before decreasing in concert with crop growth, and the largest values for this index were recorded during June. Mean AWR for oilseed rape, corn, barley, and other crops all increased by 33.37, 43.75, 21.91, and 26.01 mm, respectively. While the mean AWR of wheat decreased by 14.84 mm. Mainly because of changes in crop planting structure and climate, the total AWR for the HRB in 2012 reached 2692.58 × 106 m3, an increase of 332.16 × 106 m3 (14.07%) compared to 2007. Thus, to maintain both the sustainable development and ecological security, the cultivation of water-demanding crops and the further expansion of agricultural land should also be avoided.
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