2015
DOI: 10.1002/2015wr017148
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Global sensitivity of high‐resolution estimates of crop water footprint

Abstract: Most of the human appropriation of freshwater resources is for agriculture. Water availability is a major constraint to mankind's ability to produce food. The notion of virtual water content (VWC), also known as crop water footprint, provides an effective tool to investigate the linkage between food and water resources as a function of climate, soil, and agricultural practices. The spatial variability in the virtual water content of crops is here explored, disentangling its dependency on climate and crop yield… Show more

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Cited by 104 publications
(104 citation statements)
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“…The consumptive WF of a crop in m 3 t −1 most strongly depends on the crop yield in t ha −1 and much less on the evapotranspiration from the crop over the growing period in m 3 ha −1 (Tuninetti et al, 2015;Mekonnen and Hoekstra, 2011). The simulated consumptive WFs of winter wheat in China have been based on modelling under a hypothetical condition without effects of managerial factors on crop growth.…”
Section: Discussionmentioning
confidence: 99%
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“…The consumptive WF of a crop in m 3 t −1 most strongly depends on the crop yield in t ha −1 and much less on the evapotranspiration from the crop over the growing period in m 3 ha −1 (Tuninetti et al, 2015;Mekonnen and Hoekstra, 2011). The simulated consumptive WFs of winter wheat in China have been based on modelling under a hypothetical condition without effects of managerial factors on crop growth.…”
Section: Discussionmentioning
confidence: 99%
“…Setting WF benchmarks for different products, particularly water-intensive products like crops, is fundamental for wise water allocation and fair sharing of water resources among different sectors and users (Hoekstra, 2013). WF benchmarks of crop production could be global, but would preferably be context-specific, given the fact that the WF of growing a crop varies as a function of environmental factors such as climate and soil (Mekonnen and Hoekstra, 2011;Siebert and Döll, 2010;Tuninetti et al, 2015).…”
mentioning
confidence: 99%
“…Global green and blue WFs of crop production have been mapped at a spatial resolution of 30 by 30 arc minute (Rost et al, 2008;Liu et al, 2009;Fader et al, 2010;Hanasaki et al, 2010;) and even at 5 by 5 arc minute (Mekonnen and Hoekstra, 2010;Siebert and Doll, 2010;Mekonnen and Hoekstra, 2011;Tuninetti et al, 2015). The global grey WF related to anthropogenic nitrogen (N) loads from croplands to groundwater and surface water has been mapped at 5 by 5 arc min level by Mekonnen and Hoekstra (2011), assuming simple leaching-runoff ratios, and the additional grey WF related to N loads from the domestic and industrial sectors has been estimated by .…”
Section: Water Footprint Accountingmentioning
confidence: 99%
“…climate, soil) and management conditions (e.g. irrigation technology, mulching practice) (Zwart et al, 2010;Mekonnen and Hoekstra, 2011;Tuninetti et al, 2015). WF benchmarks can serve as reference and reduction target for producers who have WFs above the benchmark (Hoekstra, 2013;.…”
Section: Water Footprint Accountingmentioning
confidence: 99%
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