2020
DOI: 10.1126/sciadv.aaz6031
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Global agricultural economic water scarcity

Abstract: Water scarcity raises major concerns on the sustainable future of humanity and the conservation of important ecosystem functions. To meet the increasing food demand without expanding cultivated areas, agriculture will likely need to introduce irrigation in croplands that are currently rain-fed but where enough water would be available for irrigation. “Agricultural economic water scarcity” is, here, defined as lack of irrigation due to limited institutional and economic capacity instead of hydrologic constraint… Show more

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Cited by 466 publications
(281 citation statements)
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“…Gas/steam activation ( Figure 2B) is a widely used biochar engineering technique for inducing the formation of porosity, increasing specific surface area, enhancing surface reactivity, and removing trapped residues generated due to incomplete combustion during pyrolysis [63,67]. When water vapor is applied for steam activation, the surface of biochar may be activated by the H 2 and CO 2 generated via surface oxidation reactions illustrated by Equations (1), (2), and (3):…”
Section: Physical Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Gas/steam activation ( Figure 2B) is a widely used biochar engineering technique for inducing the formation of porosity, increasing specific surface area, enhancing surface reactivity, and removing trapped residues generated due to incomplete combustion during pyrolysis [63,67]. When water vapor is applied for steam activation, the surface of biochar may be activated by the H 2 and CO 2 generated via surface oxidation reactions illustrated by Equations (1), (2), and (3):…”
Section: Physical Methodsmentioning
confidence: 99%
“…Nevertheless, as a result of the continually soaring global human population and intensifying urbanization, the shortage of water supply to agriculture is inevitably exacerbating the sustainability of food supply, especially in arid and semi-arid areas [1]. A recent study shows that 76% of global croplands are scarce in green water (i.e., root-zone soil moisture available for uptake by plants) for at least one month a year and about 42% are troubled for five months a year [2]. Water scarcity can be quantity-based, quality-based, or based on the combined effect of the two [3].…”
Section: Introductionmentioning
confidence: 99%
“…We also concentrate on regions of the world in which irrigation can be adopted without engendering an unsustainable water use. When we expand the analysis to other regions we do not consider environmental externalities, assuming that the adoption of partial irrigation prevents the overuse of groundwater or environmental flows ( 14 , 35 ). In other words, irrigation water withdrawals would neither cause the loss of environmental flows nor the depletion of groundwater stocks.…”
Section: A Global Valuation Of Water In Agriculturementioning
confidence: 99%
“… Blue crop water requirements are not necessarily the same as the irrigation water that crops are able to receive. In some places with access to irrigation, supporting infrastructure may be insufficient to provide the water needed to avoid crop water stress 29 . To the extent possible, studies using this dataset (or any other global gridded dataset of estimating crop water requirements) should incorporate available information on actual irrigation water withdrawals and consumption to avoid overestimation.…”
Section: Usage Notesmentioning
confidence: 99%