Weak and Strong Sustainability of Irrigation: A Framework for Irrigation Practices Under Limited Water Availability

Borsato, Eros; Rosa, Lorenzo; Marinello, Francesco; D’Odorico, Paolo

doi:10.3389/fsufs.2020.00017

Cited by 45 publications

(23 citation statements)

References 55 publications

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“…6 B ), these water provision costs are overall negligible with respect to the average value of water in agriculture in Australia, which is here estimated at ∼$0.27/m 3 ( Fig. 4 ), in agreement with estimates ($0.17 to $0.40/m 3 ; SI Appendix , Table S3 ) based on irrigation and production data from the Australian Bureau of Statistics ( 48 ). As noted below, these values fall within the interval of water prices reported by the Murray–Darling water market, suggesting that in the case of Australia the assumption of negligible provision costs can be overall justified.…”

Section: Discussionsupporting

confidence: 85%

“…However, in Australia, the Bureau of Statistics reports the total cost of irrigation by region, including the costs of equipment, infrastructure, water license, and operation, in addition to data on irrigated areas and agricultural water withdrawals ( 47 ). A recent analysis of these data ( 48 ) has provided annual water provision costs per unit area of irrigated land. We can use these results to estimate the annual cost of water provision per unit volume of irrigation water and compare them to our estimates of the value of water.…”

Section: Discussionmentioning

confidence: 99%

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The global value of water in agriculture

D’Odorico

Chiarelli

Rosa

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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148

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Major environmental functions and human needs critically depend on water. In regions of the world affected by water scarcity economic activities can be constrained by water availability, leading to competition both among sectors and between human uses and environmental needs. While the commodification of water remains a contentious political issue, the valuation of this natural resource is sometime viewed as a strategy to avoid water waste. Likewise, water markets have been invoked as a mechanism to allocate water to economically most efficient uses. The value of water, however, remains difficult to estimate because water markets and market prices exist only in few regions of the world. Despite numerous attempts at estimating the value of water in the absence of markets (i.e., the “shadow price”), a global spatially explicit assessment of the value of water in agriculture is still missing. Here we propose a data-parsimonious biophysical framework to determine the value generated by water in irrigated agriculture and highlight its global spatiotemporal patterns. We find that in much of the world the actual crop distribution does not maximize agricultural water value.

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Section: Discussionsupporting

confidence: 85%

Section: Discussionmentioning

confidence: 99%

The global value of water in agriculture

D’Odorico

Chiarelli

Rosa

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

148

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“…Irrigation is the most effective practice to combat water shortage in agriculture. Over 40% of global food production is sustained by less than 20% of cropland areas that maintain high levels of yields through irrigation systems (Borsato et al, 2020;FAO, 2019). On the other hand, irrigation accounts for about 70% of global freshwater use (Rockström et al, 2017), requiring large amounts of freshwater transposed, stored, or extracted from ground reservoirs, potentially resulting in severe landscape and environmental impacts (Khan et al, 2006).…”

Section: Water Infrastructure and Irrigationmentioning

confidence: 99%

“…Although predicting all possible impacts of such large and controversial project remains a challenge, integrated data and modeling analysis studies can aid decision-making, helping prioritize actions to mitigate potential impacts (Borsato et al, 2020;Krol & Bronstert, 2007;Roman, 2017). Although the transposition of Sao Francisco River is not completed, most of the irrigated agriculture in NEB is concentrated in developed regions along the Sao Francisco River.…”

Section: Water Infrastructure and Irrigationmentioning

confidence: 99%

Drought in Northeast Brazil: A review of agricultural and policy adaptation options for food security

et al. 2021

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The semiarid lands of Northeast Brazil represent one of the most densely populated regions of the country. Rainfall variability together with land degradation and large-scale poverty in rural areas makes this region vulnerable to droughts.Most of the agriculture in this region is rainfed and deficient rainfall leads to severe drought impacts. In this review, we examine different short-and long-term strategies directed to cope with possible impacts of droughts proposed by the government, farmers, civil society, and the private sector. These are approaches to adaptation to drought in the Northeast of Brazil, and among them, we have agricultural management and soil conservation and better management of water resources. Other actions include seasonal climate forecasts and funds transfer and credits to affected small-scale farmers. Although some of these actions are for the short term and may help to survive the drought situation, they may be only postdisaster mitigation options that do not improve adaptive capacity. They favor maladaptation and create dependency of farmers to government actions. Some experiences such as AdaptaSertão show potential benefits for small-scale farmers. We identify key challenges for moving toward a more holistic risk management approach and highlight the need to integrate actions and tools for adaptation, combining technology-based solutions with in-depth knowledge of local and regional social, economic, and cultural aspects, among them seasonal climate forecasts and drought impacts studies, among some other proactive predisaster ways, rather than reactive postdisaster actions. Adaptation strategies must increase long-term resilience of food production in the Brazilian Northeast, going beyond an individual drought event.

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“…As rainfall becomes scarcer or more erratic in many areas worldwide (Cisneros et al, 2014;Chemnitz et al, 2019), we rely increasingly on irrigation systems for agricultural and human water provision. Over 24 % of global land is facing severe water scarcity and 35 % of the population lives with water shortages (Borsato et al, 2020). Although only 20 % of cultivated areas are irrigated, this is where 40 % of the world's food is produced (Rossi, 2019).…”

Section: Introductionmentioning

confidence: 99%

Carnivores cross irrigation canals more often through overpasses than through culverts

Azedo

Ilhéu

Santos

et al. 2021

Preprint

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As rainfall becomes scarcer or more erratic, we rely more on irrigation systems for water provision. Impacts of irrigation canals such as the barrier effect on wildlife movements are poorly documented. Although canal culverts and overpasses can be used by wildlife, little is known about their crossing patterns to guide barrier effect mitigation efforts. Over 7 years, we recorded medium-sized carnivore crossings by video-surveillance through 30 culverts and 28 overpasses in a large irrigation project in south-central Portugal. We examined the influence of the structures' features and landscape context on the likelihood of canal crossing. Culvert crossings were positively influenced by the proportion of nearby montado, a high nature value farming system. Overpass crossings were more likely in areas away from paved roads and with more nearby wetlands. Overpasses increased the crossing rates by about 11 % relative to culverts and both were crossed more often in landscapes with evenly distributed land uses. In the project area, 20% of the montado has recently transitioned to irrigated agriculture, and wetlands have increased by 43%. It is therefore plausible that the increase in the crossing rate of overpasses relative to culverts will be accentuated. Our study produced the first evidence of a contrast in crossing rates among irrigation canal crossing structures. We have shown that the landscape can be a driver of animal crossings but irrigation projects can in turn be transformative of the landscape. Broadly, the fact that the deployment of irrigation canals may favor some land uses over others creates a conundrum that needs careful consideration when planning barrier effect mitigation interventions.

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Weak and Strong Sustainability of Irrigation: A Framework for Irrigation Practices Under Limited Water Availability

Cited by 45 publications

References 55 publications

The global value of water in agriculture

The global value of water in agriculture

Drought in Northeast Brazil: A review of agricultural and policy adaptation options for food security

Carnivores cross irrigation canals more often through overpasses than through culverts

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