Scarce water resources and priority irrigation schemes from agronomic crops

Global environmental change places unavoidable pressure on water resources and agronomic crop production systems. Irrigation development is a credible measure to alleviate the challenge of food safety under water shortages, but it needs sufficient basis. The aim of this study is to address the probl...

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Bibliographic Details
Published in:Mitigation and adaptation strategies for global change 2019-03, Vol.24 (3), p.399-417
Main Authors: Cao, X. C., Shu, R., Guo, X. P., Wang, W. G.
Format: Article
Language:English
Subjects:
Adaptation
Agronomic crops
Agronomy
Arid zones
Atmospheric Sciences
Capacity
Climate Change Management and Policy
Crop production
Crop production systems
Crops
Distribution patterns
Earth and Environmental Science
Earth Sciences
Environmental changes
Environmental Management
Evaluation
Food
Food production
Food safety
Irrigation
Irrigation efficiency
Irrigation systems
Irrigation water
Nutritional requirements
Original Article
Population growth
Production capacity
Productivity
Regional analysis
Regions
Resources
Security
Semi arid areas
Semiarid lands
Spatial distribution
Spatial variations
Water resources
Water scarcity
Water security
Water shortages
Water use
Water use efficiency
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Summary:Global environmental change places unavoidable pressure on water resources and agronomic crop production systems. Irrigation development is a credible measure to alleviate the challenge of food safety under water shortages, but it needs sufficient basis. The aim of this study is to address the problem of balancing water scarcity with food requirements, which are the key components of water security in regions with population growth. Marginal water productivity (MWP) indices for irrigation water performance and productivity evaluation were established in the current study. Based on the analysis of the regional water-crop relationship and spatial differences of MWP in China, the priorities for developing irrigation areas in different types of regions are discussed in this study. The results show that high MWPs are mainly in semi-arid regions with precipitation (P) between 500 and 1000 mm, while low MWPs mostly occur in areas with P more than 1000 and less than 500 mm. The significance and spatial distribution patterns of MWP are different than those of conventional irrigation water use efficiency evaluation indices, so its role cannot be replaced for the real production capacity of irrigation water evaluation. The strategies for global environmental change adaptation suggested in this study are taking MWP for irrigation water productivity evaluation and the priority irrigation schemes for agronomic crop determination; increasing MWP by means of irrigation efficiency and crop variety improvement worldwide; and raising global food production through the expansion of irrigation area in the regions hold high MWP and abundant water resources.
ISSN:1381-2386
1573-1596
DOI:10.1007/s11027-018-9818-8