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Agricultural water use includes a continuum from purely rainfed to fully irrigated systems. Growing pressures on limited water supplies from domestic, industrial, and environmental uses will likely lead to a decline in water availability for food production. Similarly, income growth and urbanization lead to dietary shifts that require more water resources per calorie consumed, putting further pressures on water supplies. As a result, semiarid and arid countries continue to increase net imports of food. Crop water use for sugarcane (Saccharum officinarum L.), maize (Zea mays L.), soybean [Glycine max (L.) Merr.], and fruits are expected to grow over time, whereas water use for wheat (Triticum aestivum L.) and rice (Oryza sativa L.) are expected to decline after 2030. These projections include substantial improvements in water use efficiency at the field, farm, and river basin scale over the coming decades in response to growing water scarcity. If these efficiency improvements are not achieved, future crop water demands would be even larger. Although water resources are a key limiting factor for future food security, policy and investment options to reduce agricultural water use exist on both the water supply and demand side; but political will and ingenuity are needed for their implementation.

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water resources food security

International Livestock Research Institute - Kenya

Water, investment and food security Texto completo

2014

colin j. chartres

Colin J. Chartres, 'Water, investment and food security', 2014 | Water resources are already very scarce. With further demand from population growth, dietary changes, biofuel production, urbanisation and climate change, it will be extremely difficult to find enough supply to enable an increase in global food production by 70 per cent. There are, however, potential solutions that involve increasing water productivity, improved water storage, more irrigation and re-using waste water. But current investment levels in overseas development aid and spending at country level are unlikely to be sufficient to ensure food security in the relatively short- term, let alone by 2050, when the global population is forecast to be nine billion. This article describes some of the issues that have to be faced to deliver food security and overcome water scarcity, and how these improvements can be achieved through a combination of science, policy and investment

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production demand resources population spending supply waste ...

GARDIAN - United States of America

Water resources and food security Texto completo

2014

Ringler, Claudia; Zhu, Tingju | http://orcid.org/0000-0002-8266-0488 Ringler, Claudia; http://orcid.org/0000-0002-6882-3551 Zhu, Tingju

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Water resources and food security Texto completo

2014

Ringler, Claudia; Zhu, Tingju | http://orcid.org/0000-0002-8266-0488 Ringler, Claudia; http://orcid.org/0000-0002-6882-3551 Zhu, Tingju

PR | IFPRI3; ISI; CRP5 | EPTD | CGIAR Research Program on Water, Land and Ecosystems (WLE)

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water resources food security

International Food Policy Research Institute - United States of America

Water resources and food security Texto completo

2015

Ringler, Claudia | Zhu, Tingju

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water resources food security

International Livestock Research Institute - Kenya

Water scarcity and food security

2009

Chartres, Colin J. | Varma, Samyuktha

water demand water shortage food production water storage water scarcity rivers water resource management ...

International Livestock Research Institute - Kenya

The food and water crisis Texto completo

2008

International Water Management Institute (IWMI).

food supply water use urban agriculture food production

International Water Management Institute - Sri Lanka

[Water purification in food industry] Texto completo

2007

Lovkis, Z.V.,National Academy of Sciences, Minsk (Belarus). Scientific and Practical Center for Foodstuffs | Pranovich, M.V.,Belarus State Technological Univ., Minsk (Belarus)

This article discusses the basic ways of water-preparation in food industry. Water-preparation plan with elements of disinfecting for production of drinking water and drinks is given. The analysis shows that water should meet definite microbiological requirements. In order to reduce its fatal influence on the health of people the clearing and preparation of water are necessary. Development of techniques and means of clearing without chemical technologies, including ozone treatment technologies, allows one to lower and to get rid of application of chemical compounds and reagents. At the moment the ozone treatment water technologies with consequent treatment on filling filters are the most rational. Ozone is the strong oxidant and disinfects water faster than chlorine in some times. With activated carbon use both the flavouring qualities and smell become better. Technology of mutual ozone processing with absorption is the most perspective for water purification and disinfection, possessives a high efficiency in comparison with attitude to pathogen microorganisms, does not lead to the formation of harmful collateral products. Therefore, the questions of development of safe technologies and means for water preparation and treatment are actual and well timed

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