![]() ![]() As suggested by Falkenmark and Rockström (2004), there is a third green dimension to a new agricultural revolution, since the focus will have to be on upgrading rain-fed agriculture, which entails increasing the use of the portion of rainfall that infiltrates the soil and is accessible by plants to generate vapor flow in support of biomass growth. ![]() As stated by Conway (1997), the challenge is to achieve a green-green revolution, which compared with the first green revolution that lifted large parts of Asia out of an imminent hunger crisis in the 1960s and 1970s, will have to be founded on principles of environmental sustainability. Hunger alleviation will require no less than a new Green revolution during the next 30 years, particularly in sub-Saharan Africa. Together, vapor fluxes as evaporation and transpiration, here defined as green-water flow, constitute the total consumptive water use in biomass production.Īddressing the millennium development goal (MDG) of halving the proportion of malnourished people in the world by 2015, today amounting to a shocking 800 million people, is thus not only a tremendous agricultural endeavor but is also the world’s largest water-resource challenge. Furthermore, this productive flow of vapor is accompanied by nonproductive evaporative losses of water (from soil, ponded water, and intercepted water from foliage surfaces). Simultaneous with the photosynthesis process, when stomata in the foliage open to take in carbon dioxide, large amounts of water are being consumed as transpiration flow and released as vapor from the plant canopy. The reason that biomass production so strongly outclasses other water-dependent processes is that water is one key element involved in plant growth. However, water policy and development concentrate on a fraction of the water for food challenge, namely, irrigated agriculture, which uses an estimated 25% of the global water used in agriculture, and on the industrial and domestic water supply, which corresponds to less than 10% of direct human water requirements (considering only water for food, domestic use, and industry). The production of biomass for direct human use-e.g., as food and timber-is by far the largest freshwater-consuming human activity on Earth. ![]()
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