With food demand and water scarcity on the uptick, it’s time to stop treating wastewater like garbage and instead manage it as a resource that can be used to grow crops and help address water scarcity in agriculture. Properly managed, wastewater can be used safely to support crop production, directly through irrigation or indirectly by recharging aquifers, but doing so requires diligent management of health risks through adequate treatment or appropriate use. How countries are approaching this challenge and the latest trends in the use of wastewater in agriculture production will be the focus of discussions, by a group of experts, taking place today in Berlin during the annual Global Forum for Food and Agriculture (19-21 January). The event has been convened by Food and Agriculture Organisation along with the United Nations University Institute for Water, Environment and Health (UNU-INWEH), the UN’s Educational, Scientific and Cultural Organisation and the Leibniz Research Alliance Food and Nutrition. “Although more detailed data on the practice is lacking, we can say that, globally only a small proportion of treated wastewater is being used for agriculture, most of it municipal wastewater. But increasing numbers of countries; Egypt, Jordan, Mexico, Spain and the United States for example have been exploring the possibilities as they wrestle with mounting water scarcity,” says Marlos De Souza, a senior officer with FAO’s Land and Water Division. “So far, the reuse of wastewater for irrigation has been most successful near cities, where it is widely available and usually free-of-charge or at low cost, and where there is a market for agricultural produce, including non-food crops. But the practice can be used in rural areas as well – indeed it has long been employed by many smallholder farmers,” notes De Souza. The important thing is that wastewater be managed adequately and safely used in a way that is appropriate to local conditions, he adds. Water is of course fundamental for food production, and the intensifying scarcity of this important natural resource, likely to be more intense in the context of climate change, has very significant implications for humanity’s ability to feed itself. Globally, population growth and economic expansion are placing increasing pressure on freshwater resources, with the overall rate of groundwater withdrawals steadily increasingly by one percent per year since the 1980s. And those pressures are now increasingly being exacerbated by climate change. Already, agriculture accounts for 70 percent of global freshwater withdrawals, with demand for food estimated to grow by at least 50 percent by 2050, agriculture’s water needs are poised to expand. Yet demand from cities and by industries is on the rise as well. Greater use of non-conventional, alternative sources of water, including the urban effluent and farm-runoff, can help mitigate this competition, if properly treated. In addition to helping cope with water scarcity, wastewater often has a high nutrient load, making it a good fertiliser. “When safely used and managed to avoid health and environmental risks, wastewater can be converted from a burden to an asset,” De Souza says. Untreated wastewater often contains microbes and pathogens, chemical pollution, antibiotic residues, and other threats to the health of farmers, food chain workers, and consumers and it also poses environmental concerns. A number of technologies and approaches exist that are being utilised around the globe to treat, manage, and use wastewater in agriculture, many of them specific to the local natural resource base, the farming systems in which they are being used, and the crops that are being produced. In Egypt, for example, where water supplies are limited and wastewater tends to be highly contaminated, constructed wetlands are proving to be a promising, economically viable approach to treatment. In Egypt and also in Tunisia wastewater is being widely used in agro-forestry projects, supporting both wood production as well as anti-desertification efforts.