Majority of landlocked mountainous countries are poorly ranked in Human Development Index (HDI), mostly due to poor per capita agriculture production, increasing population, unemployment, expensive and delayed transportation including several other factors. Generally, economy of such countries substantially relies on subsistence agriculture, tourism, hydropower and largely on remittance etc. Recently, it has been argued that to utilize scarce suitable land efficiently for food production, poor inland transport, hydropower, irrigation, drinking water in integration with other developmental infrastructures, an overarching policy linking water - energy – food nexus within a country for combating water, energy and food security would be most relevant. Thus, in present paper it has been opined that promotion of such linkage via nexus approach is the key to sustainable development of landlocked mountainous countries. Major land mass in mountainous countries like Nepal remains unsuitable for agriculture, road and other infrastructure profoundly imposing food, nutrition and energy security. However, large pristine snowy mountains function as wildlife sanctuaries, pastures, watershed, recharge areas for regional and global water, food and energy security. In return, landlocked mountainous countries are offered certain international leverages. For more judicious trade off, it is recommended that specific countries aerial coverage of mountains would be more appropriate basis for such leverages. Moreover, for sustainability of mountainous countries an integrated approach enabling water - energy – food nexus via watershed-hydropower-irrigation-aquaculture-agriculture-integrated linking policy model is proposed. This model would enable protection of watershed for pico, micro, and mega hydro power plants and tail waters to be used for aquaculture or irrigation or drinking water purposes for food and nutrition security.

South Korea’s food self-sufficiency ratio (SSR) dramatically decreased from 56 % in 1980 to 27 % in 2010, due to changes in food production and consumption patterns. Naturally, the changes in food self-sufficiency and consumption patterns will affect the world agricultural trade. This study aims to analyze trends in water footprints (WFs) on the basis of statistics for per capita food consumption in the last 25 years. The WFs for potential water requirements (WFsPWR) were estimated using food production and consumption scenarios for the targets of the SSRs in 2015 and 2020. The WFs for per capita food consumption (WFscₐₚ) were estimated at 512.9 m³ (1985) and 822.9 m³ (2010). Cereals and meats accounted for 36.3 and 21.5 % of the total WFscₐₚ in 1985, and 18.3 and 38.6 % in 2010, respectively. This implies that with economic development, Korea’s dietary patterns have changed from cereal to meat-oriented. To achieve the targets of 52 % (2015) and 55 % (2020) food SSR based on calories, additional WFsPWR are estimated to be 1255.5 Mm³ (2015) and 1923.9 Mm³ (2020). Results of this study are expected to be a useful basis for making long-term policies for sustainable agricultural production and water management from technical and social perspectives.

According to the UN, the population of Central Asia will increase from its current approximately 65million people to a well over 90million by the end of this century. Taking this increasing population into consideration, it is impossible to project development strategies without considering three key factors in meeting the demands of a growing population: water, food and energy. Societies will have to choose, for instance, between using land and fertilizer for food production or for bio-based or renewable energy production, and between using fresh water for energy production or for irrigating crops. Thus water, food and energy are inextricably linked and must be considered together as a system. Recently, tensions among the Central Asian countries over the use of water for energy and energy production have increased with the building of Rogun Dam on the Vakhsh River, a tributary of the Amu Darya River. The dam will provide upstream Tajikistan with hydropower, while downstream countries fear it could negatively impact their irrigated agriculture. Despite recent peer reviewed literature on water resources management in Amu Darya Basin, none to date have addressed the interconnection and mutual impacts within water–energy–food systems in face of constructing the Rogun Dam. We examine two potential operation modes of the dam: Energy Mode (ensuring Tajikistan’s hydropower needs) and Irrigation Mode (ensuring water for agriculture downstream). Results show that the Energy Mode could ensure more than double Tajikistan’s energy capacity, but would reduce water availability during the growing season, resulting in an average 37% decline in agricultural benefits in downstream countries. The Irrigation Mode could bring a surplus in agricultural benefits to Tajikistan and Uzbekistan in addition an increasing energy benefits in Tajikistan by two fold. However, energy production in the Irrigation Mode would be non-optimally distributed over the seasons resulting in the most of hydropower being produced during the growing season. Neither operation mode provides optimal benefits for all the countries, emphasizing how difficult it is to actually reach a win–win scenario across the water–energy–food security nexus in transboundary river basins.

Pathogenic microorganisms are a serious threat to global health, that involves high costs of the treatment and their fight. We proposed to evaluate PAW antimicrobial activity against the microorganisms food-borne pathogens. PAW It was observed that due to the reactive species in water shows a post-discharge an antimicrobial effect on food-borne pathogens showed until a few days after discontinuation of plasma discharge in water. The logarithmic reduction was higher than 5log10 after an exposure time of 5-min, exhibiting a powerful bactericidal effect. Significant reduction in bacterial population were achieved in all type strains, demonstrating the effectiveness of this new approach to treat the food borne pathogens. Thus, non-thermal plasma activated water can be a promising alternative to traditional disinfection applied in food industry.

Non-PR | IFPRI5; CRP4; | DGO; HarvestPlus; A4NH; | CGIAR Research Program on Agriculture for Nutrition and Health (A4NH);

Phosphorus is essential to food production, but current management practices fail to ensure equitable access to farmers globally and often results in polluted waterways. There is a lack of local and global governance mechanisms to ensure phosphorus is sustainably managed. The P-FUTURES research initiative aims to address this gap by working with stakeholders to explore visions and pathways of social transformation towards food and water security. In the seed phase of the project, academic, civil, industry, and municipal stakeholders interacted as partners in Blantyre (Malawi), Hanoi (Vietnam), Sydney (Australia), and Phoenix (USA) to collaboratively develop a full proposal and build capacity for transformational change. The article offers guidance on the opportunities and challenges of co-developing a research approach and proposal in a transdisciplinary, international setting.

Full self-sufficiency in cities is a major concern. Cities import resources for food, water and energy security. They are however key to global sustainability, as they concentrate a rapidly increasing and urbanising population (or number of consumers). In this paper, we analysed the dependency of urban inhabitants on the resource water for food consumption, by means of Dutch cities. We found that in extremely urbanised municipalities like Amsterdam and Rotterdam, people eat more meat and cereals and less potatoes than in other Dutch municipalities. Their current water footprint (WF) related to food consumption is therefore higher (3245l/cap/day) than in strongly urbanised cities (3126l/cap/day). Dutch urban citizens who eat too many animal products, crop oils and sugar can reduce their WF (with 29 to 32%) by shifting to a healthier diet. Recommended less meat consumption has the largest impact on the total WF reduction. A shift to a pesco-vegetarian or vegetarian diet would require even less water resources, where the WF can be reduced by 36 to 39% and 40 to 42% respectively. Dutch cities such as Amsterdam have always scored very high in international sustainability rankings for cities, partly due to a long history in integrated (urban) water management in the Netherlands. We argue that such existing rankings only show a certain – undoubtedly very important – part of urban environmental sustainability. To communicate the full picture to citizens, stakeholders and policy makers, indicators on external resource usage need to be employed. The fact that external resource dependency can be altered through changing dietary behaviour should be communicated.

The expected worldwide demand for agriculture, energy, and manufactured products will result in a supply chain that is increasingly dependent on exported rural products (e.g., livestock, cereal grains, fossil fuel, and biofuel). Rural areas such as the northern Great Plains are net exporters of food and energy, essentially “mining” valuable water and nutrient resources to do so. Rural areas are the foundation of supply chains; thus, to achieve sustainability, one must begin focusing at the source of the supply chain– with the farm, ranch, mine, or well. There are many knowledge gaps within the food–energy–water nexus in rural areas that shroud regional sustainability thresholds. Research and legislation are needed to address these critical issues.