International audience | Chapters: 1) Public goods and farming. 2) Pesticides and sustainable agriculture. 3) Nitrogen use efficiency by annual and perennial crops. 4) Microalgae for bioremediation of distillery effluent. 5) No-till direct seeding for energy-saving rice production in China. 6) Agricultural water poverty index for a sustainable world. 7) Participatory rural appraisal to solve irrigation issues. 8) Bioavailability of soil P for plant nutrition. 9) Animal manure for smallholder agriculture in South Africa. 10) Vermicompost and soil quality.

Chapters: 1) Public goods and farming. 2) Pesticides and sustainable agriculture. 3) Nitrogen use efficiency by annual and perennial crops. 4) Microalgae for bioremediation of distillery effluent. 5) No-till direct seeding for energy-saving rice production in China. 6) Agricultural water poverty index for a sustainable world. 7) Participatory rural appraisal to solve irrigation issues. 8) Bioavailability of soil P for plant nutrition. 9) Animal manure for smallholder agriculture in South Africa. 10) Vermicompost and soil quality.

Chapters: 1) Public goods and farming. 2) Pesticides and sustainable agriculture. 3) Nitrogen use efficiency by annual and perennial crops. 4) Microalgae for bioremediation of distillery effluent. 5) No-till direct seeding for energy-saving rice production in China. 6) Agricultural water poverty index for a sustainable world. 7) Participatory rural appraisal to solve irrigation issues. 8) Bioavailability of soil P for plant nutrition. 9) Animal manure for smallholder agriculture in South Africa. 10) Vermicompost and soil quality.

Analysis the water–food–energy nexus is the first step to assess the decision maker in developing and evaluating national strategies that take into account the nexus. The main objective of the current research is providing a method for the decision makers to analysis the water–food–energy nexus of the crop production system at the national level and carrying out a quantitative assessment of it. Through the proposed method, indicators considering the water and energy consumption, mass productivity, and economic productivity were suggested. Based on these indicators a water–food–energy nexus index (WFENI) was performed. The study showed that the calculated WFENI of the Egyptian summer crops have scores that range from 0.21 to 0.79. Comparing to onion (the highest scoring WFENI,i.e., the best score), rice has the lowest WFENI among the summer food crops. Analysis of the water–food–energy nexus of forty-two Egyptian crops in year 2010 was caried out (energy consumed for irrigation represent 7.4% of the total energy footprint). WFENI can be applied to developed strategies for the optimal cropping pattern that minimizing the water and energy consumption and maximizing their productivity. It can be applied as a holistic tool to evaluate the progress in the water and agricultural national strategies. Moreover, WFENI could be applied yearly to evaluate the performance of the water-food-energy nexus managmant.

Cambodia has abundant water resources in general, but it has a little water in the dry season. The increased dry season rice farming in many provinces, following the increased rice export policy in Cambodia and the spill-over effects of rice trade in Vietnam has led to high demands for water for dry season rice farming. These have led to water shortage and conflicts over water among farmers in the farming provinces, and between sectors, for instance, fishery and rice farming. Irrigation system development and improvement have improved water management and support to agricultural development. Rice farming areas have been expanded to around 2 million ha and rice farming has been increased from one rice crop to three rice crops a year. These have increased the high demand of waters for rice farming

Cambodia has abundant water resources in general, but it has a little water in the dry season. The increased dry season rice farming in many provinces, following the increased rice export policy in Cambodia and the spill-over effects of rice trade in Vietnam has led to high demands for water for dry season rice farming. These have led to water shortage and conflicts over water among farmers in the farming provinces, and between sectors, for instance, fishery and rice farming. Irrigation system development and improvement have improved water management and support to agricultural development. Rice farming areas have been expanded to around 2 million ha and rice farming has been increased from one rice crop to three rice crops a year. These have increased the high demand of waters for rice farming