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Towards a water and food secure future: critical perspectives for policy-makers Full text
2016
The aim of this paper is to provide policy-makers with a helpful overview of the technical and economic aspects of water use in agriculture, with particular emphasis on crop and livestock production. Through 2050, in many countries, agriculture will remain an important determinant of economic growth, poverty reduction, and food security, even as, over time, the proportion of agricultural revenue in national gross income declines. Water use in agriculture will remain substantial, irrigated areas will expand and competition for water will increase in all sectors. Most likely, overall supplies of land and water will be sufficient to achieve global food production goals in 2050; although poverty and food insecurity will remain pressing challenges in several regions and countries. Thus, the focus of this report is on the regional and national aspects of food security.
Show more [+] Less [-]Water and Other Food Constituents Full text
2016
Schuck, Pierre
absent
Show more [+] Less [-]Overcoming Food Security Challenges within an Energy/Water/Food Nexus (EWFN) Approach Full text
2016
De Laurentiis, Valeria | Hunt, Dexter V.L. | Rogers, Christopher D.F.
The challenge of feeding nine billion people by 2050, in a context of constrained resources and growing environmental pressures posed by current food production methods on one side, and changing lifestyles and consequent shifts in dietary patterns on the other, exacerbated by the effects of climate change, has been defined as one of the biggest challenges of the 21st century. The first step to achieve food security is to find a balance between the growing demand for food, and the limited production capacity. In order to do this three main pathways have been identified: employing sustainable production methods in agriculture, changing diets, and reducing waste in all stages of the food chain. The application of an energy, water and food nexus (EWFN) approach, which takes into account the interactions and connections between these three resources, and the synergies and trade-offs that arise from the way they are managed, is a prerequisite for the correct application of these pathways. This work discusses how Life Cycle Assessment (LCA) might be applicable for creating the evidence-base to foster such desired shifts in food production and consumption patterns.
Show more [+] Less [-]Water-food-energy nexus and hydropower development
2016
Bekoe-Obeng, E. | Andah, Winston | Logah, F.Y. | Balana, Bedru
Water-food-energy nexus and hydropower development
2016
Bekoe, E. O. | Andah, W. | Logah, F. Y. | Balana, Bedru B.
The water, energy and food nexus and ecosystems: the political economy of food non-food supply chains
2016
Allan, T. | Matthews, Nathanial
The water, energy and food nexus and ecosystems: the political economy of food non-food supply chains
2016
Allan, T. | Matthews, Nathaniel
Achieving food sovereignty through water conservation: A review Full text
2016
Hafif, Bariot
Food sovereignty is the rights of every nation to maintain and develop skills in producing basic foods, with respect for cultural and product diversity. The food sovereignty of a nation would be viable provided that the natural resources essential for plant growth are available and one of them is water. However, the increase of water demand far exceeds its availability, thus water shortage for agriculture with, as water is also needed by other organisms. As a tropical country, Indonesia has sufficient water supplies from both rainfall and groundwater. With good water management and conservation strategy, it should suffice the demand. Therefore, save the water movement as part of water sustainability program would highly contribute in achieving sustainable food production hence food sovereignty in the long run.
Show more [+] Less [-]Improving Water Sustainability and Food Security through Increased Crop Water Productivity in Malawi Full text
2016
Luxon Nhamo | Tafadzwanashe Mabhaudhi | Manuel Magombeyi
Improving Water Sustainability and Food Security through Increased Crop Water Productivity in Malawi Full text
2016
Luxon Nhamo | Tafadzwanashe Mabhaudhi | Manuel Magombeyi
Agriculture accounts for most of the renewable freshwater resource withdrawals in Malawi, yet food insecurity and water scarcity remain as major challenges. Despite Malawi’s vast water resources, climate change, coupled with increasing population and urbanisation are contributing to increasing water scarcity. Improving crop water productivity has been identified as a possible solution to water and food insecurity, by producing more food with less water, that is, to produce “more crop per drop”. This study evaluated crop water productivity from 2000 to 2013 by assessing crop evapotranspiration, crop production and agricultural gross domestic product (Ag GDP) contribution for Malawi. Improvements in crop water productivity were evidenced through improved crop production and productivity. These improvements were supported by increased irrigated area, along with improved agronomic practices. Crop water productivity increased by 33% overall from 2000 to 2013, resulting in an increase in maize production from 1.2 million metric tons to 3.6 million metric tons, translating to an average food surplus of 1.1 million metric tons. These developments have contributed to sustainable improved food and nutrition security in Malawi, which also avails more water for ecosystem functions and other competing economic sectors.
Show more [+] Less [-]Improving water sustainability and food security through increased crop water productivity in Malawi Full text
2016
Nhamo, Luxon | Mabhaudhi, Tafadzwanashe | Magombeyi, Manuel Simba
Agriculture accounts for most of the renewable freshwater resource withdrawals in Malawi, yet food insecurity and water scarcity remain as major challenges. Despite Malawi’s vast water resources, climate change, coupled with increasing population and urbanisation are contributing to increasing water scarcity. Improving crop water productivity has been identified as a possible solution to water and food insecurity, by producing more food with less water, that is, to produce “more crop per drop”. This study evaluated crop water productivity from 2000 to 2013 by assessing crop evapotranspiration, crop production and agricultural gross domestic product (Ag GDP) contribution for Malawi. Improvements in crop water productivity were evidenced through improved crop production and productivity. These improvements were supported by increased irrigated area, along with improved agronomic practices. Crop water productivity increased by 33% overall from 2000 to 2013, resulting in an increase in maize production from 1.2 million metric tons to 3.6 million metric tons, translating to an average food surplus of 1.1 million metric tons. These developments have contributed to sustainable improved food and nutrition security in Malawi, which also avails more water for ecosystem functions and other competing economic sectors.
Show more [+] Less [-]Improving Water Sustainability and Food Security through Increased Crop Water Productivity in Malawi Full text
2016
Nhamo, Luxon | Mabhaudhi, T. | Magombeyi, Manuel
Agriculture accounts for most of the renewable freshwater resource withdrawals in Malawi, yet food insecurity and water scarcity remain as major challenges. Despite Malawi’s vast water resources, climate change, coupled with increasing population and urbanisation are contributing to increasing water scarcity. Improving crop water productivity has been identified as a possible solution to water and food insecurity, by producing more food with less water, that is, to produce “more crop per drop”. This study evaluated crop water productivity from 2000 to 2013 by assessing crop evapotranspiration, crop production and agricultural gross domestic product (Ag GDP) contribution for Malawi. Improvements in crop water productivity were evidenced through improved crop production and productivity. These improvements were supported by increased irrigated area, along with improved agronomic practices. Crop water productivity increased by 33% overall from 2000 to 2013, resulting in an increase in maize production from 1.2 million metric tons to 3.6 million metric tons, translating to an average food surplus of 1.1 million metric tons. These developments have contributed to sustainable improved food and nutrition security in Malawi, which also avails more water for ecosystem functions and other competing economic sectors.
Show more [+] Less [-]Improving Water Sustainability and Food Security through Increased Crop Water Productivity in Malawi Full text
2016
Luxon Nhamo | Tafadzwanashe Mabhaudhi | Manuel Magombeyi
Agriculture accounts for most of the renewable freshwater resource withdrawals in Malawi, yet food insecurity and water scarcity remain as major challenges. Despite Malawi’s vast water resources, climate change, coupled with increasing population and urbanisation are contributing to increasing water scarcity. Improving crop water productivity has been identified as a possible solution to water and food insecurity, by producing more food with less water, that is, to produce “more crop per drop”. This study evaluated crop water productivity from 2000 to 2013 by assessing crop evapotranspiration, crop production and agricultural gross domestic product (Ag GDP) contribution for Malawi. Improvements in crop water productivity were evidenced through improved crop production and productivity. These improvements were supported by increased irrigated area, along with improved agronomic practices. Crop water productivity increased by 33% overall from 2000 to 2013, resulting in an increase in maize production from 1.2 million metric tons to 3.6 million metric tons, translating to an average food surplus of 1.1 million metric tons. These developments have contributed to sustainable improved food and nutrition security in Malawi, which also avails more water for ecosystem functions and other competing economic sectors.
Show more [+] Less [-]Improving water sustainability and food security through increased crop water productivity in Malawi Full text
2016
Nhamo, Luxon | Mabhaudhi, T. | Magombeyi, Manuel S.
Agriculture accounts for most of the renewable freshwater resource withdrawals in Malawi, yet food insecurity and water scarcity remain as major challenges. Despite Malawi’s vast water resources, climate change, coupled with increasing population and urbanisation are contributing to increasing water scarcity. Improving crop water productivity has been identified as a possible solution to water and food insecurity, by producing more food with less water, that is, to produce “more crop per drop”. This study evaluated crop water productivity from 2000 to 2013 by assessing crop evapotranspiration, crop production and agricultural gross domestic product (Ag GDP) contribution for Malawi. Improvements in crop water productivity were evidenced through improved crop production and productivity. These improvements were supported by increased irrigated area, along with improved agronomic practices. Crop water productivity increased by 33% overall from 2000 to 2013, resulting in an increase in maize production from 1.2 million metric tons to 3.6 million metric tons, translating to an average food surplus of 1.1 million metric tons. These developments have contributed to sustainable improved food and nutrition security in Malawi, which also avails more water for ecosystem functions and other competing economic sectors.
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