خيارات البحث
النتائج 11 - 20 من 233
Water-food-energy nexus : A quick scan النص الكامل
2017
Reinhard, Stijn | Verhagen, Jan | Wolters, Wouter | Ruben, Ruerd
Water-energy-food nexus: principles and practices
2017
Salam, P.A. | Shrestha, S. | Pandey, Vishnu Prasad | Anal, A.K.
Water-food-energy nexus : A quick scan
2017
Reinhard, Stijn | Verhagen, Jan | Wolters, Wouter | Ruben, Ruerd
Water–food–energy nexus index: analysis of water–energy–food nexus of crop’s production system applying the indicators approach النص الكامل
2017
El-Gafy, Inas
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.
اظهر المزيد [+] اقل [-]The Water-Energy-Food Nexus in Tajikistan: The Role of Water User Associations in improving Energy and Food Security النص الكامل
2017
Ronan Shenhav | Daler Domullodzhanov
Tajikistan’s agricultural sector suffers from a highly inefficient use of water and energy resources. As a country that is heavily dependent on energy-intensive pumping irrigation, wastage of water and electricity has severe impact on the country’s energy and food security. The recent opening of potential energy exports further highlights these practises. Water User Associations (WUAs) can mitigate the delicate balance between water, energy and food in Tajikistan. Although they are often still underdeveloped, WUAs can address challenges that hinder agricultural energy efficiency. This paper suggests some low and no-cost technical and policy solutions.
اظهر المزيد [+] اقل [-]Challenges in operationalizing the water–energy–food nexus النص الكامل
2017
Liu, J. | Yang, H. | Cudennec, C. | Gain, A.K. | Hoff, H. | Lawford, R. | Qi, J. | Strasser, L de | Yillia, P.T. | Zheng, C.
Challenges in operationalizing the water–energy–food nexus النص الكامل
2017
Liu, J. | Yang, H. | Cudennec, C. | Gain, A.K. | Hoff, H. | Lawford, R. | Qi, J. | Strasser, L de | Yillia, P.T. | Zheng, C.
Concerns about the water–energy–food (WEF) nexus have motivated many discussions regarding new approaches for managing water, energy and food resources. Despite the progress in recent years, there remain many challenges in scientific research on the WEF nexus, while implementation as a management tool is just beginning. The scientific challenges are primarily related to data, information and knowledge gaps in our understanding of the WEF inter-linkages. Our ability to untangle the WEF nexus is also limited by the lack of systematic tools that could address all the trade-offs involved in the nexus. Future research needs to strengthen the pool of information. It is also important to develop integrated software platforms and tools for systematic analysis of the WEF nexus. The experience made in integrated water resources management in the hydrological community, especially in the framework of Panta Rhei , is particularly well suited to take a lead in these advances.
اظهر المزيد [+] اقل [-]Challenges in operationalizing the water-energy-food nexus النص الكامل
2017
Liu, Junguo | Yang, H. | Cudennec, Christophe | Gain, A. K. | Hoff, H. | Lawford, R. | Qi, J. | de Strasser, L. | Yillia, P. T. | Zheng, C. | Southern University of Science and Technology (SUST) | Swiss Federal Institute of Aquatic Science and Technology [Dübendorf] (EAWAG) | Department of Environmental Sciences ; University of California [Los Angeles] (UCLA) ; University of California (UC)-University of California (UC) | Sol Agro et hydrosystème Spatialisation (SAS) ; Institut National de la Recherche Agronomique (INRA)-AGROCAMPUS OUEST | German Research Centre for Geosciences - Helmholtz-Centre Potsdam (GFZ) | Potsdam Institute for Climate Impact Research (PIK) | Stockholm Environment Institute in York (SEI) | Morgan State University | Michigan State Univ, Ctr Global Change & Earth Observat, E Lansing, MI 48824 USA ; Partenaires INRAE | Fondazione Eni Enrico Mattei | International Institute for Applied Systems Analysis (IIASA) | Sustainable Energy All SE4All ; Partenaires INRAE | National Natural Science Foundation of China [41571022, 41625001, 91325302, 91425303]; Beijing Natural Science Foundation [8151002]; Southern University of Science and Technology [G01296001]; Shenzhen Municipal Science and Technology Innovation Committee through Shenzhen Key Laboratory of Soil and Groundwater Pollution Control [ZDSY20150831141712549]
International audience | Concerns about the water-energy-food (WEF) nexus have motivated many discussions regarding new approaches for managing water, energy and food resources. Despite the progress in recent years, there remain many challenges in scientific research on the WEF nexus, while implementation as a management tool is just beginning. The scientific challenges are primarily related to data, information and knowledge gaps in our understanding of the WEF inter-linkages. Our ability to untangle the WEF nexus is also limited by the lack of systematic tools that could address all the trade-offs involved in the nexus. Future research needs to strengthen the pool of information. It is also important to develop integrated software platforms and tools for systematic analysis of the WEF nexus. The experience made in integrated water resources management in the hydrological community, especially in the framework of Panta Rhei, is particularly well suited to take a lead in these advances.
اظهر المزيد [+] اقل [-]Scale-dependency of the Water-Food-Energy Nexus النص الكامل
2017
Bijl, David L. | Bogaart, Patrick W. | Dekker, Stefan C. | van Vuuren, Detlef P.
Recent years have shown increased awareness that the use of the basic resources water, food, and energy are highly interconnected (referred to as a ‘nexus’). Spatial scales play a major role in nexus analyses, and can be related to the physical characteristics and dependencies between nexus resources. In fact, water, food and energy are very different in terms of absolute magnitude of production, as well as in the extent to which they are traded. The differences in trade extent can partly be explained by physical differences: high value, high density, geographically concentrated resources are traded more. We show how input-output dependencies are more relevant at local to national scales, whereas the continental and global scales are important due to physical and virtual trade. We combined various insights into an overview of which spatial scales are most relevant for each nexus resource, based on physical characteristics, input-output dependencies, virtual trade, and potential future changes due to socio-economic trends, climate change impacts and climate change mitigation.
اظهر المزيد [+] اقل [-]FOOD, WATER AND SECURITY: WHAT ARE THE CONNECTIONS? النص الكامل
2017
Dupont, Alan
Agua en los alimentos النص الكامل
2017
Arévalo Sáenz, Syumey Teresa
El presente trabajo es un resumen en que el agua, está presente en todo alimento, ya sea fruta, pescado, carnes rojas, verduras, hortalizas, alimentos líquidos y otros, así mismo este componente que está en porcentaje mayoritario, es la que reacciona con las grasas, carbohidratos, proteínas, minerales y vitaminas, las cuales tienen funciones específicas en el cuerpo humano. Todo alimento tiene un porcentaje determinado como su actividad de agua, así el agua tiene dos tipos de agua siendo agua ligada y agua libre, siendo este último el que mayor cantidad o porcentaje, está presente en cada alimento. Cada alimento tiene una actividad de agua, siendo tres tipos: Tipo 1, Tipo 2 y Tipo 3, el cual tiene determinados valores: 1.00 – 0.80, 0.25 – 0.80 7 menor de 0.25, cada alimento tiene un determinado tiempo de vida útil, que está relacionado por el contenido de su actividad y porcentaje de agua libre, el cual esta registrada en sus gráficas correspondiente, porque cada alimento tiene un comportamiento diferente uno de otro (frutas, carnes, hortalizas, etc.). Así mismo dentro de la distribución del agua en los alimentos hay alimentos con alto contenido de agua (alimentos frescos como frutas, hortalizas, verduras, alimentos líquidos), alimentos con humedad intermedia (cereales, derivados de estos, derivados de carnes, derivados de leche, soya, bebidas, leguminosas, oleaginosas) y por último alimentos altamente secos (alimentos secos como: leche en polvo, café instantáneo, aceites vegetales, productos con humedad menor de 5% de agua libre). Un alimento bien procesado según el tipo de tecnología usada, tiene un largo tiempo de vida útil, porque para esto se realiza, estudios de prolongación de vida en anaquel, estas pruebas se realizan usando temperaturas altas forzando al alimento a condiciones extremas, de temperaturas, presión y tiempo. Así mismo en cada actividad de agua, existe un determinado microorganismo que se desarrolla, y altera la calidad del producto o alimento. | Trabajo academico
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