Virtual water: an effective mechanism for integrated water resources management

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Agricultural Sciences

ISSN Print: 2156-8553
ISSN Online: 2156-8561
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"Virtual water: an effective mechanism for integrated water resources management"
written by Alaa El-Sadek,
published by Agricultural Sciences, Vol.2 No.3, 2011

has been cited by the following article(s):

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[1]	Balancing water scarcity, food production, and trade imperatives in the Caribbean: Could virtual water analysis help?
	Journal of Cleaner Production, 2022

[2]	The Utility of Agri-Compatible Virtual Resource Flows for Food Security Policy and Strategy Under Climate Change
	Handbook of Climate Change Across the Food Supply …, 2022

[3]	Climate Change Impact on Water Resources and Food Security in Egypt and Possible Adaptive Measures
	Emerging Challenges to Food Production and Security …, 2021

[4]	Industrial water conservation by water footprint and sustainable development goals: a review
	2021

[5]	Assessing the Potential of Hydroponic Farming to Reduce Food Imports: The Case of Lettuce Production in Sweden
	2021

[6]	Comparison of Physical and Virtual Water Transfer
	2020

[7]	Virtual water flows under projected climate, land use and population change: the case of UK feed barley and meat
	2020

[8]	Scarce water resources and cereal import dependency: The role of integrated water resources management
	2020

[9]	Science-Policy Interface on Water Scarcity in India: Giving 'Visibility'to Unsustainable Virtual Water Flows (1996-2014)
	2020

[10]	Seawater desalination using solar energy sources
	2020

[11]	Türkiye'de tarımsal üretimin su ayak izinin hesaplanması
	2020

[12]	Water Footprint Assessment in the Agro-industry: A Case Study of Soy Sauce Production
	2018

[13]	بررسی مؤلفه‌های مؤثر بر مدیریت تجارت آب مجازی از دیدگاه کارشناسان‎
	2018

[14]	A Study of Effective Components on Virtual Water Trade Management from the ViewPoints of Experts
	2018

[15]	Reduction of Sugarcane Water Footprint by Controlled Drainage, in Khuzestan, Iran
	Irrigation and Drainage, 2017

[16]	Quantification of Virtual Water balance of Tunisia: Flows Embedded in the main produced, consumed and ex-changed Agricultural Commodities
	2017

[17]	Assessment of interstate virtual water flows embedded in agriculture to mitigate water scarcity in India (1996–2014)
	Water Resources Research, 2017

[18]	Assessment of interstate virtual water flows embedded in agriculture to mitigate water scarcity in I ndia (1996–2014)
	2017

[19]	Quantification of virtual water balance of Tunisia: flows embedded in the main produced, consumed and exchanged agricultural commodities
	2017

[20]	Science-Policy Interface to Mitigate Water Scarcity in India: An Assessment of Virtual Water Flows
	2016

[21]	یرتسکاخ بآ یزاجم بآ و یزرواشک رد‎
	2016

[22]	Analysis of water footprint of potato production in the pampean region of Argentina
	Journal of Cleaner Production, 2014

[23]	Optimizing Virtual Water as Irrigation Water Management Strategy in Egypt
	2014

[24]	Climate Change and Virtual Water
	2013

[25]	Virtual water: a useful concept for informing land use in New Zealand
	NULL 2013

[26]	Developing DRAINMOD-Geostatistical Technology to Predict Nitrate Leaching
	Journal of Irrigation and Drainage Engineering?, 2012

[27]	THESIS OF THE DOCTORAL (Ph. D.) DISSERTATION
	M ALOBID

[1]	Virtual water trade and its implications on water sustainability Water Supply, 2022 DOI:10.2166/ws.2021.322

[2]	INTER-SECTORAL COMPETITION FOR WATER AND A RESEARCH ON IRRIGATION PERCEPTION OF AGRICULTURAL ENTERPRISES IN HARRAN PLAIN Elektronik Sosyal Bilimler Dergisi, 2022 DOI:10.17755/esosder.1073491

[3]	SEKTÖRLER ARASI SU REKABETİ VE HARRAN OVASI TARIM İŞLETMELERİNİN SULAMA ALGISI ÜZERİNE BİR ARAŞTIRMA Elektronik Sosyal Bilimler Dergisi, 2022 DOI:10.17755/esosder.1073491

[4]	Industrial water conservation by water footprint and sustainable development goals: a review Environment, Development and Sustainability, 2021 DOI:10.1007/s10668-020-01184-0

[5]	Emerging Challenges to Food Production and Security in Asia, Middle East, and Africa 2021 DOI:10.1007/978-3-030-72987-5_10

[6]	Addressing the Uneven Distribution of Water Quantity and Quality Endowment SpringerBriefs in Water Science and Technology, 2020 DOI:10.1007/978-981-13-9163-7_2

[7]	Scarce Water Resources and Cereal Import Dependency: The Role of Integrated Water Resources Management Water, 2020 DOI:10.3390/w12061750

[8]	Water Footprint Assessment in the Agro-industry: A Case Study of Soy Sauce Production E3S Web of Conferences, 2018 DOI:10.1051/e3sconf/20183108018

[9]	Sustainability Challenges in the Agrofood Sector 2017 DOI:10.1002/9781119072737.ch14

[10]	Virtual water trade and time scales for loss of water sustainability: A comparative regional analysis Scientific Reports, 2015 DOI:10.1038/srep09306

[11]	Virtual water trade and time scales for loss of water sustainability: A comparative regional analysis Scientific Reports, 2015 DOI:10.1038/srep09306

[12]	Virtual Water Trade in the State of Kuwait: Prospects and Challenges Arab Gulf Journal of Scientific Research, 2013 DOI:10.51758/AGJSR-04-2013-0035

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