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Mário Carvalho, Ermelinda Lourenço (2014)
Conservation Agriculture – A Portuguese Case StudyJournal of Agronomy and Crop Science, 200
A. Lavini, C. Pulvento, R. D’andria, M. Riccardi, R. Choukr-allah, O. Belhabib, A. Yazar, Ç. Incekaya, S. Sezen, M. Qadir, S. Jacobsen (2014)
Quinoa's Potential in the Mediterranean RegionJournal of Agronomy and Crop Science, 200
A. Hirich, R. Choukr-allah, S. Jacobsen (2014)
Deficit Irrigation and Organic Compost Improve Growth and Yield of Quinoa and PeaJournal of Agronomy and Crop Science, 200
A. Hirich, R. Choukr-allah, S. Jacobsen (2014)
Quinoa in Morocco – Effect of Sowing Dates on Development and YieldJournal of Agronomy and Crop Science, 200
C. Jensen, J. Ørum, S. Pedersen, M. Andersen, F. Plauborg, Fulai Liu, S. Jacobsen (2014)
A Short Overview of Measures for Securing Water Resources for Irrigated Crop ProductionJournal of Agronomy and Crop Science, 200
S. Jacobsen, C. Jensen, Fulai Liu (2012)
Improving crop production in the arid Mediterranean climateField Crops Research, 128
O. Benlhabib, A. Yazar, M. Qadir, E. Lourenço, S. Jacobsen (2014)
How Can We Improve Mediterranean Cropping SystemsJournal of Agronomy and Crop Science, 200
R. Ragab (2002)
A holistic generic integrated approach for irrigation, crop and field management: the SALTMED modelEnviron. Model. Softw., 17
A. Yazar, M. Kuzucu, İ. Çelik, S. Sezen, S. Jacobsen (2014)
Water Harvesting for Improved Water Productivity in Dry Environments of the Mediterranean Region Case study: Pistachio in TurkeyJournal of Agronomy and Crop Science, 200
A. Hirich, A. Jelloul, R. Choukr-allah, S. Jacobsen (2014)
Saline Water Irrigation of Quinoa and Chickpea: Seedling Rate, Stomatal Conductance and Yield ResponsesJournal of Agronomy and Crop Science, 200
A climate‐proof cropping system is a system which is able to mitigate the effects of climate change, which often are unpredictable and extreme. The special issue is related to the subject of improving cropping systems in the Mediterranean region, which is one of the regions in the world facing most severe consequences of climate changes, under influence of multiple abiotic stresses. These stresses are becoming even more pronounced under changing climate, resulting in drier conditions, increasing temperatures and greater variability, causing desertification. This topic has been addressed in the EU FP7 project entitled ‘Sustainable water use securing food production in dry areas of the Mediterranean region (SWUP‐MED)’ working on climate‐proof cropping systems in Morocco, Syria, Turkey and southern Europe, collaborating with UK, Denmark and Australia. The results are valid for other parts of the world, where Mediterranean climate is found, such as Western Australia and Western Chile, and in many dry areas of Africa, Asia, and the Middle East.
Journal of Agronomy and Crop Science – Wiley
Published: Jan 1, 2014
Keywords: ; ; ; ;
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