Abstract
In this chapter we presented an example of prevailing crop rotation in the four soil types exist in Egypt, i.e. old clay, calcareous, sandy and salt affected soils. We also proposed one rotation in each site to replace the prevailing rotation to save on the applied irrigation water. We calculated water requirements for each rotation and determined the amount of saved water per hectare under current climate and in 2040. We also presented the prevailing sugarcane rotation and proposed other rotations to increase water and land productivity. In the proposed rotations, changing cultivation methods from flat or on rows to raised beds saved on the applied water. Furthermore, using intercropping instead of monoculture saved on the applied water under both current climate and in 2040. In the old land, the saved water amounts were 1095, 1331 and 1546 m3/ha in Nile Delta, Middle and Upper Egypt, respectively, under current climate. Under climate change, 610, 996 and 1278 m3/ha in Nile Delta, Middle and Upper Egypt, respectively was saved. In the new reclaimed land, the proposed rotation could save 3160 and 2908 m3/ha under current climate and climate change, respectively. Regarding sandy soil, the proposed rotation saved low amount of water, i.e. 53, 67 and 152 m3/ha in Lower, Middle and Upper Egypt, respectively under current climate. Under climate change, the saved amounts were 58, 66 and 131 m3/ha in Lower, Middle and Upper Egypt, respectively. In the salt-affected soils, the proposed rotation will save 3426 and 2828 m3/ha under current climate and in 2040, respectively. Regarding sugarcane rotations, the amount of saved irrigation water using the proposed rotations was 3,596 and 7,609 m3/ha for spring and autumn rotation, respectively.
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Abd El-Aal AIN, Zohry AA (2003) Natural phosphate affecting maize as a protective crop for tomato under environmental stress conditions at Toshky. Egypt J Agric Res 81 3:937–953 (Egypt)
Abou-Keriasha MA, Gadallah RA, Mohamdain EEA (2008) Response of groundnut to intercropping with some sesame varieties under different plant density. Arab Univ J Agric Sci Ain Shams Univ Cairo 16(2):359–375 (Egypt)
Abou-Keriasha MA, Zohry AA, Farghly BS (1997) Effect of intercropping some field crops with sugar cane on yield and its components of plant cane and third ratoon. J Agric Sci Mansoura Univ 22(12):4163–4176 (Egypt)
Abouelenein R, Oweis T, El Sherif M, Awad H, Foaad F, Abd El Hafez S, Hammam A, Karajeh F, Karo M, Linda A (2009) Improving wheat water productivity under different methods of irrigation management and nitrogen fertilizer rates. Egypt J Appl Sci 24(12A):417–431 (Egypt)
Abouenein R, Oweis T, Sherif M, Khalil FA, Abed El-Hafez SA, Karajeh F (2010) A new water saving and yield increase method for growing berseem on raised seed bed in Egypt. Egypt J Appl Sci 25(2A):26-41 (Egypt)
Abou-Keriasha MA, Ibrahim TS, Mohammadain EE (2011) Effect of Cowpea intercropping date in Maize and Sorghum fields on productivity and infestation weed. Egypt J Agron 33(1):35–49
Allen RG, Pereira LS, Raes D, Smith M (1998) Crop evapotranspiration: guideline for computing crop water requirements. FAO, No56
Andersen MK (2005) Competition and complementarily in annual intercrops—the role of plant available nutrients. Ph.D. thesis, Department of Soil Science, Royal Veterinary and Agricultural University, Copenhagen, Denmark. Samfundslitteraur Grafik, Frederiksberg, Copenhagen
El-Yamani KH, Ibrahim Sahar T, Osman EBA (2010) Intercropping sunflower with soybean in the Newly Valley. Egypt J Appl Sci 25(7):288–302 (Egypt)
Eskandari H, Ghanbari A, Javanmard A (2009) Intercropping of cereals and legumes for forage production. Not Sci Biol 1(1):7–13
Eweida MHT, Osman MSA, Shams SAA, Zohry AA (1996) Effect of some intercropping treatments of soybean with sugar cane on growth, yield and quality of both components. Ann Agric Sci Moshtohor 24(2):473–486 (Egypt)
Farghly BS (1997) Yield of sugar cane as affected by intercropping with faba bean. J Agric Sci Mansoura Univ 22(12):4177–4186 (Egypt)
Huang M, Shao M, Zhang L, Li Y (2003) Water use efficiency and sustainability of different long-term crop rotation systems in the Loess Plateau of China. Soil Tillage Res 72:95–104. doi:10.1016/s0167-19870300065-5
Kamel AS, El-Masry ME, Khalil HE (2010) Productive sustainable rice based rotations in saline-sodic soils in Egypt. Egypt J Agron 32(1):73–88
Nofal N (2012) Effect of intercropping faba bean on sugar beet under different nitrogen fertilization. M.Sc. thesis, Faculty of Agric., El-Minia University, Egypt
Ouda SA, Noreldin T, Abd El-Latif K (2015) Water requirements for wheat and maize under climate change in North Nile Delta. Span J Agric Res 13(1):e03–001
Ouda SA, El Mesiry T, Abdallah EF, Gaballah MS (2007) Effect of water stress on the yield of soybean and maize grown under different intercropping patterns. Aust J Basic Appl Sci 14:578–585
Roeckner E, Bäuml G, Bonaventura L, Brokopf R, Esch M, Giorgetta M, Hagemann S, Kirchner I, Kornblueh L, Manzini E, Rhodin A, Schlese U, Schulzweida U, Tompkins A (2003) The atmospheric general circulation model ECHAM5. Part I: model description. MPI report 349, Max Planck Institute for Meteorology, Hamburg, Germany, 127 pp
Sheha MA, Ahmed RN, Abou-Elela MA (2015) Effect of crop sequence and nitrogen levels on rice productivity. Under publication
Snyder RL, Orang M, Bali K, Eching S (2004) Basic irrigation scheduling (BIS). http://www.waterplan.water.ca.gov/landwateruse/wateruse/Ag/CUP/Californi/Climate_Data_010804.xls
Torriani DS, Calanca P, Schmid S, Beniston M, Fuhrer J (2007) Potential effects of changes in mean climate and climate variability on the yield of winter and spring crops in Switzerland. Clim Res 34:59–69
Zohry AA (1994) Effect of intercropping soybean with sugarcane. Ph.D. thesis, Al-Azhar University
Zohry AA (1997) Effect of intercropping onion with autumn planted sugarcane on can yield and juice quality. Egypt J Agric Res 771:273–287
Zohry AA (2005a) Effect of preceding winter crops and intercropping on yield, yield components and associated weeds in maize. Ann Agric Sci Moshtohor 43(1):139–148
Zohry AA (2005b) Effect of relaying cotton on some crops under bio-mineral N fertilization rates on yield and yield components. Ann Agric Sci 431:89–103
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Said, A., Zohry, A.EH., Ouda, S. (2016). Unconventional Solution to Increase Water and Land Productivity Under Water Scarcity. In: Major Crops and Water Scarcity in Egypt. SpringerBriefs in Water Science and Technology. Springer, Cham. https://doi.org/10.1007/978-3-319-21771-0_7
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