Abstract
Optimal resource planning is essential in developing countries, particularly in the Middle East, where scarcity of resources represents a major challenge for development. To eliminate inappropriate human influence on natural resources and develop a strategy for appropriate land use, land evaluation (LE) assessments are crucial to be properly carried out. In this context, land suitability (LS) assessment was performed in Port Said Governorate. LE and LS were carried out for several field crops, vegetable crops, forage crops, and fruit trees. LS was matched based on the requirements of the selected crops, then it was associated with physiographic map units using a GIS platform. Different sources of remote sensing-derived maps were integrated and homogenized to increase the accuracy of physiographic. Moreover, land quality and soil characteristics mapping were conducted in Arc GIS spatial model to generate LS using geostatistical methods. The results revealed that structure of LS classification was four classes only, moderately suitable S2 = 36%, marginally suitable S3 = 30%, currently not suitable N1 = 23%, and permanently not suitable for crops N2 = 11% of total area of land), respectively, of land. The actual LS produced in association with physiographic units. The potential crops suitability was produced considering the significant fluctuation in land use in the area. Fluctuation changes in land use; fish farms led to increase organic matter (OM) to 2.3 from 0.4% in some soil profiles due to the fish farms practices in the area, and reduce soil electrical conductivity by 50% due to leaching effect. Severe limitations of crop suitability are due to defects associated with organic OM, soil compaction, salinization, alkalinization and carbonates. This work helps to achieve optimum use of available land resources to help in soil improvement and prevent land degradation. Comprehensive LS assessment is required to grow appropriate crops on marginal lands. Hence, there is an urgent need for developing a crop suitability framework for optimum use of land in the area. This approach provides an integrated approach to identify suitable crops for areas with physical constraints.
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References
Abd El-Fattah MA, Shahid SA, Othman YR (2009) Soil salinity mapping model developed using RS and GIS—a case study from Abu Dhabi, United Arab Emirates. Euro J Sci Res 26:342–351
Abdel-Kader FH, Yacoub RK (2008) Specific assessments of the land resources and their management in the coastal areas of Port Said, Egypt. Center of GIS for Studies and Services, University of El-Zagazig. http://www.iczmportsaid.com/intersectoralanalysis/land.pdf
AbdelRahman MAE (2009) Quantification of land degradation indicators using remote sensing and GIS techniques. MSc thesis, Zagazig University, Egypt (submitted)
AbdelRahman MAE, Tahoun SA, Abdel Bary EA, Arafat SM (2008) Detecting land degradation processes using geo statistical approach in Port Said, Egypt. Zagazig J Agric Res 35(6):1361–1379
AbdelRahman MAE et al (2016a) Assessment of land suitability and capability by integrating remote sensing and GIS for agriculture in Chamarajanagar District, Karnataka, India, Egypt. J Remote Sensing Space Sci. https://doi.org/10.1016/j.ejrs.2016.02.001
AbdelRahman MAE, Natarajan A, Srinivasamurthy CA, Hegde R (2016b) Estimating soil fertility status in physically degraded land using GIS and remote sensing techniques in Chamarajanagar District, Karnataka, India. Egypt J Remote Sensing Space Sci 19(1):95–108
AbdelRahman MAE, Natarajan A, Hegde R, Prakash SS (2018) Assessment of land degradation using comprehensive geostatistical approach and remote sensing data in GIS-model builder. Egypt. J. Remote Sensing Space Sci., district, Karnataka, India. Egypt J Remote Sensing Space Sci 19(1):125–141
Ali RR, Abd El-Kader AA, Essa EF, AbdelRahman MAE (2019) Application of remote sensing to determine spatial changes in soil properties and wheat productivity under salinity stress. Plant Arch 1(19):616–621
Conoco (1987) Geologic map of Egypt. Egyptian General Authority for Petroleum (UNESCO Joint Map Project), 20 Sheets, Scale 1500 000, Cairo
Dengiz O, Bayramin I, Yuksel M (2003) Geographic information system and remote sensing based land evaluation of Beypazarı area soils by ILSEN model. Turk J Agric 27:145–153
EEAA (2006) The environmental profile of Port Said Governorate. Egyptian Environmental Affairs Agency, Cairo
Egyptian Meteorological Authority (2015) Climatic atlas of Egypt. Published, Arab Republic of Egypt. Ministry of Transport (average at ElManzala station (1960–2015), data of climatic elements from the authority files’ at Cairo, Egypt
FAO (1976a) A framework for land evaluation. FAO soil bulletin no. 32, Rome
FAO (1976b) A framework for land evaluation. International Institute for Land Reclamation and Improvement, Amsterdam
FAO (1985) Land evaluation for irrigated agriculture guidelines. FAO soil bulletin no. 55. Food and Agriculture Organization of the United Nations, Rome, 219 p
FAO (2006) Guidelines for soil description, 4th edn. FAO, Rome
FAO (2007a) Guidelines: land evaluation for rain fed agriculture. Food and Agriculture organization, Rome, p 47
FAO (2007b) A framework for land evaluation. FAO soil bulletin no. 6, Rome
Hamdi HM, El-Boghdady FM, Abdel-Wahed A, Hunna FS, Kandil MF, Harga AA, Elwan AA, Kassem YS, Noman K, Hawela FMI, Soliman HS (1978) Soil map of Egypt, 3rd report. Egyptian Academy for Research and Technology, Cairo
Hassan MAA (2002) Environmental studies on coastal zone soils of the North Sinai Peninsula (Egypt) using remote sensing techniques. PhD thesis, Bundesforschungsanstalt für Landwirtschaft (FAL), Braunschweig
Hillel D (2000) Salinity management for sustainable irrigation: integrating science, environment, and economics. The International Bank for Reconstruction and Development/The World Bank, Washington, DC
Kalkhan MA, Stohlgren TJ, Chong GW, Lisa D, Reich RM (2000) A predictive spatial model of plant diversity: integration of remotely sensed data, GIS, and spatial statistics. In: Proceeding of the 8th forest remote sensing application conference, Albuquerque
Klute A (1986) Methods of soil analysis. Physical and mineralogical properties, No 9 Part I. American Society of Agronomy Madison, Wisconsin
Meena R, Choudhary SR, Sharma SS (2011) Land suitability for maize in Banswara District of Rajasthan. J Adv Dev Res 2:47–49
Odeh IO, Crawford M (2010) Soil suitability and crop versatility assessment using fuzzy analysis at a farm scale. www.iuss.org/19th%wcss/symposium/pdf/2202pdf
Page AL, Miller RH, Keeney DR (1982) Methods of soil analysis, 2nd edn. American Society of Agronomy, Madison, WI, USA
Patil A, Prathumchai K, Samaakoon L, Honda K (2001) Evaluation of land utilization for regional development—a GIS approach. In: 22nd Asian conference on remote sensing, Singapore
Quintanar Jessica, Khan Shuhab D, Fathy Mohamed S, Zalat Abdel-Fattah A (2013) Remote sensing, planform, and facies analysis of the Plain of Tineh, Egypt for the remains of the defunct Pelusiac River. Sed Geol. https://doi.org/10.1016/j.sedgeo.2013.09.002
Radwan AA (2008) Indicators of soil degradation in arid regions. PhD thesis. Faculty of Agriculture, El-Zagazig University, El-Zagazig, Egypt
Radwan SA, Tahoun SA, Hassanein SA (2011) Soil resources of Port Said Governorate: assessment and suitability. Zagazig J Agric Res 83:840–852
Raji BA (2000) Productivity evaluation of quartzipsamments and haplustults derived from contiguous sand dune fields for rain fed agriculture, pasture and forestry in Northwest Nigeria. Soil science society of Nigeria proceedings, 26th annual conference of the Soil Science Society of Nigeria (SSSN), at Ibadan, Oct 30–Nov 3, 2000, pp 12−18
Riquier J, Bramao DL, Cornet SP (1970) A new system of soil appraisal in terms of actual and potential productivity (first approximation). Soil Resource, Development and Conservation Service, Land and Water Development Division, FAO, Rome
Shahbazi FA, Jafarzadeh F Sarmadian et al (2009) Suitability of wheat, maize, sugar beet, and potato using MicroLEIS DSS software in Ahar area, north-west of Iran. Am Eur J Agric Environ 5:45–52
Shahin SS (2016) Spatial decision support system for land use management of port said area—Egypt. PhD thesis. Faculty of Agriculture, El-Zagazig University, El-Zagazig, Egypt
Sneh A, Weissbrod T, Ehrlich A, Horowitz A, Moshkovitz S, Rosenfeld A (1986) Holocene evolution of the north-eastern corner of the Nile delta. Quatern Res 26:194–206
Soil Survey Staff (1998) Keys to soil taxonomy, 8th edn. USDA-NRCS, Center Technology Evaluation Report TE-98-01, p 37
Stanley DJ, Warne AG (1998) Nile Delta in its destruction phase. J Coast Res 14:794–825
Sys C, Van Ranst E, Debaveye J (1991) Land evaluation part I and II—crop requirement. Belgium General Administration for Development Cooperation. Agricultural Publications No. 7
Sys IC, Van Ranst E, Debaveye IJ, Beernaert F (1993) Land evaluation. Part III: Crop Requirements. General Administration for Development Co-operation, Brussels
Tahoun SA (ed) (2007) Environmental perspectives of the Port Said Area. Center of GIS for Studies and Services, University of El-Zagazig
Urandoz V, Aragues R (2011) Pre- and post-irrigation mapping of soil salinity with electromagnetic induction techniques and relationships with drainage water salinity. Soil Sci Soc Am J 75:207–213
USDA (2014) Keys to soil taxonomy, 12th edn. United State Department of Agriculture, Natural Resources Conservation Service (NRCS)
Acknowledgements
The authors would like to appreciate the efforts done by Professor Dr. Salah Ahmed Tahoun in this work. Prof. Dr. Salah A. Tahoun should be the second author but he passed away, may his soul rest in peace.
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AbdelRahman, M.A.E., Arafat, S.M. An Approach of Agricultural Courses for Soil Conservation Based on Crop Soil Suitability Using Geomatics. Earth Syst Environ 4, 273–285 (2020). https://doi.org/10.1007/s41748-020-00145-x
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DOI: https://doi.org/10.1007/s41748-020-00145-x