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Geocarto International Volume 33, 2018 - Issue 8
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Original Articles

Soil salinity and vegetation cover change detection from multi-temporal remotely sensed imagery in Al Hassa Oasis in Saudi Arabia

Amal AllbedEcosystem Management, School of Environmental and Rural Science, University of New England, Armidale, Australia;Department of Geography, Umm Al-Qura University, Makkah, Saudi ArabiaCorrespondence[email protected]
,
Lalit KumarEcosystem Management, School of Environmental and Rural Science, University of New England, Armidale, Australia
&
Priyakant SinhaEcosystem Management, School of Environmental and Rural Science, University of New England, Armidale, Australia
Pages 830-846 | Received 23 Nov 2016, Accepted 02 Mar 2017, Published online: 23 Mar 2017

References

  • Abbas A, Khan S. 2007. Using remote sensing techniques for appraisal of irrigated soil salinity. Proceedings of the MODSIM 2007 International Congress on Modelling and Simulation, Modelling and Simulation Society of Australia and New Zealand; Christchurch, New Zealand.
  • Adams JB, Gillespie AR. 2006. Remote sensing of landscapes with spectral images: a physical modeling approach. New York (NY): Cambridge University Press.
  • Abderrahman W. 1988. Water management plan for the Al-Hassa Irrigation and Drainage Project in Saudi Arabia. Agric Water Manage. 13:185–194.10.1016/0378-3774(88)90153-9
  • Ahmed M, Hussain N, Al-Rawahy SA. 2013. Management of saline lands in Oman: learning to live with salinity. In: Shahid Shabbir A, Abdelfattah Mahmoud A, Taha Faisal K, editors. Developments in soil salinity assessment and reclamation: innovative thinking and use of marginal soil and water resources in irrigated agriculture. Dordrecht, Netherlands: Springer Science & Business Media; p. 265–281.
  • Al-Abdoulhadi I, Dinar H, Ebert G, Büttner C. 2012. Influence of salinity levels on nutrient content in leaf, stem and root of major date palm (Phoenix dactylifera L) cultivars. Int Res J Agric Sci Soil Sci. 2:341–346.
  • Al-Barrak S. 1986. Properties and classification of some oasis soils of Al-Ahsa, Saudi Arabia. Arab Gulf J Sci Res. 4:349–359.
  • AI-Barrak SA. 1990. Characteristics of some soils under date palm in AI-Hassa eastern oasis, Saudi Arabia. J King Saud Univ, Agric Sci. 2:115–130.
  • Alhammadi MS, Edward GP. 2009. Effect of salinity on growth of twelve cultivars of the United Arab Emirates date palm. Commun Soil Sci Plant Anal. 40:2372–2388.10.1080/00103620903111293
  • Alhammadi MS, Kurup SS. 2012. Impact of salinity stress on date palm (Phoenix Dactylifera L) – a review. In: Sharma Peeyush, Abro Vikas, editors. Crop production technologies. Rijeka, Croatia: InTech; p. 169–178.
  • Ali MH, Hoque M, Hassan A, Khair A. 2007. Effects of deficit irrigation on yield, water productivity, and economic returns of wheat. Agric Water Manage. 92:151–161.10.1016/j.agwat.2007.05.010
  • Al-Khaier F. 2003. Soil salinity detection using satellite remote sensing. Enschede, The Netherlands: International Institute for Geo-information Science and Earth Observation.
  • Allbed A, Kumar L. 2013. Soil salinity mapping and monitoring in arid and semi-arid regions using remote sensing technology: a review. Adv Remote Sens. 2:373–385.
  • Allbed A, Kumar L, Aldakheel YY. 2014. Assessing soil salinity using soil salinity and vegetation indices derived from IKONOS high-spatial resolution imageries: applications in a date palm dominated region. Geoderma. 230–231:1–8.10.1016/j.geoderma.2014.03.025
  • Allbed A, Kumar L, Sinha P. 2014. Mapping and modelling spatial variation in soil salinity in the Al Hassa Oasis based on remote sensing indicators and regression techniques. Remote Sens. 6:1137–1157.10.3390/rs6021137
  • Al-Mulla YA, Al-Adawi S. 2009. Mapping temporal changes of soil salinity in Al-Rumais region of Omanusing geographic information system and remotesensing techniques. American Society of Agriculturaland Biological Engineers (ASABE) Annual International Meeting, Reno, NV, USA.
  • Al-Naeem AA. 2011. Evaluation of groundwater of al-hassa oasis, eastern region Saudi Arabia. Res J Environ Sci. 5:624–642.
  • Al-Taher AA. 1999. Al-Hassa: a geographic study. Riyadh: Alhsaini Perss.
  • Al-Zarah AI. 2008. Chemistry of groundwater of Al-Ahsa Oasis Eastern Region Saudi Arabia and its predictive effects on soil properties. Pak J Biol Sci. 11:332–341.10.3923/pjbs.2008.332.341
  • Bannari A, Guedon A, El-Harti A, Cherkaoui F, El-Ghmari A. 2008. Characterization of slightly and moderately saline and sodic soils in irrigated agricultural land using simulated data of advanced land imaging (EO-1) sensor. Commun Soil Sci Plant Anal. 39:2795–2811.10.1080/00103620802432717
  • Bernstein L. 1975. Effects of salinity and sodicity on plant growth. Annu Rev Phytopathol. 13:295–312.10.1146/annurev.py.13.090175.001455
  • Brunner P, Li H, Kinzelbach W, Li W. 2007. Generating soil electrical conductivity maps at regional level by integrating measurements on the ground and remote sensing data. Int J Remote Sens. 28:3341–3361.10.1080/01431160600928641
  • Bruzzone L, Prieto DF. 2000. Automatic analysis of the difference image for unsupervised change detection. IEEE Trans Geosci Remote Sens.38:1171–1182.10.1109/36.843009
  • Bustan A, Sagi M, De Malach Y, Pasternak D. 2004. Effects of saline irrigation water and heat waves on potato production in an arid environment. Field Crops Res. 90:275–285.10.1016/j.fcr.2004.03.007
  • Canty MJ, Nielsen AA, Schmidt M. 2004. Automatic radiometric normalization of multitemporal satellite imagery. Remote Sens Environ. 91:441–451.10.1016/j.rse.2003.10.024
  • Chander G, Markham BL, Helder DL. 2009. Summary of current radiometric calibration coefficients for Landsat MSS, TM, ETM+, and EO-1 ALI sensors. Remote Sens Environ. 113:893–903.10.1016/j.rse.2009.01.007
  • Cohen WB, Fiorella M, Gray J, Helmer E, Anderson K. 1998. An efficient and accurate method for mapping forest clearcuts in the Pacific Northwest using Landsat imagery. Photogramm Eng Remote Sens. 64:293–299.
  • Congalton RG. 1991. A review of assessing the accuracy of classifications of remotely sensed data. Remote Sens Environ. 37:35–46.10.1016/0034-4257(91)90048-B
  • Coppin P, Jonckheere I, Nackaerts K, Muys B, Lambin E. 2004. Review ArticleDigital change detection methods in ecosystem monitoring: a review. Int J Remote Sens. 25:1565–1596.10.1080/0143116031000101675
  • Daddi Bouhoun M, Marlet S, Brinis L, Saker ML, Rabier J, Côte M. 2011. A survey of the combined effects of waterlogging and salinity on fruit yield in the date palm groves of the Wargla basin, Algeria. Fruits. 66:11–24.10.1051/fruits/2010037
  • Darwesh RS. 2013. Improving growth of date palm plantlets grown under salt stress with yeast and amino acids applications. Ann Agric Sci. 58:247–256.10.1016/j.aoas.2013.07.014
  • Elhag M. 2016. Evaluation of different soil salinity mapping using remote sensing techniques in arid ecosystems, Saudi Arabia. J Sens. 2016:1–8.
  • El-Khawaga A. 2013. Effect of anti-salinity agents on growth and fruiting of different date palm cultivars. Asian J Crop Sci. 5:65–80.
  • Elprince AM, Makki YM, Al-Barrak S, Tamim M. 1982. Use of computer graphics in developing densitiesmaps for the date culture of Al-Hassa oasis in Saudi Arabia.First Symposium on Date Palm, Al-Hassa, Saudi Arabia; p. 674–683.
  • Erskine W, Moustafa AT, Osman AE, Lashine Z, Nejatian A, Badawi T, Ragy SM. Date palm in the GCC countries of the Arabian Peninsula. Proceedings of the Proc Regional Workshop on Date Palm Development in the Arabian Peninsula, Abu Dhabi, UAE; 2004.
  • Fernández-Buces N, Siebe C, Cram S, Palacio J. 2006. Mapping soil salinity using a combined spectral response index for bare soil and vegetation: a case study in the former lake Texcoco, Mexico. J Arid Environ. 65:644–667.10.1016/j.jaridenv.2005.08.005
  • Fourati TH, Bouaziz M, Benzina M, Bouaziz S. 2015. Modeling of soil salinity within a semi-arid region using spectral analysis. Arabian J Geosci. 8:11175–11182.10.1007/s12517-015-2004-3
  • Fung T, LeDrew E. 1988. The determination of optimal threshold levels for change detection using various accuracy indices. Photogramm Eng Remote Sens. 54:1449–1454.
  • Goto K, Goto T, Nmor JC, Minematsu K, Gotoh K. 2015. Evaluating salinity damage to crops through satellite data analysis: application to typhoon affected areas of southern Japan. Nat Hazards. 75:2815–2828.10.1007/s11069-014-1465-0
  • Hall FG, Strebel DE, Nickeson JE, Goetz SJ. 1991. Radiometric rectification: Toward a common radiometric response among multidate, multisensor images. Remote Sens Environ. 35:11–27.10.1016/0034-4257(91)90062-B
  • Howari F, Goodell P. 2008. Characterization of salt-crust build-up and soil salinization in the United Arab Emirates by means of field and remote sensing techniques. In: Metternicht Graciela, Zinck J. Alfred, editors. Remote sensing of soil salinization: impact on land management. New York (NY): CRC Press; p. 141–152.
  • Hussain N, Al-Rawahy AS, Rabee J, Al-Amri M. 2006. Causes, origin, genesis and extent of soil salinity in the Sultanate of Oman. Pakistan J Agric Sic. 43:1–2.
  • Hussain G, Al-Zarah AI, Latif MS. 2012. Influence of groundwater irrigation on chemical properties of soils in the vicinity of wastewater drainage canals in Al-Alisa Oasis. Res J Environ Toxicol. 7:1–17.
  • Jain SM, Al-Khayri JM, Johnson DV. 2011. Date palm biotechnology. Dordrecht, Netherlands: Springer Science & Business Media.10.1007/978-94-007-1318-5
  • Jaradat AA. 2016. Genetic erosion of Phoenix dactylifera L.: perceptible, probable, or possible. In: Ahuja MR, Mohan Jain S, editors. Genetic diversity and erosion in plants: case histories. Cham: Springer International Publishing; p. 131–213.
  • Jones TC. 2010. Desert Kingdom. Cambridge, MA: Harvard University Press.10.4159/9780674059405
  • Kleynhans W, Olivier JC, Wessels KJ, Salmon BP, Van den Bergh F, Steenkamp K. 2011. Detecting land cover change using an extended Kalman filter on MODIS NDVI time-series data. IEEE Geosci Remote Sens Lett. 8:507–511.10.1109/LGRS.2010.2089495
  • Lhermitte S, Verbesselt J, Verstraeten WW, Veraverbeke S, Coppin P. 2011. Assessing intra-annual vegetation regrowth after fire using the pixel based regeneration index. J Photogramm Remote Sens. 66:17–27.10.1016/j.isprsjprs.2010.08.004
  • Lillesand T, Kiefer RW, Chipman J. 2014. Remote sensing and image interpretation. New York (NY): Wiley.
  • Lobell D, Lesch S, Corwin D, Ulmer M, Anderson K, Potts D, Doolittle J, Matos M, Baltes M. 2010. Regional-scale assessment of soil salinity in the Red River Valley using multi-year MODIS EVI and NDVI. J Environ Qual. 39:35–41.10.2134/jeq2009.0140
  • Lunetta RS, Knight JF, Ediriwickrema J, Lyon JG, Worthy LD. 2006. Land-cover change detection using multi-temporal MODIS NDVI data. Remote Sens Environ. 105:142–154.10.1016/j.rse.2006.06.018
  • Lyon JG, Yuan D, Lunetta RS, Elvidge CD. 1998. A change detection experiment using vegetation indices. Photogramm Eng Remote Sens. 64:143–150.
  • Madani AA. 2005. Soil salinity detection and monitoring using landsat data: a case study from Siwa Oasis, Egypt. GIsci Remote Sens. 42:171–181.10.2747/1548-1603.42.2.171
  • Malash N, Flowers T, Ragab R. 2005. Effect of irrigation systems and water management practices using saline and non-saline water on tomato production. Agric Water Manage. 78:25–38.10.1016/j.agwat.2005.04.016
  • Mancino G, Nolè A, Ripullone F, Ferrara A. 2014. Landsat TM imagery and NDVI differencing to detect vegetation change: assessing natural forest expansion in Basilicata, southern Italy. iForest-Biogeosci For.7:75–84.10.3832/ifor0909-007
  • Mas J-F. 1999. Monitoring land-cover changes: a comparison of change detection techniques. Int J Remote Sens. 20:139–152.10.1080/014311699213659
  • Matinfar HR, Panah SKA, Zand F, Khodaei K. 2013. Detection of soil salinity changes and mapping land cover types based upon remotely sensed data. Arab J Geosci. 6:913–919.10.1007/s12517-011-0384-6
  • Menenti M, Lorkeers A, Vissers M. 1986. Application of thematic mapper data in Tunisia: estimation of daily amplitude in near-surface soil temperature and discrimination of hypersaline soils. ICW technical bulletin new series. 54, Netherlands.
  • Meng L, Zhou S, Zhang H, Bi X. 2016. Estimating soil salinity in different landscapes of the Yellow River Delta through Landsat OLI/TIRS and ETM+ Data. J Coast Conservation. 20:271–279.10.1007/s11852-016-0437-9
  • Metternicht G, Zinck A. 2008. Remote sensing of soil salinization. New York (NY): CRC Press.10.1201/9781420065039
  • Mostafazadeh-Fard B, Heidarpour M, Aghakhani A, Feizi M. 2008. Effects of leaching on soil desalinization for wheat crop in an arid region. Plant Soil Environ. 54:20–29.
  • Tripathi N, Rai BK, Dwivedi P. 1997. Spatial modelling of soil alkalinity in GIS environment using IRS data. Proceedings of the 18th Asian Conference on Remote Sensing ACRS; 1997 Oct 20–25, Kuala Lumpur, Malaysia.
  • Nawar S, Buddenbaum H, Hill J, Kozak J. 2014. Modeling and mapping of soil salinity with reflectance spectroscopy and Landsat data using two quantitative methods (PLSR and MARS). Remote Sens. 6:10813–10834.
  • Nield S, Boettinger J, Ramsey R. 2007. Digitally mapping gypsic and natric soil areas using Landsat ETM data. Soil Sci Soc Am J. 71:245–252.10.2136/sssaj2006-0049
  • Pallé E, Rodríguez PM. 2010. The earth as a distant planet: a Rosetta stone for the search of earth-like worlds. New York (NY): Springer Science & Business Media.
  • Pitman MG, Läuchli A. 2002. Global impact of salinity and agricultural ecosystems. In: Läuchli André, Lüttge Ulrich, editors. Salinity: environment-plants-molecules. Netherlands: Springer; p. 3–20.
  • Platonov A, Noble A, Kuziev R. 2013. Soil salinity mapping using multi-temporal satellite images in agricultural fields of Syrdarya Province of Uzbekistan. In: Shahid Shabbir A, Abdelfattah Mahmoud A, Taha Faisal K, editors. Developments in soil salinity assessment and reclamation: innovative thinking and use of marginal soil and water resources in irrigated agriculture. Netherlands: Springer; p. 87–98.
  • Price JC. 1987. Calibration of satellite radiometers and the comparison of vegetation indices. Remote Sens Environ. 21:15–27.10.1016/0034-4257(87)90003-4
  • Raes D, Smith M, De Nys E, Holvoet K, Makarau A. 2002. Charts with indicative irrigation intervals for various weather conditions. Proceedings of the Workshop FAO-ICID on Irrigation Advisory Services and Participatory Extension in Irrigation Management; Citeseer, Montreal, Canada.
  • Rahimi S, Gholami Sefidkouhi MA, Raeini-Sarjaz M, Valipour M. 2015. Estimation of actual evapotranspiration by using MODIS images (a case study: Tajan catchment). Arch Agron Soil Sci. 61:695–709.10.1080/03650340.2014.944904
  • Ramoliya P, Pandey A. 2003. Soil salinity and water status affect growth of Phoenix dactylifera seedlings. N Z J Crop Hortic Sci. 31:345–353.10.1080/01140671.2003.9514270
  • Sader SA, Winne JC. 1992. RGB-NDVI colour composites for visualizing forest change dynamics. Int J Remote Sens. 13:3055–3067.10.1080/01431169208904102
  • Shrestha R. 2006. Relating soil electrical conductivity to remote sensing and other soil properties for assessing soil salinity in northeast Thailand. LDD. 17:677–689.
  • Sinha P, Kumar L. 2012. Binary images in seasonal land-cover change identification: a comparative study in parts of New South Wales, Australia. Int J Remote Sens. 34:2162–2186.
  • Sinha P, Kumar L. 2013. Independent two-step thresholding of binary images in inter-annual land cover change/no-change identification. J Photogramm Remote Sens. 81:31–43.10.1016/j.isprsjprs.2013.03.010
  • Smits PC, Dellepiane SG, Schowengerdt RA. 1999. Quality assessment of image classification algorithms for land-cover mapping: a review and a proposal for a cost-based approach. Int J Remote Sens. 20:1461–1486.10.1080/014311699212560
  • Sparks DL. 2013. Environmental soil chemistry. London: Elsevier Science.
  • Sperling O, Lazarovitch N, Schwartz A, Shapira O. 2014. Effects of high salinity irrigation on growth, gas-exchange, and photoprotection in date palms (Phoenix dactylifera L., cv. Medjool). Environ Exp Bot. 99:100–109.10.1016/j.envexpbot.2013.10.014
  • Tripler E, Ben-Gal A, Shani U. 2007. Consequence of salinity and excess boron on growth, evapotranspiration and ion uptake in date palm (Phoenix dactylifera L., cv. Medjool). Plant Soil. 297:147–155.10.1007/s11104-007-9328-z
  • Tucker CJ. 1979. Red and photographic infrared linear combinations for monitoring vegetation. Remote Sens Environ. 8:127–150.10.1016/0034-4257(79)90013-0
  • Turhan H, Genc L, Smith S, Bostanci Y, Turkmen O. 2010. Assessment of the effect of salinity on the early growth stage of the common sunflower (Sanay cultivar) using spectral discrimination techniques. Afr J Biotechnol. 7: 750–756.
  • İlsever M, Ünsalan C. 2012. Pixel-based change detection methods. In: Two-dimensional change detection methods. London: Springer; p. 7–21.10.1007/978-1-4471-4255-3
  • Valipour M. 2014. Drainage, waterlogging, and salinity. Arch Agron Soil Sci. 60:1625–1640.
  • Vicente-Serrano SM, Pérez-Cabello F, Lasanta T. 2008. Assessment of radiometric correction techniques in analyzing vegetation variability and change using time series of Landsat images. Remote Sens Environ. 112:3916–3934.10.1016/j.rse.2008.06.011
  • Wang H, Jia G. 2012. Satellite-based monitoring of decadal soil salinization and climate effects in a semi-arid region of China. Adv Atmos Sci. 29:1089–1099.10.1007/s00376-012-1150-8
  • Wang L, Chen J, Gong P, Shimazaki H, Tamura M. 2009. Land cover change detection with a cross-correlogram spectral matching algorithm. Int J Remote Sens. 30:3259–3273.10.1080/01431160802562164
  • Wolter PT, Mladenoff DJ, Host GE, Crow TR. 1995. Improved forest classification in the Northern Lake States using multi-temporal Landsat imagery. Photogramm Eng Remote Sens. 61:1129–1144.
  • Wu W, Mhaimeed AS, Al-Shafie WM, Ziadat F, Dhehibi B, Nangia V, De Pauw E. 2014. Mapping soil salinity changes using remote sensing in Central Iraq. Geoderma Regional. 2–3:21–31.10.1016/j.geodrs.2014.09.002
  • Yang X, Lo C. 2000. Relative radiometric normalization performance for change detection from multi-date satellite images. Photogramm Eng Remote Sens. 66:967–980.
  • Yuan D, Elvidge CD. 1996. Comparison of relative radiometric normalization techniques. J Photogramm Remote Sens. 51:117–126.10.1016/0924-2716(96)00018-4

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