Vol. 6, No. 4, Winter 2015 Iranian Remote Sensing & - * ph. * Email: zohre_ebrahimi@hotmail.com
. Tasseled cap ETM+ 2. Advanced Space borne Thermal Emission and Reflection Radiometer 3. Gutierrez and Johnsin 4. Enhanced Thematic Mapper Plus 5. Wu
LISS-III LISS-III. ETM+ PLSR ANN ETM+ MICD RUSLE ESAs. 1. Partial Least Squares Regression 2. Artificial Neural Network 3. Modified Iranian Classification of Desertification 4. FAO-UNEP 5. Depaola 6. Revised Universal Soil Loss Equation 7. Environmentally Sensitive Areas
MEDALUS MICD IMPDA 1. Mediterranean Desertification and Land Use 2. Iranian Model for Desertification Potential Assessment
EC ph GPS 1. Global Positioning System
FLAASH ETM
RMSE RE n Das, 2000 RMSE PC10-14 PC123 SP EC CO32- HCO3 cl- Mg2+ Ca2+ K+ Na+ ph 1. Stepwise 2. Relative Error 3. Root Mean Square of Error 4. Correlation Coefficient 5. Density Slicing
RMSE 2
Green & Stephenson, 1986 Mg Ca K cl2 HCO32 TNV1 SP PH Silt1 Clay2 Sand Gypsum3 1. Apan 2. Kumar 3. Al-Khaier 4. Nield
PH1 SP1 TNV1 TNV2 TNV3 HCO3(1) HCO3(2) Cl1 Cl2 K Ca Mg Gypsum1 Gypsum2 Gypsum3 sand Clay1 Clay2 Silt1 Silt2
Masoud, 2006 PH clay SP Silt
I1 (TNV+K) I2 (TNV+HCO3) I3 (K+HCO3) I4 (TNV+HCO3+K) I1 I2 I3 I4 IRS-LISSIII 1. Gaps
ETM LISIII ETM+ Abdelfattah, M., Shahid, Sh. & Othman, Y., 2009, Soil Salinity Mapping Model Developed using RS and : A case study from Abu Dhabi, United Arab Emirates, European Journal of Scientific Research, Vol. 26, No. 3, PP. 342-351. Al-Khaier, F., 2003, Soil Salinity Detection using Satellite Remote Sensing, M.Sc. Thesis The International Institute for Geoinformation Science and Earth Observation ITC, The Netherlands.
Apan, A., Kelly, R., Jensen, T., Butler, D., Gutierrez, M. & Johnsin, E., 2010, Temporal Strong, Wand Basnet, B., 2002, Spectral Variation of Natural Soil Salinity in an Arid Environment using Satellite Images, Discrimination and Seperability Analysis Das of Agricultural Crops and the Soil Attributes Using Imagery, 11 Australian Remote Sensing and Journal of South American Earth Scienc, Photogrammetry Association Conference, ISBN 0-9581366-0-2.397. Kumar Joshi, P.K., Roy, P.S., Singh, S., Agrawal, S. & Yadav, D., 2006, Vegetation Vol. 30, No.1, PP. 46-57. Conservation Engineering, Prentice-Hall Cover Mapping in India using Multitemporal IRS Wide Field Sensor (WiFS) Data, Remote Sensing of Environment, Vol. of India Press, P. 489. 103, PP. 190-202. G., 2000, Hydrology and Soil Depaola, F., Ducci, D & Giugni, D., 2009, Soil Masoud, A.A. & Koike, K., 2006, Arid Land Erosion and Desertification: A Combined Salinization Detected by Remotely-sensed Approach Using RUSLE and ESAS Models in the Tuscianobasin (southern Italy), Geophysical Research Abstracts, Vol. 11, PP. 5083. Land Cover Changes: A case study in the Siwa region NW Egypt, Journal of Arid Environments. Vol. 66, No. 1, PP. 151 167. Nield, S.J., Boettinger, J.L. & Ramsey, R.D., Farifteh, J., Van der Meer, F., Atzberger, C. & Carranza, E.J.M., 2007, Quantitative Analysis of Salt-affected Soil Reflectance Spectra: A comparison of two adaptive methods (PLSR and ANN), Remote Sensing 2007, Digitally Mapping Gypsic and Natric Soil Areas Using Landsat ETM Data, Soil Science Society of American Journal, Vol. 71, PP. 245-252. Wu, J., Vincent, B., Yang, J., Bouarfa, S. & of Environment, Vol. 110, PP. 59-78. Vidal, Green I.R.A. & Stephenson D., 1986, Criteria for Comparison of Single Event Model, Hydrological Sciences Journal, Vol. 31, No. 3, PP. 395-411. A., 2008, Remote Sensing Monitoring of Changes in Soil Salinity: A case study in Inner Mongolia, China, Journal of Sensors, 8: 7035-7049. DOI: 10.3390/s8117035.