Agricultural Reviews

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Agricultural Reviews, volume 34 issue 3 (september 2013) : 223-229

ROLE OF REMOTE SENSING AND GIS IN LAND RESOURCE INVENTORY- A REVIEW

V. Kasthuri Thilagam, R. Sivasamy
1Central Rice Research Institute, Cuttak,
Cite article:- Thilagam Kasthuri V., Sivasamy R. (2024). ROLE OF REMOTE SENSING AND GIS IN LAND RESOURCE INVENTORY- A REVIEW. Agricultural Reviews. 34(3): 223-229. doi: 10.5958/j.0976-0741.34.3.007.

ABSTRACT

Soil and water are important natural resources needed for the sustained quality of human life and the foundation of agricultural development. Efficient management of these natural resources is the major challenge for the agricultural scientists, planners, administrators and farmers to ensure food, water and also environmental security for the present and future generations. Soil is the essence of life. An intimate knowledge on their characteristics, classification, location, extent and distribution, potentials and problems is a prerequisite for developing rational land use planning. Soil resource inventory provides an insight into the potentialities and limitation of soil for its effective exploitation. Modern tools such as satellite Remote Sensing, Global Positioning System (GPS) and Geographical Information System (GIS) have been providing newer dimensions to monitor and manage soil resources for their effective utilization. Especially remote sensing techniques have reduced our field work to a considerable extent and soil boundaries are more precisely delineated than in conventional methods. Hence it is a highly proven technology that is effective for mapping and characterizing land resources.

REFERENCES

  1. Ageeb, G.W., Kotb M.M. and Rahim I.S.. (2007). Soil mapping of Wadi Hodein Area, Southeastern Egypt Using Remote Sensing and GIS Techniques. Aust. J. Basic Appl. Sci., 1 (4): 793-800.
  2. Ali, R.R. and Kotb M.M. (2010). Use of satellite data and GIS for Soil Mapping and Capability Assessment. Nature and Science. 8(8):104-115.
  3. Anil Sood, Sharma P.K., N.S. Tur and V.K.Nayyar. (2009). Micronutrient status and their spatial variability in soils of Muktsar. J. Indian Soc. Soil Sci., 57: 300-306.
  4. Bandyopadhyay, S., Jaiswal R.K., Hegde V.S. and Jayaraman V.. (2009). Assessment of land suitability potentials for agriculture using a remote sensing and GIS based approach. Int J Remote Sens., 30(4): 879–895.
  5. Bisht, B.S. and B.P. Kothyari. (2001). Land-cover change analysis of Garur Ganga watershed using GIS/ Remote sensing technique. J. Indian Soc. Rem. Sens., 29(3): 137-141.
  6. Chatterjee.S., Pande L.M., Subramanian S.K., Shaha S.K. and Thambi C.J.. (1990). Soil physiographic relationship in Mahanadi delta (Part) using Landsat imagery. J. Indian Soc. Rem. Sens., 18(4): 15-23.
  7. Das, D.K., Bandyopadhyay S., Chakraborty D., Srivastava and Rajeev. (2009). Application of modern techniques in characterization and management of soil and water resources. J. Indian Soc. Soil Sci., 57(4):445-460.
  8. Dhillon, B. S., Kataria Poonam and Dhillon P. K.. (2010). National food security vis-à-vis sustainability of agriculture in high crop productivity regions. Current Science. 98(1): 33-36.
  9. Dhinwa, P.S., Pathan S.K., Sastry S.V.C., K.L. Mukund Rao, Majumder, M.L. Chotani, J. Premnath Singh and Sinha R.L. P.. (1992). Land use change analysis of Bharatpur district using GIS. J. Indian Soc. Rem. Sens., 20(4) : 236-250.
  10. Esther Shekinah, D., Saha S.K. and Rahman Rejaur. (2004). Land capability evaluation for land use planning using GIS. J. Indian Soc. Soil Sci., 52(3):232-237.
  11. Ghosh, K., Sen K., Rana U., Rao K.S. and Saxena K.G. (1996). Application of GIS for land use land cover change analysis in a mountainous terrain. J. Indian Soc. Rem. Sens., 24(3): 193-202.
  12. Gomathi, G. (2007). Land evaluation of Nagapattinam district using Remote sensing and GIS techniques. Ph.D., Thesis, Tamil Nadu Agriucltural University, Coimbatore.
  13. Goyal, V.P. Statinder Dev, Jegan Nath and Mahendra Singh. (1986). Remote sensing applications in the study of landuse and soils of Aeolian cover of the Western part of Haryana state. J. Indian Soc. Rem. Sens., 14 (2):79-86.
  14. Karale, R.L., Seshagiri K.V. Rao, and Singh A.N.. (1978). Evaluation of Landsat imagery for reconnaissance soil mapping; presented at A.P. Appreciation seminar, New Delhi, October, 1978.
  15. Krishna, N.D.R., Westinga E. and Huizing H.. (1999). Monitoring Land cover changes using geoinformatics in some communal lands of Zimbabwe. In: Geoinformatics Beyond 2000. p: 52-57.
  16. Kudrat, M., Sinha A.K. and Manchanda M.L. (2000). Multilevel Soil Mapping using IRS1C WiFS, LISS III and Pan Data. Indian Space Research Organisation, Bangalore, India.
  17. Maharana, P.C. and Nepal Singh. (2001). Characterization of degraded landforms in Balotra-Pachpadra area of arid Western Rajasthan using Remote Sensing Technique. J. Indian Soc. Soil Sci., 49 (1): 154-163.
  18. Manchanda, M.L., Kudrat M. and Tiwari A.K.. (2002). Soil survey and mapping using remote sensing. Tropical Ecology. 43(1): 61-74.
  19. Mandal, D. K. , Mandal C., Raja P. and Goswami S.N. (2010). Identification of suitable areas for aerobic rice cultivation in the humid tropics of eastern India. Curr Sci., 99(2) : 227-231.
  20. Minakshi, N.S. Tur, Nayyar V.K., Sharma P.K. and Sood A.K.. (2005). Spatial distribution of Micronutrients in soils of Patiala district- A GIS approach J. Indian Soc. Soil Sci., 53(3): 324-329.
  21. Mirajkar M.A. and Srinivasan T.R.. (1975). Landsat Photointerpretation for preparation of small scale maps through a multistage approach. Photonirvachak. 3: 87.
  22. Myint Soea, Krit Won-Inb, Isao Takashimac and Punya Charusirid. (2008). Lateritic soil mapping of the Phrae basin, northern Thailand using satellite data. Science Asia. 34 : 307-316
  23. Naidu, L.G.K., Srinivas S. and Ramesh Kumar S.C. (2009). Characterizing soil and climatic constraints for sustainable forest development in Karnataka using remote sensing and geographic information system. J. Indian Soc. Soil Sci., 57: 101-108.
  24. Palaniswami, C. (2000). GIS and Remote sensing Techniques for land degradation studies in Dharmapuri district of Tamil Nadu. Ph.D., Thesis, Tamil Nadu Agricultural University, Coimbatore.
  25. Patel, N.R., Prasad J. and Kumar S. (2001). Land capability assessment for land use planning using remote sensing and GIS. Agropedology. 11(1): 1-18.
  26. Prakasam, C. (2010). Land use and land cover change detection through remote sensing approach: A case study of Kodaikanal taluk, Tamil Nadu. Int. J. Geomat. Geosci., 1(2):150-158.
  27. Sehgal, J.L. and Sharma P.K. (1988). An inventory of degraded soils of Punjab (India) using remote sensing techniques. Soil Survey and Land Evaluation (UK). 8(3): 166-175.
  28. Sen, P., Majumdar K., and Sulewski G.. (2007). Spatial variability in available nutrient status in an intensively cultivated village. Better crops. 91(2): 10-11.
  29. Sen, P., Majumdar K., and Sulewski G. (2008). Importance of spatial nutrient variability mapping to facilitate SSNM in small land holding systems. Indian J. Fert., 4(11): 43-50.
  30. Sen, T.K., Pande L.M., Sehgal J.L., Maji A.K. and Chamuah G.S.. (1992). Satellite remote sensing in soil resource inventory of Dibrugarh district (part), Assam. J. Indian Soc. Rem. Sens., 20(2&3): 95-104.
  31. Sharma, J.C. and Chaudhary Sanjeev K.. (2008a). Land productivity and site suitability assessment for crop diversification using remotely sensed data and GIS techniques. Agropedology. 18(1):1-11.
  32. Sharma, P.K., Sood Anil, Setia R.K., Tur N.S., Mehra Deepak and Harpinder Singh. (2006). Mapping of macronutrients in soils of Amritsar district (Punjab) – A GIS approach. J. Indian Soc. Soil Sci., 56:34-41.
  33. Sharma, R.C. and Bhargava G.P.. (1993). Remote sensing for assessing the distribution and characteristics of saline and alkali soils in Haryana. Agropedology. 3: 95-104.
  34. Sharma. P.K., sood Anil, Setia R.K., Verma V.K., Mehra Deepak, N.S.Tur and V.K.Nayyar. (2006b). Use of information technology for mapping of DTPA-extractable micronutients in soils of Amritsar District, Punjab. J. Indian Soc. Soil Sci., 54(4): 465-474.
  35. Shiva Prasad, C.R., Reddy R.S., Srinivasan T.R. and Prabhakaren. (1988). Mapping of wastelands of Kolar district using FCC of TM data. J. Indian Soc. Rem. Sens., 16(4): 37-41.
  36. Singh, I.J., Singh S.K., Kushwah S.P.S., Ashutosh S. and Singh R.K.. (2004). Assesment and monitoring of estuarine mangrove forests of Goa using satellite remote sensing. J. Indian Soc.Rem. Sens., 32(2):167-174.
  37. Sivakumar, K. (1999). Investigation of soil and water resources of sugarcane growing areas of Kancheepuram taluk, Tamil Nadu. M.Sc. Thesis, Tamil Nadu Agricultural University, India.
  38. Sivasamy, R., Natarajan S., Ramaswami C., Mohamed Ali A. and Palaniswami K.. (1998). GIS for farm level development planning. In: Proceedings of ISRS National Symposium on remote sensing and GIS for natural resource management. Hyderabad. p:85-89.
  39. Somasundaram, J., Natarajan S., Mathan K.K. and Arunkumar V.. (2000). Soil resource appraisal in lower Vellar basin, Tamil Nadu, India using remote sensing techniques. Int. Arch. Photogrammet. Rem. Sens., 33 : 623-628
  40. Srivastava, R. and Saxena R.K.. (2003). Technique of large scale soil mapping in basaltic terrain using satellite remote sensing data. Int. J. Rem. Sens., 24 (21) : 4187 –4194.
  41. Suresh Kumar and Mitra D.. (1999).Application of geographic information system in soil productivity assessment and mapping. Agropedology. 9: 125-130.
  42. Velayutham, M. (1999). Available soil information and the need for a systematic classification of soils of India. J. Indian Soc. Soil Sci.,48 (4):683–689.
  43. Velmurugan, A. and Carlos G. Guitten. (2009). Soil resources assessment and mapping using remote sensing and GIS. J. Indian Soc. Rem. Sens., 37: 511-525.
  44. Vijay Kumar, Rai S.P. and Rathore D.S.. (2004). Land use mapping of Kandi belt of Jammu region. J. Indian Soc. Rem. Sens., 32(4): 323-328.
  45. Walia, C.S., Singh S.P., Dhankar R.P., Ram J., Kamble K.H. and Katiyar D.K.. (2010). Watershed characterization and soil resource mapping for land use planning of Moolbari Watershed, Shimla District, Himachal Pradesh in Lesser Himalayas. Current Science. 98(2):176-182.
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