REMOTE SENSING GPS AND GIS IN AGRICULTURE
Keywords:
Agriculture,, Remote Sensing, GIS (Geographic Information System, GPS (Global Positioning System)Abstract
Remote sensing and GIS concepts are important components in agriculture. GPS is being used to achieve precision farming and enables farm planning, field mapping, soil sampling, crop scouting, and yield mapping.GPS also allows farmers to work during low visibility field conditions such as rain, dust, fog and darkness. By using GPS, one can track data of our agriculture fields which includes the slope of the field, Nutrients of crops, yield assessment of our crop. We can also track continuously calculates and records the correct position. By this, it can create a large database for its users. GIS is also required for further analysis, by which one can store and handle data that is collected by GPS. This paper will discuss how using remote sensing, GIS and GPS, one can improve our agricultural practices and can bring changes towards agricultural fields.
References
Abha Chhabra, K.R. Manjunath, Sushma Panigrahy, Non-point source pollution in Indian agriculture (2010), Estimation of nitrogen losses from rice crop using remote sensing and GIS.
Acharya S.M, Pawar S.S, Wable N.B (2018). Application of Remote Sensing & GIS in Agriculture. Research and Science (IJAERS) [Vol-5, Issue-4, Apr- 2018
Akshay Mehta; Monish Masdekar, Precision Agriculture – A Modern Approach To Smart Farming: International Journal of Scientific & Engineering Research Volume 9, Issue 2, February2018. ISSN 2229-5518.
Bambang Riadi, Rizka Windiastuti, and Aninda W. Rudiastuti (2018). Spatial Modeling for Selection of Agricultural Potential Site. (IJAERS) [Vol-5, Issue-9
Taloor, A. K., Meraj, G., Kanga, S., Singh, S. K., Đurin, B., & Anand, S. (2021). Climate vulnerability and economic determinants: Linkages and risk reduction in Sagar Island, India; A geospatial approach. Quaternary Science Advances.
Bhatt, C. M., et al. "Satellite-based assessment of the catastrophic Jhelum floods of September 2014, Jammu & Kashmir, India." Geomatics, Natural Hazards and Risk (2017): 309-327.
Deepak Gupta, Amit Kushwaha, Mohammad Sikander, Shushma Trivedi, Precision Agriculture for Drip Irrigation Using Microcontroller and GSM Technology. Int. Journal of Engineering Research and Applications, www.ijera.com, Vol. 4, Issue 6( Version 5), June 2014, pp.229-233.
H K Shivanand , Puneeth P, MeghaShree K.A. (2020). Analysis on Application of GIS and GPS in Sugarcane Agriculture. Int J Sci Res Sci & Technol. November-December-2020; 7 (6) : 354- 357.
Goswami S.B., Matin S. Aruna Saxena G.D. Bairagi. A Review: The application of Remote Sensing, GIS and GPS in Precision Agriculture: International Journal of Advanced Technology & Engineering Research (IJATER). Volume 2, Issue 1, January 2012.
J., Kanga, S., Singh, S. K., & Sudhanshu, S. (2021). Cadastral level Soil and Water conservation Priority Zonation using Geospatial technology. International Journal of Agriculture System, 9(1), 10-26.
Joy, Jean, Shruti Kanga, and Suraj Kumar Singh. "Kerala flood 2018: flood mapping by participatory GIS approach, Meloor Panchayat." (2019): 197-205.
Kanga, S., Rather, M. A., Farooq, M., & Singh, S. K. (2021). GIS Based Forest Fire Vulnerability Assessment and its Validation using field and MODIS Data: A Case Study of Bhaderwah Forest Division, Jammu and Kashmir (India). Indian Forester, 147(2), 120-136.
Kanga, S., Sheikh, A. J., & Godara, U. (2020b). GIscience for Groundwater Prospect Zonation. Journal of Critical Reviews, 7(18), 697-709.
Kanga, Shruti, Sumit Kumar, and Suraj Kumar Singh. "Climate induced variation in forest fire using Remote Sensing and GIS in Bilaspur District of Himachal Pradesh." International Journal of Engineering and Computer Science .
Liaghat, S., and Balasundram S.K., 2010, A Review: The Role of Remote Sensing in Precision Agriculture. American Journal of Agricultural and Biological Sciences 5(1): 50-55.
“Impacts of Climate Change on Agriculture Sector using GIS Technology ISO 9001:2008 Certified Journal
Chauhan, land suitability and capability by integrating remote sensing and GIS for agriculture in Chamarajanagar district, Karnataka, India.
Nathawat, M. S., et al. "Monitoring & analysis of wastelands and its dynamics using multiresolution and temporal satellite data in part of Indian state of Bihar." International Journal of Geomatics and Geosciences 1.3 (2010): 297-307.
Pandey, A. C., Singh, S. K., & Nathawat, M. S. (2010). Waterlogging and flood hazards vulnerability and risk assessment in Indo Gangetic plain. Natural hazards, 55(2), 273-289.
Pandey, A. C., Singh, S. K., Nathawat, M. S., & Saha, D. (2013). Assessment of surface and subsurface waterlogging, water level fluctuations, and lithological variations for evaluating groundwater resources in Ganga Plains. International Journal of Digital Earth, 6(3), 276-296.
Salam, M.A., and Saha S.K., 1998, Crop Inventory using remote sensing and Geographical Information System (GIS) Techniques. Journal of Remote Sensing and Environment 2:
Shanmugapriya, S. Rathika, T. Ramesh and P. Janaki (2019). Applications of Remote Sensing in Agriculture - A Review. Int.J.Curr.Microbiol.App.Sci (2019) 8(1): 2270-2283.
Singh, S. K., & Pandey, A. C. (2014). Geomorphology and the controls of geohydrology on waterlogging in Gangetic Plains, North Bihar, India. Environmental earth sciences, 71(4), 1561-1579.
Singh, S. K., S. K. Mishra, and S. Kanga. "Delineation of groundwater potential zone using geospatial techniques for Shimla city, Himachal Pradesh (India)." International Journal for Scientific Research and Development 5.4 (2017b): 225-234
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