Journal of Remote Sensing GIS & Technology

Remote Sensing and Geographical Information System (GIS) offers an unlimited opportunity
to screen and direct regular resources at multi-transient, multi-spooky and multi-spatial
assurance. It is a desperate need to appreciate the particular capacities of a reliably
broadening show of picture sources and examination procedures for trademark resource
overseers. In this overview, we gather the diverse employments of remote identifying and GIS
gadgets that can be used for normal resource organization (cultivation, water, timberland,
soil, regular risks). The information is significant for the basic resource managers to
appreciate and more effectively collaborate with remote distinguishing specialists to make
and apply remote sensing science to finish checking objectives.

Baret, F., Houles, V., &Guérif, M., 2007. Quantification of plant stress using remote sensing observations and crop models: the case of nitrogen management. Journal ofExperimental Botany, 58(4), 869-880.

Bastiaanssen, W.G.M., Menenti, M., Feddes, R.A. &Holtslag, A.A.M., 1998. A remote sensing surface energy balance algorithm for land (SEBAL), part 1: formulation, Journal of Hydrology, 212-213,198-212.

Dadi, Sanyasinaidu. (2015). USE OF GIS IN HYDROLOGICAL INVESTIGATIONS. INTERNATIONAL JOURNAL OF MULTIDISCIPLINARY ADVANCED RESEARCH TRENDS. .

Dadi, Sanyasinaidu. (2017). concept of geographic information system for a geoinformatics engineer. Volume 4. .

Dadi, Sanyasinaidu. (2015). USE OF GIS IN HYDROLOGICAL INVESTIGATIONS. INTERNATIONAL JOURNAL OF MULTIDISCIPLINARY ADVANCED RESEARCH TRENDS. .

Dele´colle, R., Maas, S.J., Gue´rif, M., &Baret, F., 1992. Remote sensing and crop production models: present trends. 1991/01/ 14-18. ISPRS J. Photogram. RemoteSensing (NLD)47(2–3), 145–161.

Gopal Krishan .KushwahaS.P.S..&Velmurugan, A. 2009. Land Degradation Mapping in the Upper Catchment of River Tons J. Indian Soc. Remote Sens.37:49–59

Hengl, T., Heuvelink, G.B.M. & Stein, A., 2004. A generic framework for spatial prediction of soil variables based on regression-kriging. Geoderma,120 (1-2): 75-93.

Liu Z., Ostrenga D., Teng W., &Kempler S., 2012. Tropical Rainfall Measuring Mission (TRMM) Precipitation Data and Services for Research and Applications. Bull. Amer. Meteor. Soc., 93, 1317–1325. doi: http:// dx.doi.org/10.1175/BAMS-D-11-00152.1.

Melesse, A., & Wang, X., 2007. Impervious Surface Area Dynamics and Storm Runoff Response. Remote Sensing of Impervious Surfaces; CRC Press/Taylor & Francis, 19, 369-384.

NAIDU, DADI SANYASI. "USE OF GIS IN HYDROLOGICAL INVESTIGATIONS."

Ritchie, J.C., F.R. Schiebe, C.M. Cooper, & J.A. Harrington, Jr., 1994. Chlorophyll measurements in the presence of suspended sediment using broad band spectral sensors aboard satellites, Journal ofFreshwater Ecology, 9(2):197–206.

Steininger,M.K., 1996. Tropical secondary forest regrowth in the Amazon: age, area and change estimation with Thematic Mapper data. InternationalJournal of Remote Sensing 17, 9–27.

Sun A.Y., 2013. Predicting groundwater level changes using GRACE data. Water Resource Research, 49 (9):1944-7973. DOI: 10.1002/wrcr.20421.

Tan, G. &Shibasaki, R., 2003. Global estimation of crop productivity and the impacts of global warming by GIS and EPIC integration. Ecological Modelling,168 (3), 357-370.

Van Westen,C.J., 2000. International Archives of Photogrammetry and Remote Sensing. Vol. XXXIII, Part B7. Amsterdam.

Wiegand, C.L., Richardson, A.J., Jackson, R.D., Pinter, P.J., Jr., Aase, J.K., Smika, D.L., Lautenschlager, L.F. &McMurtrey, J.E., III, 1986. Development of agrometeorological crop model inputs from remotely sensed information. IEEE Trans. Geosci. Remote Sens., GE-24: 90-98.