IAPRS & SIS, Vol.34, Part 7, "Resource and Environmental Monitoring", Hyderabad, India,2002 
  
References: 
I Foedler, P.C., Smith, G. B., and Laurs, R.M., 1987, 
Fisheries applications of satellite data in the eastern 
North Pacific, Mar. Fish. Rew. 46, 1-13. 
2. Gordon, H.R. and Clark, D.K., 1980, Atmospheric 
effect in the remote sensing of the phytoplankton 
pigments. Boundary Layer Meteorology, 18, 229-313. 
3. Lasker, R., Pelaez J. and Laurs, R.M., 1981, The use of 
satellite infrared imagery for describing ocean processes 
in relation to spawning of northern anchovy. Remote 
Sensing of Environment, 11, 439-453. 
4. Laurs, R. M., Fielder, P. C. and Montgomery, D. R., 
1984, Albacore tuna catch distribution relative to 
environmental features observed from satellite. Deep 
Sea Research, 31,1085-1099. 
S. Majumdar T. J. and Bhattacharya B.K., 1991, 
Extraction of shore line change and drainage patterns 
from aerial pass — an attempt to automization of 
threshold setting, Pattern Recongnition, 24, 155-168. 
6. O'Reilly J E, Maritonena, Mitchell B G, Siegal D A, 
Carder K L, Graver S A, Kahru M and McClain C R, 
1998, Ocean color chlorophyll algorithms for SeaWiFs 
J. Geophys. 103, 24937-24963. 
7. Solanki, H.U., Dwivedi, R.M. and Nayak, S.R., 2000, 
Generation of composite image using OCM chlorophyll 
and NOAA AVHRR SST for locating potential fishing 
grounds. In Proceedings PORSEC 2000 vol II, 669-672. 
8. Solanki, H.U., Dwivedi, R.M. and Nayak, S.R., 2001b, 
Synergistic analysis of SeaWiFS chlorophyll 
concentration and NOAA-AVHRR SST features for 
exploring marine living resources. International 
Journal of Remote Sensing, 22, 3877-3882. 
9. Solanki H.U., Dwivedi R.M., Nayak S.R. Jadeja J.V., 
Thaker D.B., Dave H.B. and Patel M.I., Application of 
ocean colour monitor chlorophyll and AVHRR SST for 
fishery forecast Preliminary validation result off 
Gujarat Coast, northwest coast of India. Indian Jr. Mar. 
Sci. 30 (20012), 132-138. 
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