Full text: Remote sensing for resources development and environmental management (Volume 2)

754 
For studying other sub-surface parameters of interest 
to the coastal-zone planners, like the organic pro.» 
ductivity and the salinity, there has been no effort 
in Norway until recently towards using satellite rem 
ote sensed data for this purpose. Results from abroad 
indicate that there is a correlation between these 
parameters and the surface temperature. Based upon 
these results, today there exists plans in the Tromsp 
remote sensing community for pilot projects related 
to studies concerning the suitability of TM data for 
such applications.... 
Symposii 
Satellit 
for futi 
Jouko T.F 
Jet Propulsic 
REFERENCES 
Dalu, P. et.al. 1979. An improved Scheme for the Rem 
ote Sensing of Sea Surface Temperature, NASA Tech 
nical Memorandum 80322. 
Kneizys, F.X. 1983. Atmospheric Transmittance/Radi- 
ance: Computer Code LOWTRAN 6, AFGL-TR_-83-0187. 
Maul, G.A. 1981. Application of GOES Visible-Infrared 
Data to Quantifying Mesoscale Ocean Surface Tempe 
ratures, J. Geophys. Res., Vol. 86, C9. 
McClain, E.P. 1980. Multiple Atmospheric-Window Tech 
niques for Satellite-Derived Sea Surface Temperatur 
es, Proceedings of COSPAR Symposium, Oceanography 
from Space, Venice, Italy, May 26-30. 
McClatchey, R.A. et.al. 1972. Optical properties of 
the atmosphere* AFCRL-72-0497. 
NASA, 1984. A Prospectus for Thematic Mapper Research 
in the Earth Sciences, NASA Technical Memorandum 
86149. 
Njoku, E.G. et.al. 1985. Advances in Satellite Sea 
Surface Temperature Measurements and Oceanographic 
Applications, J. Geophys. Res., Vol. 90, C6. 
Pedersen J.P. 1982. Atmospheric Effects on Infrared 
Satellite Measurements of Sea Surface Temperatures, 
Cand. thesis., University of Troms0 (in Norwegian). 
Prabhakara, C. et.al. 1974. Estimation of Sea Surface 
Temperatures from Remote Sensing in the 11- to 13 
um Window Region, J. Geophys. Res., Vol. 79, 33. 
Roberts, R.E. 1976. Infrared Continuum Absorption by 
Atmospheric Water Vapor in the 8-12 um Window, 
Appl. Opt., Vol. 15, 9. 
Schwalb, A. 1978. The TIROS-N/NOAA Satellite Series, 
NOAA Technical Memorandum NESS 95. 
Smith, W.L. et.al. 1970. The Determination of Sea- 
Surface Temperature from Satellite High Resolution 
Infrared Window Radiation Measurements, Mon. Wea. 
Rev., Vol. 98, No. 8. 
Wark, D.Q., Fleming, H.E. 1966. Indirect Measurements 
of Atmospheric Temperature Profiles from Satellites: 
1. Introduction, MOn. Wea. Rev., Vol. 94. 
Wark, D.Q. et.al. 1974. Satellite Observations of 
Atmospheric Water Vapor, Appl. Opt., Vol. 13, No. 3. 
Weinreb, M.P., Hill, M.L. 1980. Calculation of Atmos 
pheric Radiances and Brightness Temperatures in 
Infrared Window Channels of Satellite Radiometers, 
NOAA Technical Report NESS 80. 
Weinreb, M.P., Neuendorffer, A.C. 1973. Method to Ap 
ply Homogenous Path Transmittance Models to Inhomo- 
genous Atmospheres, J. Atmosph. Sci., Vol. 30., p. 
662-666. 
ABSTRACT: C 
data in aqu 
factors cri 
shallow Fin 
in water (c 
possible on 
life-forms 
vised class 
been used t 
periods of 
The limit 
critical su 
poor ground 
possibiliti 
be importan 
1. INTRODU 
Different 1 
the few m 
forming a n 
ties of met 
object of i 
utilization 
of water ar 
and as a sc 
dumping pla 
information 
obtained a: 
satellite < 
such data. 
The Lam 
aquatic are 
green and ] 
variations 
Finnish lak 
of metres w 
radiation o 
uppermost c 
frared chai 
within the 
spectively. 
water colum 
channels. 
The prese 
aquatic re 
parametric 
evaluations 
various wat 
2. WATER Q 
Laborious a 
attempts ar 
changes ove 
field work, 
aided analy 
areas wher< 
place. Coi
	        
Waiting...

Note to user

Dear user,

In response to current developments in the web technology used by the Goobi viewer, the software no longer supports your browser.

Please use one of the following browsers to display this page correctly.

Thank you.