AERIAL SURVEY QF WATER QUALITY: AN INDIAN CASE STUDY 
S.Thiruvengadachari, N,G.Inamdar, S.V.Kotbagi, 
H,Tambralli and B,L,Deekshatulu 
1. INTRODUCTION 
The encouraging results from recent investigations (Scherz 
1977, Moore 1978, Piech et al 1978, Mckeon, Rogers and Smith 1977, 
Blackwell 1979) on remote sensing of water quality coupled with 
the availability of expertise and equipment led National Remote 
Sensing Agency (NRSA) to initiate a project to evaluate the use of 
remote sensing techniques for monitoring water quality. A major 
objective of the project was the assessment of the capabilities 
and limitations of this new technology in regard to Indian water 
quality surveys. The investigation centered around the weed infes- 
ted Husainsagar Lake in Hyderabad city (Fig.1) and the stretch of 
Godavari river upstream of Rajahmundry town (Fig.2) where the eff- 
luent from the nearby paper mill enters the river system.  Labora- 
tory and boat level spectral studies coupled with appropriate 
water sampling were conducted first to obtain a clear understand- 
ing of energy - water interaction under controlled and field envi- 
ronments. The culmination of the project was in the aerial sca- 
nner-cum-camera surveys condueted over Husainsagar lake and Goda- 
vari river during April 1981 at the time of maximum pollution con- 
ditions. Colour coded water quality maps were generated for these 
two areas. This paper presents some of the important results ob- 
tained in this project, details of which were reported in the 
final report submitted in July 1981 to the Indian Space Research 
Organisation which sponsored this investigation. 
2. BOAT LEVEL INVESTIGATION 
Boat level investigations were extensively conducted to obtain 
a clear understanding of the energy-water interaction in the field 
environment, to precede the crucial aerial surveys. Spectral mea- 
surements were obtained using a variety of instruments such as the 
Exotech radiometer, quantaspectrometer, Barnes Spectralmaster etc. 
Simultaneous water sampling enabled correlation of the spectral 
response to the quality of water. Though the use of secchi disc 
depth as a measure of turbidity has been on the decline, it can 
still be a useful fielà measure of the water clarity. The second 
depth was found to be related to turbidity which is related to 
suspended solids. The secchi depth measurement is however affec- 
ted by the type of day, cloud cover, acuity of observer's vision 
etc. Quantaspectrometer and secchi depth measurements were com- 
bined in a theoretical model for bottom reflectance to yield a 
criterion for selection of sample points where the bottom reflec- 
ted radistion may be safely ignored (Fig.3). Sample points were 
to be chosen at locations with total depth exceeding twice the 
secchi disc depth. Spectral measurements in Husainsagar clear ard 
Codavari river clear waters indicated that the difference in the 
attenuation characteristics is essentially due to the colour of 
water and hence in the absorption characteristics. The propor- 
tional relationship between secchi depth and backscatter contrary 
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