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number of steps in the last 10 years to conserve and 
manage these mangrove on a sustainable basis. 
However, many of their attempts proved futile and two 
factors, along with others, responsible for this are 
e lack of information as the degree to which this 
mangrove wetland is degraded and 
e lack of information on the true causes for 
degradation. 
Remotely sensed data played a crucial role in solving the 
above two problems. 
2.4 Assessment of degree of degradation of Picha- 
varam mangrove using remotely sensed data 
The Pichavaram mangrove forest is declared as a 
reserve Forest in 1897 and during that time the total area 
of the mangrove forest was about 700 ha. However, due 
to various reasons, the extent of this mangrove forest 
has degraded drastically. Though, the Government 
management agencies were aware of the degradation, 
they were unable to quantify the area of the degraded 
mangrove since conventional method of surveying was 
not possible in the mangrove wetlands. This lack of 
information, along with other reasons, impaired the 
Government agencies to prepare a reliable conservation 
and management plan. However, using Indian Remote 
Sensing Satellite (IRS) data, it was found that nearly 
62.896 of the Pichavaram mangrove forest was degraded 
between the years 1897 and 1994 (Figure.1a & 1b) and 
the rate of degradation was about 5 ha per year. The 
above information was passed on to the Government 
agencies which made them to realise the urgency for the 
restoration and conservation of this important 
mangroves. Now, the Government agency is also using 
remotely sensed data to analyse the extent of 
degradation in other mangrove of Tamil Nadu. 
2.2 Analysis of the causes for the degradation of 
Pichavaram mangroves using remote sensing 
It was considered both by the Government agencies and 
research Institutions working in the Pichavaram are that 
cattle grazing and illegal felling were the main causes for 
the degradation. However, remote sensing analysis by 
creating False Colour Composites (FCC), ratioed output, 
and vegetation indices showed that the degradation was 
severe in the middle portion. This indicated that apart 
from grazing and felling there could be some other 
reasons for degradation since if there two factors were 
alone responsible for degradation then the peripheral 
areas should have affected more rather than the central 
portion. This assumption led the M.S. Swaminathan 
Research Foundation to conduct intensive ecological 
studies which revealed: that changes in topgraphy into 
"rough" shaped and stagnation of tidal water in the 
trough were tha main cause for the degradation. Thus, 
for the first time one of the main causes for degradation 
was indentified and on the basis of which restoration 
techniques were developed and successfully 
demonstrated. 
2.3 Analysis of shoreline changes and its impact on 
. Mangroves 
The Pichavaram mangrove is being protected from wave 
action by a long stretch of sandy beach. However, 
comparison of Survey of India toposheet and. remote 
sensing imageries of IRS 1B LISS Il revealed that 
breadth of this beach reduced by 550m between 1930 
and 1970 (Figure 2) and about 150m betwween 1970 
and 1992 (Figure 3). The rate of erosion is about 
13m/year. This indicated that there is danger of the 
Pichavaram mangroves exposed directly to the open sea 
where the wave action is very high which will not allow 
the establishment and regeneration of mangrove plant 
genesis. Apart from these, comparison of topsheets and 
recent remote sensing imageries also indicate that which 
the Pichavaram mangroves erosion and sedimentation 
occurs simultaneously. This indicated by the 
enlargement of some islands and sedimentation of some 
of the tidal creeks and canals. All there will have severe 
impact on mangrove plant communities and 
hydrodynamics. 
Considering all the aspects explained, a long term 
management plan is being prepared for the Pichavaram 
mangroves in which both remotely sensed data and 
Geographic Information System are used extensively. On 
the basis of this experience similar kind of work is also 
being undertaken at Bhitarkanika mangrove of Orissa. 
(Figure.4) 
3. APPLICATION OF GEOGRAPHIC INFORMATION 
SYSTEM IN SOCIO- ECONOMIC STUDIES 
The application of Geographic In-formation System is 
spreading very widely in all disciplines. In MSSRF GIS is 
applied in evaluating various socio economic factors of 
Dharmapuri district of Tamil Nadu. The different factors 
in block level like Infant mortality ratio, birth rate, death 
rate, population below poverty line, Scheduled Caste & 
Scheduled Tribe population below poverty line, sex ratio, 
female literacy etc. were overlaid and the status of the 
blocks were identified based on the given factors by 
giving weightages to each layer based in the importance 
of them in well-being of human life. 
In addition to these, it has been proposed to carry out the 
following work in the collaboration with other remote 
sensing apllication agencies. 
1. Evolving a coastal zone management system and its 
monitoring in Tamil Nadu - Using remotely sensed 
data and Geographic Information System - 
Submitted in collaboration with Space Application 
Centre, Ahmedabad to the Department of Ocean 
Development, Govt. of India, New Delhi 
To map the landuse and wetland maps at three 
years interval as well as turbidity, sea surface 
temperature and primary productivity using satellite 
data for the Tamil Nadu coast. The remote sensing 
based data and environmental data will be integrated 
to prepare coastal zone management plans. These 
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International Archives of Photogrammetry and Remote Sensing. Vol. XXXI, Part B4. Vienna 1996