IAPRS & SIS, Vol.34, Part 7, “Resource and Environmental Monitoring”, Hyderabad, India, 2002 
  
  
  
million hectares (unpublished report), based on satellite remote 
sensing and adequate ground truth for the period 1986 / 87. 
Both water erosion and wind erosion damage can be attributed 
to inadequate land cover due to deforestation or mono 
cropping or overgrazing, or from farming on marginal and hill 
areas. 
Table-5 shows the information needs for degraded lands at 
various scales of mapping and purpose for different users of 
such information in the country. Though conventional soil 
surveys provide such information they are slow, time 
consuming and expensive. Among the new technologies 
emerged for studying natural resources, space borne remote 
sensing technology proved to be powerful, because of 
synoptic view of the terrain features, repetitive coverage of 
the same area at regular time intervals, collection of data in 
visible through near infra red, thermal to microwave regions 
and amenability of data to computers for quick analysis. 
Necessary infrastructure has been developed in India by 
various Central / provincial government agencies. 
Geographical Information System(GIS) — a computer based 
system for storing, updating, retrieval, analysis of data and 
presentation of results is another significant development in 
information technology which is proving to be helpful in 
natural resources management. It also enables to develop 
decision support systems by taking into account the 
information available on resources at different scales, in 
spatial and non-spatial formats as well as socio-economic 
factors. 
Remote Sensing and GIS techniques are showing their impact 
on the study of environmental problems especially, land 
degradation and opened up new vistas like development of 
Information system that enable to efficiently assess and monitor 
land degradation, through timely initiation of appropriate 
strategies and measures. Survey of literature reveals that 
remote sensing data from satellites like Landsat, SPOT and IRS 
were employed to derive information on the nature, extent, 
spatial distribution and magnitude of various types of degraded 
lands like salt affected soils, waterlogged areas, ravinous lands, 
eroded areas, shifting cultivation etc., and also to monitor them 
periodically by various states and central government agencies 
in the country. 
6. REMOTE SENSING APPLICATION IN LAND 
DEGRADATION STUDIES 
Remotely sensed data from satellites are being operationally 
used to derive information on degraded lands and monitor them 
periodically in time and space domain using multi temporal 
data in India ( Venkataratnam and Rao., 1977; Venkataratnam, 
1980, 1983, 1984, 1989,; Venkataratnam and Ravisankar, 1992, 
Rao et al., 1991; Karale et al., 1988; NRSA, 1981; Singh et al., 
1977, 1988; Sharma and Bharghava, 1987;) and in other 
countries . In table — 5 the methodologies used for land 
degradation assessment by different scientists / organizations 
are summarized along with the input data used, scale and output 
of their studies. (Table —5) 
6.1 Salt-affected soils 
Salt affected soils are those soils that contain excessive 
concentration of either soluble salts or exchangeable sodium or 
both. Depending upon the physio-chemical properties, these 
Table — 5 Information Needs of degraded lands 
  
  
  
  
  
  
  
  
Information RS Sensors 
Scale Users 
content 
Nature and 1:250,000 Centre and Landsat-MSS 
Magnitude of State / TM, IRS- 
Salinity/ Planning LISS-I 
Alkalinity, Dept./Board, 
Eroded Ministry of 
Lands; Types Agriculture, 
of Govt. of India 
Waterlogged 
Areas 
Refinement of | 1:50,000 Command Landsat - TM 
The Area IRS — LISS-II 
boundaries Development | /III 
for Above Authorities / 
Mentioned Watershed 
Information Development 
Authorities 
Quantitative 1:4,000/ District IKONOS 
Information 1:8,000 Implementati | Cartosat 
on above on Agencies Resourcesat 
Mentioned 
Categories 
  
  
soils are classified in to saline, sodic and saline—sodic soils. The 
salt affected soils on false colour composite (FCC) prints of 
satellite data appears in different shades of white tone with 
smooth to coarse texture due to presence of salts (figure-1) in 
the background of soils with normal crop growth. 
At NRSA, the maps of salt-affected soils for entire country 
were prepared at 1:250,000 scale using satellite data from 
Landsat TM/IRS sensors in association with other central and 
state government organizations. 
  
Figure-1 IRS-LISS-II of 1998 FCC showing salt affected soils 
(bright white patches) and water-logged areas (light to dark 
bluish shades) in part of Indo-Gangetic plains in India. 
According to this study, the area under salt affected soils in the 
India is 6.727 million hectares and state-wise area under salt 
affected soils are given in table-6. The maps of salt-affected 
soils of all states are already printed at 1:250,000 scale (figure- 
688 
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