JAPRS & SIS, Vol.34, Part 7, “Resource and Environmental Monitoring”, Hyderabad, India, 2002 
  
  
Table-6 Area statistics salt affected soils of different states 
In India 
(based on 1986/87 satellite data with adequate field checks) 
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
S.No. State Area (in 
Lakh Ha.) 
01. Andhra Pradesh 2.74 
02. Andaman & Nicobar Islands 0.77 
03. Bihar 1.53 
04. Gujarat 22.25 
05. Haryana 2.32 
06 Karnataka 1.50 
07. Kerala 0.20 
08. Madhya Pradesh 1.40 
09. Maharashtra 6.07 
10. Orissa 1.47 
li. Punjab 1.52 
12. Rajasthan 3.75 
13, Tamilnadu 3.68 
14. Uttar Pradesh 13.68 
18. West Bengal 4.41 
Total 67.27 
  
  
  
  
  
Remote sensing and GIS techniques are employed for 
prioritization watersheds in the treatment of catchment of major 
river systems in India. (Sharada et al, 1993; AISLUS, 2002). 
The important parameters considered for prioritization of 
watersheds are physiography, slope, soil properties like texture, 
depth etc, land use/land cover, soil erodibility and existing 
soil conservation measures. 
  
Figure-3 IRS-LSS-IIT FCC showing ravines along Yamuna 
river in part of Indo-Gangetic plains in India. 
6.3 Shifting cultivation 
Shifting Cultivation or jhuming is an age old practice of 
primitive agriculture practiced by tribals which consists of slash 
and burning of forests by tribals who cultivate these areas till 
soil productivity declines and then move over to new sites. 
Shifting cultivation results in rapid surface run off, enhances 
soil erosion, siltation of downstream reservoirs and 
environmental degradation . According to Huck (1973) and 
FAO (1982) shifting cultivation is prevalent in 36 million 
hectares world wide, especially in humid tropics hilly regions 
of India, China, South America, South Asia, Korea and Africa. 
In India shifting cultivation is practiced in about 4.36 M ha and 
predominant in Northeastern states of Arunachal Pradesh, 
Assam, Tripura, Manipur, Meghalaya, Mizoram, Nagaland and 
690 
to a lesser extent in states like Andhra Pradesh, Orissa etc. By 
virtue of synoptic coverage of large areas in the narrow and 
discrete spectral bands of the electromagnetic spectrum by 
space borne sensors, remotely sensed data holds good promise 
for mapping and monitoring shifting cultivation areas in time 
and cost-effective manner. 
The potential of satellite data in this respect was demonstrated 
in India and a number of studies on mapping and monitoring 
shifting cultivation areas using multispectral data were carried 
from 1976 onwards using both visual and digital techniques. 
Roy et al., (1991) through interpretation of satellite imageries 
estimated that about 2.7 m ha of land in Northeastern states are 
under shifting cultivation. Dwivedi and Ravisankar (1991) 
using Landsat MSS data of 1978 and 1984 mapped and 
monitored the shifting cultivation areas (figure-3) in parts of 
Mizoram state in North Eastern India. The area under shifting 
cultivation increased from 775 ha in 1978 to 1526 ha in 1984. 
Further, Dwivedi et al., (1992) demonstrated the potential of 
remotely sensed data in the study of stages of shifting 
cultivation, role of image scale on delineation of jhum lands 
and monitoring of jhum lands in parts of Tripura. Since, 
shifting cultivation is dynamic, it needs to be monitored on 
regular time intervals of 2 years using satellite data to see its 
impact on land degradation. GIS can be effectively employed in 
creating data base, updating, monitoring areas under jhuming 
and to develop plans for soil conservation. 
  
Figure-4 Landsat-TM FCC of part of Tripura state, India 
showing jhum lands (bright white, small irregular patches in the 
background of red colour - forest vegetation) 
6.4 Waterlogging 
An estimated area of 2.46 million ha land is suffering from 
water logging in irrigation commands in India (Anonymous, 
1991). “An area is said to be waterlogged when the water table 
rises to an extent that soil pores in the root zone of a crop 
become saturated, resulting in restriction of normal circulation 
of the air, decline in the level of oxygen and increase in the 
level of carbon dioxide”. Waterlogging may be due to surface 
ponding or rise in ground water table owing to excess rain or 
over irrigation and congestion of drainage. It may result in 
various types of soil degradation like physical degradation or 
chemical degradation or salinity. The effect of high water table