Information on rate and extent of reservoir sedimentation is essential for taking up appropriate measures in controlling the sediment inflow, to obtain updated assessment of useful life of the reservoir and to decide on the optimum reservoir operation schedule based on realistic assessment of available storage. In the present study, a comparison of sedimentation status was made in Rajaval and Kharo reservoirs situated in Bhavnagar district of Gujarat. From the analysis, it was observed that 5.043 million cu m of gross storage of Rajaval reservoir has been lost in 25 years (1982-2007) and the average rate of siltation in this reservoir is 0.202 million cu m/year. In the case of Kharo reservoir, 4.332 million cu m of gross storage has been lost in 22 years (1985-2007) and the average rate of siltation is 0.197 million cu m/year. The data of silt surveys in the year 2000 was also used and the pattern of siltation in both reservoirs was analyzed for evaluation periods, namely, impoundment to 2000 (Evaluation Period-I) and 2000-07 (Evaluation Period-II). From the analysis, it was observed that the sedimentation rate increased significantly during 2000-07 in both the reservoirs but Rajaval reservoir needs immediate attention for soil conservation measures because rate of siltation in this reservoir has doubled during this period. The spatial distribution of sediment in both reservoirs indicated more deposition in upper part due to flat topography in that region.

Reservoir sedimentation process is a universal phenomenon, which has been considered as a most critical environmental hazard of modern time (Jain and Kothyari, 2000). The range of problems caused by reservoir sedimentation is varied and wide. Apart from loss of capacity, increased flood risks, interruption in hydropower generation and downstream river bed degradation; other problems such as degradation of water quality, increased complexity in reservoir operation and maintenance led to increase in their associated cost (Kothiyari et al., 2002). A broad estimate of soil erosion in India showed that about 5,334 million tons of soil is being lost every year, which means, soil erosion is taking place at the rate of 16.35 tons/ha/year (Narayana and Ram Babu, 1983), which is more than the permissible soil loss tolerance value of 4.5-11.2 tons/ha/year (Singh et al., 1981). As a result, it is widely viewed that nearly 20% of the live storage capacity of our major and medium-sized reservoirs was silted up by the end of the year 2000, which means a loss of irrigation potential of about 60,000 ha every year due to silting. An analysis of sedimentation survey in respect of 43 major, medium and minor reservoirs in India indicated the variation of sedimentation rate between 0.003 and 0.28 million cu m/ 100 sq km/year for major reservoirs, 0.002-0.11 million cu m/100 sq km year for medium and 0.01-0.02 million cu m/100 sq km/year for minor reservoirs (Shangle, 1991).

With the introduction of remote sensing techniques in the recent past, it has become convenient and far less expensive to quantify sedimentation in reservoirs and to assess its distribution and deposition pattern. Advantages of using remote sensing data are: it is highly cost-effective, easy to use and requires lesser time in analysis as compared to conventional methods. Spatial, spectral and temporal attributes of remote sensing provide invaluable synoptic and timely information regarding the revised area after the occurrence of sedimentation and sediment distribution pattern in the reservoir. The ability to map and estimate water spread from satellite data is well understood, and different techniques such as visual interpretation of satellite imagery, density slicing, and digital classification of water bodies have been employed for the delineation of water bodies (Work and Gilmer, 1976; Thiruvengadachari et al., 1980; Thiruvengadachari and Manavalan, 1983; Goel and Jain, 1996; NIH, 2003-04; NIH, 2004-05; Jaiswal et al., 2008; and Thomas et al., 2009). In this paper, an attempt has been made to compare the revised capacities of Rajaval and Kharo reservoirs of southern Gujarat (India). The image analysis technique of remote sensing data was used to estimate the revised capacity of these reservoirs. Seven Linear Image Self Scanning (LISS III) digital data of IRS 1D/P6 were used in the analysis.

Soil And Water Sciences Journal, Sediment Pattern Assessment, Optimum Reservoir Operation, Reservoir Sedimentation Process, Hydropower Generation, Remote Sensing Techniques, Remote Sensing Data, Electromagnetic Spectrum, Rajaval and Kharo Reservoirs, Periodic Assessment, Environmental Degradation.