IAPRS & SIS, Vol.34, Part 7, "Resource and Environmental Monitoring", Hyderabad, India, 2002 
  
  
ground water and it has resulted in either drop in the ground 
water levels and or complete depletion of water sources. In fact 
the demand for ground water has been increased drastically 
especially, in the drought prone regions like Rajasthan due to 
irrigation by under ground sources. Improvements in drilling 
techniques were helped in tapping deeper water levels and this 
resulted in further decline of ground water levels. Hence, there 
is an urgent need to replenish the water tables in such areas 
through artificial recharge by constructing water-harvesting 
structures like percolation tanks and check dams. Under 
watershed management programmes, mini/micro watershed 
development is being implemented by the Ministry of Rural 
development, Govt.of.India under Drought Prone Area and 
Desert Development Programmes. The renovation/construction 
of village ponds/tanks are being taken up by the local self 
governments (panchayats/mandals) under Jawahar Rojgar 
Yogana, Employment Assurance Scheme etc., Measures like 
contour bunding, trenching, pasture development, afforestation, 
nala bunding etc., helped in water recharge. The erratic 
conditions in groundwater recharge and inadequate surface 
water availability due to inadequate and untimely rainfall 
conditions. More than 80 per cent of the annual rainfall occurs 
during the period of June-September season. Major part of the 
rainfall is confined between 30 to 60 rainy days. Worst still, 
half of the rainfall occurs in heavy spells of very short duration 
(20-30 rainy hours). Most of the water received from the heavy 
spells of shorter duration resulted in the surface runoff, with 
little penetration into the ground, causing floods and soil 
erosion. Therefore, considerable skill, innovative efforts and 
expenditure are required to conserve rainwater for use during 
the remaining part (8 to 9 months) of a year. Such water 
harvesting structures’ include a) Farm ponds b) Minor irrigation 
tanks c) check dams d) water harvesting bunds, e) nala bunds f) 
Percolation tanks and h) sub-surface dykes etc., Selection of a 
suitable site for locating these structures require large amount 
of information on terrain Conditions. 
4.4.2 Study Area: 
The study area comprising a part of Alwar District of 
Rajasthan, which is a drought prone area and its average annual 
rainfall, is about 600 mm. It is located in the Northeast part of 
Rajasthan. The Alwar district is bounded on the North and 
Northeast by Gurgaon district of Haryana state and Bharatpur 
District, on the Southwest and south bounded by Jaipur & 
Dausa districts respectively. Apart from drought prone, further 
it has been subjected to severe soil erosion in the Aravalli Hill 
range and wind erosion in the foothills as well as plains. 
Implementation of soil as well as water conservation measures 
through water harvesting structures assume significance and at 
the same time it will serve dual purposes namely arrest the soil 
erosion to a great extent and also helps in improving the ground 
water levels. 
4.4.3 Geographical extent: 
Alwar district is extended between 27°04" to 28°04'N Latitudes 
and 76°07" to 77°13' E longitudes and comprises an area of 
8380 sq.km, whereas the present study confines between 
27°15'- 27°45'N latitudes and 76°15'-76%45'E longitudes and 
covering approximately 3000 Sq.Km or 36% of the district 
geographical area. It is falling under the SOI toposheet No's: 
54A/ 6,7,10 and 11 on 1:50,000 scale. 
4.4.3.1 Climate & terrain: The climate is very hot during 
summer and very cold during winter periods. The monsoon is of 
shorter duration. The southwest monsoon commences in the July 
month and ends by mid-September. The average annual district 
rainfall is 611 mm. The maximum temperature during summer is 
47 C and minimum is up to freezing point. The mean annual 
temperature is 26°C. The Aravalli Hills covering more than two 
thirds of the area and passing through central part of area and 
forming Ridge and valley topography and as isolated ridges. The 
hills plunging towards north of Alwar town. Their relief varies 
between 700-350 mts above MSL. The Plain is undulated in 
nature and relief varies between 300 and 200 Meters above 
638 
MSL. More often, isolated hills and sand ridges interrupt the 
monotony of the plain. The pain is connected to hills by thick 
piedmont (alluvial) deposits & their slope vary between 5°-10°. 
4.4.3.2 Rivers and Drainage: Siliserh and Jaisamand are the 
two major reservoirs. The Ruparel and Sabi are seasonal rivers 
in the district. The Ruparel River rises from the hills of 
Thanagazi and finally terminates in Bharatpur district, While the 
Sabi River raises from Jaipur district, flowing through Behror, 
Mundawar, Kishangarh Basli and Tijara tehsil and then enters 
Gurgaon district of Haryana state. There are two important dams 
located at a distance of 13 kms and 8 Kms from Alwar 
respectively. 
4.4.3.3 Geology & Minerals: Pre Aravalli major group rocks 
comprising schist, quartzite and granite. Railo group rocks 
comprising marble, and feldspathic quartzite. Alwar group 
consists quartzite and schist formations. Ajabgarh group 
consisting phyllite, schist, quartzite and dolomite overlain by 
post Delhi intrusive granite and Meta dolerite rocks. Major 
minerals found in this district are barites, building stones and 
copper. The rocks associated with these minerals are schist, 
quartzite and intrusive granites. Baryte production amounts to 
two thousand tonnes per annum and the deposits are located at 
Sahanpuri, Basli, Jamdoli and Khora-Makroda. The Alwar 
district is second richest in copper deposits of Rajasthan and 
they are located at Bhagoni and Kho-Dariba. Other important 
minerals available in the area include asbestos, china clay, 
feldspar, fine clay, soapstone and quartz. 
4.4.3.4 Landforms: They can broadly put under four major 
categories, namely 1) Structural hills 2) Denudational hills/ 
pediplain 3) Fluvial and Aeolian (Sand) types. 1) Structural 
hills: can be further divided into a) Structural hills and b) ridges 
2) Denudational landforms comprising: a) Denudation hills b) 
Pediment c) buried pediment. 3) Fluvial landforms (depositional 
origin) comprise a) Alluvial b) Floodplain, c) Valley-fills/ 
alluvial fans. Whereas erosional (fluvial) landforms comprising 
gullies and ravines. 4) Aeolian Landforms consist of Sandy 
ridges and erosinal features comprising depressions (Blow hots) 
of wind origin. 
4.4.3.5 Soils: The major soils of the district are-brown, fine to 
loamy sand, deep, non-calcareous and belongs to Torrispsament 
great group. In the eastern part soils are alluvial and thus of 
good quality. Soils on Hills and pediplain are mostly skeletal 
and falling under unclassified category. 
4.4.3.6 Forests: Total area under forest is about 26480 hectares 
equivalent to 3.16 per cent of the total district and it falls under 
dry deciduous category of Rajasthan. The famous wildlife 
sanctuary of Sariska is falling under the study area. 
4.4.3.7 Population: The total population of the district is 23 
lakhs (approx), out of which, urban population accounts for 15 
per cent only and hence economy is mainly from agriculture 
sector, which constitutes 85 per cent of total district population. 
4.4.3.8 Irrigation: The Alwar district has a geographical area of 
8380 Sq.Kms, out of which 3745 Sq.Kms equivalent of 44.7 % 
is covered by irrigation from various sources such as reservoirs/ 
tanks (surface) and under ground water sources like dug wells 
and bore wells. In 1991, there are 117 tanks/bunds having 
capacity to irrigate more than 50 acres of the land exists in the 
district. Following are the Major water reservoirs: 1) Jaisamand 
(7010), 2) Silserh (3936), 3) Manglansar (5272), 4) Siliberi 
(2066), 5) Manasarovar (2720), 6) Jhiroli (988), 7) Ager (816), 
8) Jaitpur (800) and 9) Ban Sarovar (52.32). Wells and Tube 
wells: are the major sources of irrigation in the district. Under 
groundwater irrigation, dug wells provide 52 per cent and tube 
wells accounts for 48 per cent. Minor irrigation works: There are 
in total 81 minor irrigation projects in Alwar district. 
4.4.3.9 Ground water utilization: Depth to water levels: In 
major part of the district water table varies between 5 to 10 deep 
below ground level. Areas around Thanaghazi, Lachhamangarh, 
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