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CHAPTER 3
DESCRIPTION OF THE STUDY AREA
3.1 INTRODUCTION
The Gadilam river sub basin is located in the northern part of
Tamilnadu. It is one of the sub basin of Ponnaiyar river basins. The sub basin
lies between the Ponnaiyar basin in the north and the Vellar basin in the
south. It is an important sub basin from times of immemorial and had been the
centre of activity as many historical events have occurred from the early
Pallava Kings (10th century AD) to till the later British Period. Panruti,
Nellikuppam and Cuddalore are the major towns developed in a contiguous
manner in the study area. The Male Population of study area is calculated as
98,621 whereas the Female Population is 97,214. The Rural Population of
study area is calculated as 1,31,194 and Urban Population is 64,641. The total
population of the area is 1,95,835 according to 2001 census. The study area is
generally rural in nature except for a few towns mentioned above. This area is
located in a semi arid zone and faces acute water shortages.
The Gadilam rising in the Kallakurchi taluk flows eastwards across
the district. After passing South of Caddalore New Town, it runs into the Bay
of Bengal by two mouths rounding up the ruined Fort St.Davis. It is reported
that the river gets a supply of occasional floodwater from the Ponnaiyar
through the Malattar. There are three anicuts at Thiruvadigai (11045’N,
79035’E) at Vanamadevi (11045’N, 79040’E) and at Thiruvandhipuram
(11045’N, 79040’30”E), which are situated at heights of 55.70 ft., 39.70 ft. and
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16.97 ft. above sea level respectively. Between Thiruvadigai and Vanamadevi
the riverbed grades at 2 feet a mile, while over the rest of the river coarse its
fall is about 6 feet per mile.
South of Panruti (11045’N: 79034’E), the Cuddalore formation is
covered with a thick layer of clay of brick-red colour. Running water cuts
deep gullies, often with practically vertical sides, into the clays. About half a
mile south of the Gadilam, off Panruti, white clay-beds were noticed in gully-
sections.
3.2 LOCATION AND EXTENT
The Gadilam river sub basin is located between 110 39’12’’ to 110
47’34’’ N latitude and 790 28’00’’ to 790 47’24’’ E longitudes. The area
falling mostly with in the Survey of India topographic sheets of 58 M/5, 58
M/6, 58 M/9 and 58 M/10 on 1:50000 scale covering Panruti and Cuddalore
taluks of Cuddalore district in Tamilnadu, India.
In Tamilnadu, the river basins are divided into 17 basins and the
Ponnaiyar is one of them. The Ponnaiyar river basin includes 9 sub basins and
the Gadilam river sub basin is one among them.
The Gadilam river lower sub basin is bounded by Ponnaiyar basin
in the north, Vellar basin in the south, Bay of Bengal in the east and the
Gadilam river upper sub basin in the west. The index map is presented in the
Figure 3.1.
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Figure 3.1 Index Map
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The sub basin falls in Panruti, Annagramam and Cuddalore blocks
of Panruti and Cuddalore taluks in Cuddalore district. The aerial extent of the
study area is 315.17 sq. km. and the length of the Gadilam River is only
51 km in this sub basin. Villupuram bound the study area, east by Cuddalore
town, west by Thirukoilur, south by Vadalur and north. The map indicating
the administrative boundary is presented in the Figure 3.2.
3.3 ROAD NETWORK
The study area is well connected to the neighboring towns like
Cuddalore, Panruti and Nellikuppam, which help the farmers to market their
agricultural products. The State highway running between Chennai and
Tanjavur passes through this Gadilam river sub basin in Panruti taluk of
Cuddalore district. Panruti is one of the major towns situated at the northwest
of the study area, which is the junction place of Kumbakonam from the South
and Chennai from the north.
Cuddalore is another major town situated at the northeast of the
study area and the State highway passes through the town. A few other State
highways connecting Panruti and Cuddalore with other adjacent towns like
Villupuram, Neyveli, Puducherry and Chidambaram passing through the sub
basin. The good condition of these roads is due to the fairly dry climate that
prevails within the region Panruti and Cuddalore is linked by railway lines
connecting Chennai and Tanjavur. This railway line run across Gadilam River
near Vilangalpattu and the only railway station is situated at Cuddalore.
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Figure 3.2 Administrative Map
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3.4 PHYSIOGRAPHY
The catchment area of the Gadilam river sub basin consists of
extensional hills of the gently dipping Eastern Ghats hill ranges, having an
elevation of 167 m above MSL in the west. The study area has a gentle slope
towards east and the physiography of the study area is very much subdued
due to prolonged sub tropical weathering. The mean elevation here is around
50 m above mean sea level. The maximum elevation in the plain is 80 m and
the minimum elevation is 20 m. The relief of the sub basin is shown in the
Figure 3.3.
The Ponnaiyar River originates on the southeastern slopes of
Channakesava hills, northwest of Nandhidurg in Karnataka State at an altitude
of 1000 m above MSL. The river is called Dhakshina in Karnataka State.
After flowing through Karnataka the river enters Tamilnadu near Bagalur
village of Hosur taluk and takes the name of Ponnaiyar. Gadilam is one of the
sub basin of Ponnaiyar river basins. Gadilam river coarse at
Thiruvanthipuram is shown in Plate 3.1.
Figure 3.3 Relief Map
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Plate 3.1 Gadilam river coarse at Thiruvanthipuram
The aerial extent of the study area is 315.17 sq.km. The length of
the Gadilam River lower sub basin is 51 km and there is no flow in the river
normally except monsoon season. Gadilam River near confluence with sea
Cuddalore is shown in Plate 3.2.
Plate 3.2 Gadilam river near confluence with sea - Cuddalore
There are several tanks are located and are very smaller in extent,
hence they are not marked in the map. The major drainage is represented by
river Gadilam and it flows from west to east. The entire stretch of riverbed is
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covered with recent river alluvium. Though the study area has numerous
small to medium sized tanks connected with canals, these are noticed to be
mostly dry. Hence, the farmers mainly depend on the groundwater for the
cultivation.
3.5 DRAINAGE
The Gadilam River originates at an altitude of 167 m above MSL from Mayanur hills in the west and after a long run of 112 km., it empties in the Bay of Bengal, 2 km east of Cuddalore. The Gadilam is a small ephemeral river when compared to the rivers like Cauvery, Ponnaiyar of Tamil Nadu State. This study area is almost a plain with poking relief hills and is dominated by numerous tanks to a small extent. The Gadilam River receives the drainage of its own catchment and forms a definite coarse and flows towards east. The major drainage patterns found in the study area are trellis and dendritic types. The Gadilam River has many supply canals and these canals are mainly used for irrigation purposes. Malattar is a misfit river in the northeastern part, which occupies as inter basinal area between Gadilam and Ponnaiyar basin. In this study area three anaicuts are constructed across the Gadilam River. They are namely Thiruvadhigai, Vanamadevi and Thiruvanthipuram. The drainage map is shown in Figure 3.4.
Figure 3.4 Drainage map
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3.6 CLIMATE
In general the climate of the area is mostly hot and dry except
winter season. As per the Indian Meteorological Department (IMD) records,
the temperature ranges from 200 C to 420 C. Though the basin is not subjected to extreme climate in the summer months, it is quite hot. The climatological
data for the sub basin is obtained from Lekkur Weathering Station and is
furnished in Table A.1.4.
During January and February, the study area has a very pleasant
climate with warm days and cool nights, but by the close of February the climate becomes very sultry. The temperature shoots upto 420 C till May and
nearly June with the setting of the southwest monsoon in the later part of
June, the heat abates and strong wind blow from the southwest bringing sporadic rainfall. The climate during September and October is cool, through
sultry after the set of northeast monsoon. In the middle of October, cold
weather begins with wind velocities of 5 to 15 km /hour from northeast. The actual average annual pan evapotranspiration is found to be 192.25 mm.
Humidity of the study area varies relatively from 55 to 63 %.
3.6.1 Rainfall
For any water resources evaluation, planning, development and management studies, the knowledge of the rainfall over the sub basin area as
well as other hydro meteorological features is a pre requisite. The basic
factors, which influence agriculture, are climatological data such as rainfall, temperature, humidity, wind speed, sunshine and evaporation. Rainfall is the
major input for the water resources in a sub basin.
Generally, the distribution of rainfall in Tamilnadu is scanty with
respect to other States. As far as the study area is concerned almost 60 percent
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of the year remains dry though it receives rain during both the southwest and northeast monsoons. The basin receives appreciable rainfall during the
northeast monsoon season especially Cuddalore and the western part of the
study area, which area brought by the troughs of low pressure established in the southern part of Bay of Bengal during October and December. However
southwest monsoon alone has a precipitation of about one third of the average
rainfall, which helps the farmers to take the rainfall water for cultivation.
There are three raingauge stations. They are Cuddalore,
Vanamadevi and Panruti available in and around the study area. The rainfall breakup Figures for Cuddalore, Vanamadevi and Panruti with respect to the
various seasons are given below. Rainfall data for the past 35 years were
collected and analysed to study the influence of the rainfall in various seasons in the sub basin. The average rainfall recorded in the sub basin is 1250.30 mm
The average rain fall data for 35 years are furnished in Table A.1.5.
To study the rainfall distribution in the sub basin, contour maps
prepared for annual, southwest, northeast, winter and summer seasons for the
average rainfall of 35 years were shown in the Figures 3.5 to 3.9.
Figure 3.5 Annual Rainfall Contour Map of 35 years
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The 35 years annual rainfall contour map shows the highest rainfall ranging between 1270 and 1300mm received in the coastal area of the sub basin. The minimum rainfall ranging between 1180 and 1210 mm was recorded in the most of the study area.
The minimum rainfall varies between 100 and 180 mm received in
the coastal area whereas the western part of the study area received maximum rainfall 335 to 410 mm during the southwest monsoon period.
Figure 3.6 Southwest Monsoon Rainfall Contour Map
Figure 3.7 North East Monsoon Rainfall Contour Map
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The northeast monsoon contour revealed that the western part
received the maximum rainfall i.e. 600 to 670 mm and eastern part received
370to 445 mm of rainfall.
Figure 3.8 Winter Season Rainfall Contour Map
The rainfall in summer season was high in the western part and low
in the eastern part whereas in winter the maximum rainfall 45 to 50 mm was
recorded in the coastal area and the minimum rainfall 30 to 40 mm was
recorded in the western part of the study area.
Figure 3.9 Summer Season Rainfall Contour Map
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Generally, the sub basin received sufficient rainfall during the monsoon periods and occasional rainfall in the summer and winter season for raising the water levels in the water bodies so as to irrigate in the entire area periodically.
The recent 35 years rainfall data (1971 – 2005) pertaining to Panruti, Vanamadevi and Cuddalore rain gauge stations are also furnished in the Appendix 1 enclosed. 3.6.2 Relative Humidity
The meteorological features of the sub basin have been studied from the data available with Lekkur Weathering Station, which is the nearest weather station, located in south west of the study area (nearly 50 km). The minimum temperature recorded was 22.520 C in 1992 and maximum temperature was 37.190 C in April 1998. The monthly average percentage of relative humidity varies from 54.04 % to 75.56% as per Lekkur weathering Station
3.6.3 Wind Speed Wind velocity is an important meteorological parameter, which has considerable influence on evaporation and Evapotranspiration phenomenon. Wind has direct impact on climate and vegetation and is linked with circulation pattern of the monsoon. The average wind velocity in km/hour varies from 3.73 to 8.51 for Lekkur. 3.6.4 Sunshine & Temperature Temperature is one of the main parameters which is used to
calculate the crop water requirement (i.e. Evapotranspiration). The average
sunshine hours/day varies between 5.55 and 9.67 per day. Generally the
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climatic condition is almost amenable and does not exert any harm to human
and livestock existence.
3.7 SOIL DISTRIBUTION
Soil plays an important role in (a) encouraging or discouraging the
recharge of groundwater and (b) determining the quality parameters of ground
water. The soil map of the Gadilam river lower sub basin is shown in
Figure 3.10.
The major soil types found in this sub basin are Inceptisols, Alfisol,
Entisol and Vertisol. Due to different stage of weathering of parent material,
the above soil types are met with in combination. The list of mapping units
falling in the Gadilam lower sub basin is furnished in the Table A.1.6.
Figure 3.10 Soil Map
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3.7.1 Entisols
These soils show little or no evidence of development of pedogenic (diagnostic) horizons. They are found distributed on steep, actively eroding slopes and on flood plains, which receive new deposits of alluvium. Erosion is active in these soils. 3.7.2 Inceptisols
Inceptisols comprises of immature soils having profile features more weakly expressed. They are poorly drained to well drained with moderate to rapid permeability. Most of them are cultivated under irrigated or rainfed conditions. 3.7.3 Vertisols
This order includes dark brownish grey, very deep, calcareous,
heavy clayey and self-churning soils that have deep wide cracks. They are
moderately well drained with slow permeability except in the cracks.
3.7.4 Alfisols
This consists of deep to very deep, matured soils with alluvial
concentration of clay in the sub horizon. They have moderate to high base
saturation.
National Bureau of Soil Survey and Landuse Planning, Bangalore
(NBSS) have carried out soil Classification in 1996 in co-operation with the
Department of Agriculture, Tamil Nadu. The soil characteristics of Gadilam
lower sub basin are furnished in the Table A.1.7.
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3.8 AGRICULTURE
The first crop is raised with the help of surface water, usually
during September to December in every year, and paddy is invariably
cultivated. In the second crop, generally dry crops like groundnut, ragi,
cumbu etc, are being raised. In most of the places sugarcane, casuarina,
mango trees, jack trees etc are also raised by using surface water and
groundwater. In the third crop by using the sub-surface water, limited wet
crops are raised during the months of June to August which is very rare.
Paddy field at Vilangalpattu is shown in Plate 3.3.
Generally surface water flow is carried out from lakes, ponds, tanks
etc through several streams and canals whereas subsurface water flow is
mainly carried out by means of deep bore wells and bore wells. It is
significant to note that the role of wells (deep bore wells, and bore wells) is
important in the agricultural growth and production activities.
Plate 3.3 Paddy field at Vilangalpattu
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3.8.1 Method of Irrigation
The area is generally irrigated by tanks and wells. The irrigation
wells play a vital role in the dry land (irrigation by rain water) areas. In the
case of canal irrigation areas, they supply water when the surface water flow
becomes scarce. Generally the surface water flow is available in the canal
irrigation area for about 3 to 4 months in a year.
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