Geological, hydrological and geomor

Geological, hydrological and geomorphological setting of the Kanhan–Kolar area

The Kanhan and Kolar river area (Fig. 1a) is characterized by a gently eastward sloping topography whose altitude ranges between 320 and 280 m a.m.s.l (above mean sea level). The only significant relief is represented by the Suradevi Hills which extend for about 5 km along a WNW–ESE direction south of the Kolar river and just before its confluence in the Kanhan river. These two rivers have a markedly seasonal regime and deeply cut their alluvial deposits and the basement rocks, keeping their beds lowered to about 10 m below the surrounding topographic surface. Several artificial water basins, with sizes ranging from a few hundred m2 to about 1.5 km2, are dispersed in this area due to the presence of small dams or excavations and act as reservoirs for agriculture and factories. The overall morphology is nowadays dominated by three wide basins (ash ponds K1, K2, K3), used for the disposal of fly ash produced by the Koradi and Khaparkheda Power Plants.

The geological succession is here characterized by formations of different ages, origins and compositions. The most complete and accurate modern geological map available which includes the area of Koradi has been published by Dhote et al. (2001) at an approximate scale of 1:250,000. A geological map at a 1:250,000 scale, mainly obtained from satellite data interpretation, was also published by Gawande et al. (2002) but totally fails to identify formations and alluvial coverage. Focus on the composition of the pre-Cambrian basement and its pegmatitic intrusions is finally given by Gwalani et al. (1999). A complete description of the Gondwana supergroup in the relatively near and lithologically similar Prahita–Godavary valley is given by Vaidyanadhan and Ramakrishnan (2008).

The local geological succession includes:

Alluvium (Holocene)
Alluvial terraces of the Kolar and Kanhan rivers.
Infratrap formations (Upper Cretaceous–Lower Cretaceous)
The presence of the infratrap formations has been found in different localities within and around the city of Nagpur even though they are not present in our study area.
a)
Lametas formation (Upper Cretaceous) is made of hard cherty limestones and calcareous conglomerates deposited in a fresh water environment.
Unconformity
Lower Gondwana (Upper Carboniferous–Permian)
a)
Kamthi (Upper Permian), medium grained brown, ferruginous sandstone and micaceous and carbonaceous shales.
b)
Barren Measures (Middle Permian), moderately hard ferruginous, grayish sandstone, occasional gray shales, laminated siltstone and red mottled clays.
c)
Barakar (Middle Permian–Lower Permian), sandstones with alternation of shale, siltstone and thick coal seams and carbonaceous shale.
d)
Karhabari (Lower Permian), mottled ferruginous, hard sandstone, carbonaceous shales with occasional coal seams.
e)
Talchir (Lower Permian), basal boulder bed in clay/silty matrix (which are not present in the study area) followed by alternation of shales, siltstones and sandstones.
Sausar Super Group (Archean)
a)
Chorbaoli formation, made of quartzites and quartz mica schists which outcrop along the WNW-ESE oriented structure of the Suradevi hills.
b)
Bichua formation, made of dolomitic marble with metasediments which are present in the area of Koradi village, to the north of Kolar river and in a small spot within Kamthi village.
c)
Amphibolites, outcropping in small areas close to the Kolar river and NW of the Suradevi hills.
d)
Granitic gneisses, recognized in two small spots along the Kolar and Kanhan rivers.
e)
Pegmatitic dykes, sills and veins, without any commercial mineral deposits, intruded within the above mentioned units in the whole area.
In order to determine the influence of the geogenic environment on groundwater quality in the Koradi area, we carried out an accurate review of the geological data available and integrated them with the results of some quick field surveys and aerial photo interpretations. A new geological map is therefore shown in Fig. 1b.

The Archean formations outcrop in the study area within a stretched tectonic unit that has been uplifted as a consequence of the activity of two WNW–ESE trending faults that also mark the passage between the Archean and the Gondwana formations.

The bedrock of the three ash ponds are largely differentiated: K1 is totally placed on Gondwana units, K3 is totally on Archean formations while the bedrock of K2 is cut in half by one of the main faults and the pond is therefore located on the transition area between these geological dominions.