Uranium in south India Atomic Minerals Division India Economic Geology
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Transcript of Uranium in south India Atomic Minerals Division India Economic Geology
June 9, 2012
General Information
Area : 3,96,000 sq km
States : Andhra Pradesh (South of 15° N latitude), Karnataka and Maharashtra
(South of 17° N latitude), Goa, Kerala, Tamil Nadu and Pondicherry
Headquarter : Bangalore
Address : Regional Centre for Exploration and Research (RCER), Nagarabhavi,
Bangalore – 560 072
Contact Person : Dr R. Mohanty, Regional Director
Ph : 080-23210246
Fax : 080- 23211511
e-mail : [email protected]
This Region was set up in 1956 in a rented accommodation at Patan Bhavan, Bangalore. AMD’s ownoffice/ laboratories and residential quarters were established in 1986 in Nagarabhavi, Bangalore.
Broad Geological features
The following are the broad geological domains of the Southern Region.
(i) Archaean Basement Rocks (>2500 Ma): The basement rocks comprise of Archaean
granulite facies containing quartzites, garnet-sillimanite gneiss, marble,
calciphyres, amphibolites and charnockites in Tamil Nadu, Kerala, Andhra
Pradesh, Karnataka and Goa. The peninsular gneisses, which are mainly
composed of migmatites and banded grey granites are fairly homogeneous and
are exposed over large tracts in these states.
(ii) Late Archaean Dharwar Supergroup rocks: They comprise piles of volcano-
sedimentary sequence broadly divisible into a lower Bababudan and an upper
Chitradurga Group. The Bababudan Group is characterized by platformal
sediments with quartz pebble conglomerates, pebbly quartzite and fuchsite
quartzite and banded magnetite quartzites which were followed by sub-aerial
mafic volcanics. The Chitradurga Group is typified by geosynclinal sediments
with subordinate volcanics and well developed linear tracts of limestone,
manganese and associated iron formations. They occur mostly in Karnataka and
parts of Andhra Pradesh.
(iii) Lower Proterozoic Closepet Granites: Granites of this age extend in a north-south
direction as a 50 km wide narrow belt. This belt of younger potassic granite is
believed to mark a major geo-suture separating two distinct crustal blocks of Archaean age. The western block is
characterized by a number of well developed low grade granite-greenstone belts with their iron-manganese ores and
Southern region http://www.amd.gov.in/regions/sr.htm
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the eastern block is marked mainly by younger gneisses of granitic and granodioritic composition enclosing within
them a number of narrow, linear bands of auriferous schist belts.
(iv) Middle to Upper Proterozoic Cuddapah Supergroup rocks and their equivalents such as Bhima Group & Kaladgi Group of rocks: These
are the most significant geological domains of Indian geology. The Cuddapah basin comprises a sedimentary
thickness of 12 km and volcanic sequences in the form of sills and dykes, which are resting on the Archaean
peninsular gneissic complex marked by a pronounced Eparchaean unconformity. This basin comprises of rocks of
Cuddapah Supergroup which includes Kurnool Group.
The Kaladgi and Bhima basins occur in the northern parts and extend below the Deccan Traps. These basins comprise
of rocks of clastic/ chemogenic origin.
(v) Deccan trap of Mesozoic-Tertiary age: These formations spread over very small parts of the Region and overlie the
northern extensions of the Dharwar craton.
(vi) Younger basins (Mesozoic–Tertiary): These sediments include Gondwanas of Palar basin, Cretaceous rocks of
Tiruchinapally, Cuddalore Sandstone, Warkala beds, Quilon beds etc.
(vii) Beach and Inland Placers : They are part of Quaternary group of rocks. The beach and inland placers of Tamil Nadu
and Kerala host some of the richest deposits of ilmenite, monazite, rutile, garnet, zircon and sillimanite.
Present Thrust areas of Investigations
The present thrust on uranium exploration is on Proterozoic unconformities with the basement rocks. As such thethree basins viz. Kaladgi-Badami and the Bhima basin in Karnataka and the Cuddapah basin in Andhra Pradesh areunder active exploration.
Uranium Exploration in Bhima Basin
Uranium exploration programme in Bhima basin was taken up in 1995 in
analogy to other Proterozoic basins in India and abroad. An integrated
exploration programme was launched viz., satellite image analysis and
litho-structural mapping, 2100 line km Car borne radiometrics, 16330 line
km airborne gamma ray spectrometry and magnetics, 7000 sq km hydro-
geochemistry, ground radiometrics, gamma ray logging of domestic
borewells and sub-surface core and non-core drilling. All these led to
identify a number of surface uranium occurrences along Gogi-Kurlagere
and Wadi fault zones besides a number of potential target zones delineated
by hydro-geochemical survey. Heliborne time domain electromagnetic
(TDEM), magnetic and gamma ray spectrometry was also completed
recently.
Extensive sub-surface drilling (55000m) at Gogi has established 4264 te of U3O8 with an average grade of
0.17%U3O8 hosted in limestone and granite. Some of the boreholes intercepted uranium mineralisation of the order
of 0.25%U3O8 x 20.48m in limestone and 0.48%U3O8 x 16.82m in granite. It is one of the complex structurally
controlled epigenetic hydrothermal type uranium mineralisation which necessitated close spaced drilling. Pitchblende
and coffinite are the main uranium minerals. The ore is having anomalous concentration of REE, Pb, Ag, and Au. Gogi
uranium deposit is located 12km west of Shahapur, the Taluk town and 75km south of Gulbarga the district town. The
nearest rail head is Yadgir about 40km to the east.
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Exploratory mining is under progress to study the ore body nature and to obtain bulk ore for process studies.
Sub-surface exploration is continuing in the extension areas of Gogi uranium deposit e.g., Darshanapur and Halbhavi
areas. Apart from Gogi –Kurlagere and Wadi fault zones, many other prominent faults in Bhima basin are also under
various stages of investigations, especially the significant hydro-uranium anomalous zones of Kamarwadi, Sedam, Santi
and Farhatabad fault zone. Bhima basin has got immense potential for discovering more uranium deposits.
Uranium Exploration in Kaladgi Basin
The meso to neo-Proterozoic Kaladgi Basin, covering an area of 8500 km2 occupies the northwestern fringes of the
western Dharwar craton, in parts of Karnataka, Maharashtra and Goa. The northern and western extension of the
basin is covered by Deccan Trap. The basin exposes sediments of older Bagalkot and younger Badami groups of
Kaladgi Super Group. The Bagalkot group consists of ortho-quartzite, shale,
dolomite and limestone, which are highly deformed. Conglomerate, arenite,
shale and limestone constitute the main rock types of Badami group, which
are undeformed. Achaean Peninsular gneisses, Chitradurga schists of
Dharwar super group and intrusive Closepet granite and its equivalents
form the basement rocks for these sediments. E-W, NE-SW and NW-SE
trending faults and fractures have affected both basement rocks and the
sediments.
Uranium exploration was initiated in the sixties with a multipronged
strategy. An area of 6600 km2 has been covered by Airborne Gamma ray Spectrometric and Magnetic surveys in the
eastern and western parts of the basin, along the basin margin during 1984. Interpretation of Litho-structural map
based on LANDSAT imagery and aero-radiometric data of 3000 km2 indicated that eastern part of the basin is a
favourable for uranium mineralisation. Hydro-uranium anomalous zones around Deshnur, Yadwad, Chipalkatti,
Hulikeri and Tugunshi areas were delineated by regional geochemical survey, carried over an area of 7500 km2.
Uranium, thorium and mixed anomalies were located in basement granite, conglomerate and arenite at Tugunshi,
Siddankola, Hulikeri, Khanapur and Almatti in the eastern part and Deshnur, Khangaon and Hanbarhatti in the
western part of the basin as a result of extensive ground radiometric survey carried out over an area of 8000 km2.
Ground geophysical survey viz., resistivity, magnetic and electro-magnetic surveys were also carried out along
favourable zones, covering an area of 20 km2, around Deshnur and 7 km2 around Hulihatti.
Reconnaitary drilling ( 25000m) was carried out around Tugunshi, Siddankola, Murdi, Hulikeri, Khanapur and
Deshnur to locate unconformity type of mineralisation. Uranium values ranging from 0.010% to 0.034% U3O8 was
recorded in Badami arenite in boreholes around Tugunshi area (16°02’41”:75°43’20”), whose thickness varies from
0.50 to 1.70m. Significant uranium mineralisation has been located near Deshnur, which is located at 30 km east of
Belgaum (15°54’50”:74°43’50”) in the year 2005. The mineralisation is confined to the unconformity surface in
feldspathic conglomerate and arenite of Badami group. The grade and thickness varies from 0.015% to 0.13% U3O8
and 2.50 to 63.20m, respectively. Correlatable mineralization has been established over a strike length of 360m along
NE-SW direction. Pitchblende and coffinite are identified as main uranium minerals. Bravoite, arsenopyrite,
chalcopyrite, covellite, bornite, sphalerite and galena are the sulphide phases associated with mineralisation. Kaladgi
Basin offers an ideal geological setting to host typical unconformity type uranium deposit.
Cuddapah Basin a Uranium Province -Tummalapalle Uranium Deposit: Cuddapah Basin in South Indian Shield is an
established Uranium Province. Five types of Uranium mineralisation of varying age are reported here. They are i)
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Basement granite hosted Fracture controlled type (Mullapalle); ii) Gulcheru quartzite hosted Structurally controlled
type; iii) Dolostone (Vempalle formation) hosted Stratabound type (Tummalapalle); iv) Shear controlled type in Eastern
margin (Kasturigattu), v) Unconformity type between basement granite and Srisailam quartzite (Lambapur).
Tummalapalle uranium deposit (14019’45”N; 14020’4”N: 78015’17”E,
78016’67”E) is situated in Cuddapah district of Andhra Pradesh, falls in
toposheet no. 57J/7. Pulivendla is the nearest town at a distance of 12 km
from mine site. This town is linked by road with major cities such as
Bangalore (220km), Hyderabad (400km), and Tirupathi 250km.
Geologically this deposit and its extension areas are located at the south-
western part of Proterozoic Cuddapah basin over an area of 15km x 2km
from Rachakuntapalle village in east to Motnutalapalle in west.
Uranium concentration in dolostone near Tummlapalle was first discovered
in 1986 during the investigation carried out by GSI for phosphates.
Subsequently, surface and sub surface investigation by AMD in two phases
i.e. from 1987 to 1993 and 2007 to till date have proved substantial uranium reserves. Here uranium mineralisation is
of strata-bound , associated with the dolostone in Vempalle Formation, in the western margin of Papaghni Sub-basin. It
extends from Reddipalle in the northwest to Maddimadugu in the southeast over a belt of 160 km. Vempalle
Formation overlies the Gulcheru Formation with transitional boundary. Vempalle Formation is around 1900m thick and
study of the complete sequence of Vempalle Formation in the explored areas shows that the carbonate facies
commences with massive limestone, followed by thin band of conglomerate, uraniferous -phosphatic dolostone, purple
shale and cherty limestone. Ultrafine pitchblende and uraninite are the main uranium minerals while coffenite, U –
Si-Ti complex as well as little U in the adsorbed form with callophane have been identified as minor U – mineral
phases. The associated ore minerals are mainly pyrite, molybdenite, chalcopyrite, bornite, digenite and covellite.
During first phase of investigation, uranium mineralisation in Tummalapalle area was proved over 6.6km in strike
length and 1.2km along dip from 15m to 250m depth. Uranium mineralisation occurs along the bedding planes with
dip of 150 to 170 due N220E and as two bands, hangwall and footwall band with a vertical separation of 1m to 5m
Both the bands show isotropic character along and across the strike in terms of grade and thickness. Average
thickness of these bands are 2.3m and 1.75m for hangwall and footwall respectively and average grade 0.05 % eU3O8
at 0.02 cut off. During this phase 37635m. in 264 boreholes have been drilled and 14687te of U3O8 have been
proved. Investigation in this area was suspended in 1993 due to leaching constraints and shifts in priority areas of
AMD in Cuddapah basin.
Second phase of exploration for Tummlapalle type of uranium deposit was initiated in 2007. The main reasons for
again initiating exploration activity for strata bound carbonate hosted uranium mineralisation in Vempalle Formation,
in the Papaghni sub-basin are (a) Significant improvement in leaching process (b) demand for uranium in Indian
nuclear programme (c) large geological domain of hosting significant uranium deposit (d) high level of confidence in
lateral and down dip continuity of uranium mineralisation both in terms of grade and thickness (e) Very low ratio of
drilling metres to tonnage and (f) forest free - ground accessibility and suitability for executing drilling progrmme .
During second phase of exploration programme, about 68000.00m of drilling have been completed and approximately
31500te of U3O8 has been added in Tummalapalle deposit and its extension areas. Sub surface drilling in the area is
still continued.
Uranium Investigations in Tamilnadu: The state of Tamil Nadu with an area of 1,30,0528 sq.km is situated in the South
–eastern part of Indian peninsula between latitudes 08° 00’ and 13°30’ and longitudes 76°15’ and 80°18’.
Geologically, Tamil Nadu forms a part of Pandian Mobile Belt (PMB) in the southern granulite terrain which covers
Tamil Nadu, Kerala and marginal parts of Karnataka. About 80% of the area is occupied by the crystalline rocks
mainly comprised of granulites, charnockite, gneisses, migmatites, Khondalite, layered mafic and ultra mafic, basic,
ultrabasic, alkaline and granite suit of rocks of Archaean to Palaeozoic age (3200-390 Ma). It includes the southern
extension of Kolar Schist Belt of Karnataka and Andhra Pradesh comprising of greenstone rocks designated as Kolar
Group (2700-2900 Ma) which extends as dismembered lenses and linear patches within the Peninsular Gneiss in the
northern part of Tamil Nadu. The phanerozoic sedimentary rocks ranging in age from Lower Permian to Mio-Pliocene
and covered with quarternary sediments of Pleistocene to Recent are exposed in the coastal region.
Tectonically, it is affected by many prominent lineaments, the major being E-W trending Palaghat-Cauvery and Moyar-
Bhavani-Attur lineaments. The area to the north of PCL exhibits NNE to NE-SSW to SW trending fracture /lineaments,
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the major being Dharmapuri rift zone which extends from Bhavani in the west and Gudiyattham in the east. The area
to the south of Palaghat-Cauvery lineament (PCL) is called Pandian Mobile Belt (PMB) and the NW-SE trending
Achankoil lineament is developed at the southern most fringe of PMB.
The survey and exploration for atomic minerals was initiated in Tami Nadu during 1948 by the Madras Party of then
Rare Minerals Survey Unit (RMSU). In the earlier stages of investigations (1950-55), emphasis was given to locate
beryle bearing pegmatites occurring within the crystallines. Radioactivity due to thorium was reported in general and
a few uranium anomalies were reported in (a) granite and pegmatites in the western margin of Suryamalai batholiths
at the contact of hornblende biotite gneiss in Kullampatti (1955-56), Kodamedu and Serandampalayam (1981-82)
areas in Salem district; (b) carbonaceous clay overlying the lignite in Neyveli area in Cuddalore district (1962-63); (c)
quartz veins occurring within the migmatite and gneiss in Narlapalli and Pungurthi (1971-72) areas in Dharmapuri
district (d) alkali syenites in Rasimalai hill (1992-93) and quartz barite veins in Andyapanur-Ponmalai-
Narasingapuram tract (1989-90) and Pungulam area (2006-07) which are emplaced within the quartzo-feldspathic
epidote bearing hornblende gneiss in the northern part of Dharmapuri rift zone in parts of Vellore district. Besides,
several uranium –thorium –REE-Nb-Ta anomalies were reported in the carbonatites and quartz-barite veins associated
with the alkaline complexes occurring within the Dharmapuri Rift Zone in the northern parts of Tamil Nadu. Those
associated with carbonatite are reported in Sevathur and Pakkanadu and Mulakkadu (1972-73) areas and some of
them associated with pegmatites are in Kurumbatti area of Srinivasa Mica mines (1950-51), Suliapatti (1966-67) and
Manaparai (1969-70) areas.
Other facilities available at Southern Region
The Region is equipped with various facilities in different laboratories such as:
Physics Laboratory.
Chemistry Laboratory
Petrology Laboratory
Spectrograph Laboratory
Remote Sensing Laboratory
Northern | Southern | Eastern | North Eastern | Western | Central | SouthCentral
Southern region http://www.amd.gov.in/regions/sr.htm
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