Palynostratigraphy and correlation of the coal bearing  Gondwana sediments in the Kothagudem sub basin of  the Godavari Graben, South India

Neha Aggarwal; Shreya Mishra; Neerja Jha; P.V. Shankar Rao

doi:10.54991/jop.2018.53

Authors

Neha Aggarwal Birbal Sahni Institute of Palaeosciences, 53 University Road, Lucknow 226007, India
Shreya Mishra Department of Geology, University of Delhi, Delhi 110007, India
Neerja Jha Birbal Sahni Institute of Palaeosciences, 53 University Road, Lucknow 226 007, India
P.V. Shankar Rao Singareni Collieries Company Limited, Kothagudem, Telangana, India

DOI:

https://doi.org/10.54991/jop.2018.53

Keywords:

Permian, Lower Gondwana, Kothagudem sub-basin, Sakmarian, Artinskian, Lopingian

Abstract

The present investigation deals with the palynology of five sections from the Kothagudem sub–basin of the Godavari Graben, India to unravel the biostratigraphy and palaeovegetation. The palynological analysis in the five sections of Rampur, Hemchandrapuram and Kothagudem areas revealed the presence of Karharbari (Palynozone–I), lower Barakar (Palynozone–II) and Raniganj (Palynozone–III) equivalent palynofloras in lithologically designated Barakar Formation. Palynozone–I is dominated by cordaitalean radial monosaccate pollen grains (Parasaccites spp., Plicatipollenites spp.) and trilete spores (Callumispora spp.) which represent colder climatic conditions. Palynozone–II is chiefly dominated by non–striate bisaccate (Scheuringipollenites spp. and Ibisporites spp.) and striate bisaccate (Faunipollenites spp., Striatopodocarpites spp.) grains of conifer and glossopterid origin indicating presence of peat–forming plants and conducive climatic condition for the coal formation. Palynozone–III is mainly dominated by striate bisaccate pollen grains of glossopterid origin along with conifer (Faunipollenites spp., Striatopodocarpites spp., Crescentipollenites spp.) and peltasperm (Falcisporites spp., Chordasporites spp.) pollen grains representing hot and humid conditions. Palynozone–III is characterized by the dominance of striate bisaccate taxa along with stratigraphically significant palynomorphs (Corisaccites sp., Guttulapollenites sp., Lunatisporites sp., Chordasporites sp., Falcisporites sp., etc.). On the basis of palynofloral composition Palynozone–I, II and III have been assigned to the Sakmarian (upper Karharbari), Artinskian (lower Barakar) and Lopingian (Late Permian) age respectively.

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References

Aggarwal N & Jha N 2013. Permian palynostratigraphy and palaeoclimate of Lingala–Koyagudem Coalbelt, Godavari Graben, Andhra Pradesh, India. Journal of Asian Earth Sciences 64: 38–57.

Anand–Prakash & Srivastava SC 1984. Miofloral studies of the Lower Gondwana sediments in Johilla Coalfield, Madhya Pradesh, India. Palaeobotanist 32: 243–252.

Archangelsky S & Vergel MM 1996. Capítulo 2. Cuenca Chacoparanense. Paleontología, Bioestratigrafía Y Paleoecología. Uruguay. p. 40–44. In: Archangelsky S (Editor)—El Sistema Pérmicoen la Republica Argentina y en la República Oriental del., Academia Nacional de Ciencias, Córdoba, Argentina.

Balme BE 1980. Palynology of Permian–Triassic Boundary beds at Kap Stosch, East Greenland. Meddelelser om Grønl and 200: 1–37.

Balme BE 1995. Fossil in situ spores and pollen grains: An Annotated Catalogue. Review of Palaeobotany and Palynology 87: 81–323.

Balme BE & Playford G 1967. Late Permian plant microfossils from the Prince Charles Mountains, Antarctica. Revue de Micropaleontologie 10: 179–192.

Banerjee M & Basu M 1987. Significance of Karharbari palynoassemblage in understanding environment of deposition with some observations in the Chitra Coalfield, Saharjuri Basin, Bihar; Proceedings of 5th All India Symposium on Palynology, Botany Department, Institute of Science, Nagpur, pp.33–38.

Beri A, Gutiérrez P & Balarino L 2011. Palynostratigraphy of the Late Palaeozoic of Uruguay, Paraná Basin. Review of Palaeobotany and Palynology 167: 16–29.

Bharadwaj DC 1966. Distribution of spores and pollen grains dispersed in the Lower Gondwana formations of India; Symposium on floristics and stratigraphy of Gondwanaland, Lucknow, pp. 69–84.

Bharadwaj DC 1975. Palynology in biostratigraphy and palaeoecology of Indian Lower–Gondwana formations. Palaeobotanist 22: 150–157.

Bharadwaj DC & Srivastava SC 1973. Sub–surface palynological succession in Korba Coalfield, M.P., India.Palaeobotanist 20: 137–151.

Bharadwaj DC & Tiwari RS 1977. Permian–Triassic miofloras from the Raniganj Coalfield, India. Palaeobotanist 24: 26–49.

Bharadwaj DC, Tiwari RS & Anand–Prakash 1979. Permo–Triassic palynostratigraphy and lithostratigraphical characteristic in Damodar Basin, India. Biological Memoir 4: 49–82.

Bhattacharyya AP 1997. Palynological recognition of the Karharbari– Barakar formations in the sub–surface sediments of Wardha Coalfield, Maharashtra, India. Palaeobotanist 46: 217–219.

Césari SN & Gutiérrez PR 2001. Palynostratigraphy of Upper Paleozoic sequences in Central–Western Argentina. Palynology 24: 113–146.

Chen Y–S, Shi Z, Anderberg AA & Gilbert MG 2011. Genera incertae sedis. In: Wu Z.–Y, Raven PH & Hong DY (Editors)—Flora of China, Beijing & St. Louis, MO: Science Press and Missouri Botanical Garden Press, 20–21, pp.892–894.

Elsik WC 1971. Microbiological degradation of sporopollenin. In: Brooks J, Grant PR, Muir M, Van Gijzel P & Shaw G (Editors)—Sporopollenin, Academic Press, London, pp.480–511.

Faegri K & Iversen J 1975. Textbook of Pollen Analysis. Munksgaard, Copenhagen, Denmark, pp.295.

Gould RE & Delevoryas T 1977. The biology of Glossopteris: evidence from petrified seed–bearing and pollen–bearing organs. Alcheringa 1: 87–399.

Havinga AJ 1971. An experimental investigation into the decay of pollen and spores in various soil types. In: Brooks J, Grant PR, Muir MD, Van Gijzel P & Shaw G (Editors)—Sporopollenin. Academic Press, London, pp.446–478.

Jha N 2004. Palynological dating of coal–bearing sediments from the Bottapagudem area, Chintalapudi sub–basin, Andhra Pradesh. Palaeobotanist 53: 61–67.

Jha N 2006. Permian palynology from India and Africa: A phytogeographical paradigm. Journal of Palaeontological Society of India 51: 43–55.

Jha N & Aggarwal N 2012. Permian–Triassic palynostratigraphy in Mailaram area, Godavari Graben, Andhra Pradesh, India. Journal of Earth System Sciences 121: 1257–1285.

Jha N & Aggarwal N 2015. Peat–forming environment of coal–bearing Permian sediments in Kachinapalli area of Godavari Graben, India. Revista Brasileira de Paleontologia 18: 239–250.

Jha N, Aggarwal N & Mishra S 2018. A review of the palynostratigraphy of Gondwana sediments from the Godavari Graben, India: Global comparison and correlation of the Permian–Triassic palynoflora. Journal of Asian Earth Sciences 163: 1–21.

Jha N, Basava Chary M & Aggarwal N 2012. Permian Triassic palynofloral transition in Chintalapudi area, Godavari Graben, Andhra Pradesh, India. Journal of Earth System Science121: 1287–1303.

Jha N, Sabina PK, Tewari R & Mehrotra NC 2011.Palynological dating and correlation of surface and subsurface sediments from Wardha Valley Coalfield, Maharashtra. Journal of the Geological Society of India 77: 137–148.

Jha N, Tewari R & Rajanikanth A 2007. Palynology of Permian Gondwana sequence of Umrer Coalfield Maharashtra. Journal of Geological Society of India 69: 851–857.

Kar R & Srivastava SC 2003. Palynological delimitation of the coal–bearing Lower Gondwana sediments in the southern part of Tatapani–Ramkola Coalfield Chhattisgarh, India. Journal of the Geological Society of India 61: 557–564.

Kemp EM, Blame BE, Helby RA, Playford G & Price PL 1977. Carboniferous and Permian palynostratigraphy in Australia and Antarctica: A Review. BMR Journal of Australian Geology and Geophysics 2: 177–208.

Korte C, Jones PJ, Brand U, Mertmann D & Veizer J 2008. Oxygen isotope values from high latitudes: Clues for Permian Sea–surface temperature gradients and Late Palaeozoic deglaciation. Palaeogeography Palaeoclimatology Palaeoecology 269: 1–16.

Korte C, Kozur HW & Veizer J 2005. δ13 C and δ18 O values of Triassic brachiopods and carbonate rocks as proxies for coeval seawater and palaeotemperature. Palaeogeography Palaeoclimatology Palaeoecology 226: 287–306.

Lakshminarayana G 1996. Stratigraphy and structural framework of the Gondwana sediments in the Pranhita–Godavari Valley, Andhra Pradesh. In: Guha PKS, Sengupta S, Ayyasami K & Ghosh RN (Editors)—Ninth International Gondwana Symposium, Hyderabad, Geological Survey of India. Oxford and IBH Publishing Co., New Delhi–Calcutta. pp. 311–330.

Lindström S 1995. Early Permian palynostratigraphy of the northern Heimefrontfjella mountain range, Dronning Maud Land, Antarctica. Review of Palaeobotany and Palynology 89: 359–415.

Lindström S 1996. Late Permian palynology of Fossilryggen, Vestfjella, Dronning Maud Land, Antarctica. Palynology 20: 11–44.

Lindström S & McLoughlin S 2007. Synchronous palynofloristic extinction and recovery after the end–Permian event in the Prince Charles Mountains. Antarctica: implications for palynofloristic turnover across Gondwana. Review of Palaeobotany and Palynology 145: 89–122.

MacRae CS 1988. Palynostratigraphic correlation between the Lower Karoo sequence of the Waterberg and Pafuri coal bearing basins and the Hammanskraal plant microfossil locality, Republic of South Africa. Department Mineral Energy Affairs, Geological Survey, Memoir 75, 217p.

Mahesh S, Sabina PK & Bilwa LM 2014. Palynology and depositional facet of Lower Permian (Artinskian) sediments from New Majri Opencast Mine, Wardha Basin, India. Journal of the Geological Society of India 83(6): 697–708.

Manum SB & Tien ND 1973. Palynostratigraphy of the Letewaka Coalfield (Lower Permian). Review of Palaeobotany and Palynology 16: 213–227. Meena KL 2000. Palynodating of subsurface sediments of bore–hole IBH–6 in IB–River Coalfield, Orissa, India. Geophytology 29: 111–113.

Mishra S, Jha N, Joshi H & Gahalain SS 2016. Palynological dating of sub–surface Gondwana sediments in Sattupalli area, Godavari Graben, Telangana. Geophytology 46: 33–41.

Murthy S, Chakraborti B & Roy MD 2010. Palynodating of subsurface sediments, Raniganj Coalfield, Damodar Basin, West Bengal. Journal of Earth System Science 119 (5): 701–710.

Murthy S, Ram–Awatar & Gautam S 2014. Palynostratigraphy of Permian succession in the Mand–Raigarh Coalfield, Chhattisgarh, India and phytogeographical provincialism. Journal of Earth System Science 123(8): 1879–1893.

Pande DK & Tiwari S 1994. Transfer Zone structural style in Gondwana grabens and its implications in Hydrocarbon Exploration. Proceedings of the Second Symposium on petroliferous basins of India, 3, KDM Institute of Petroleum Exploration, Oil and Natural Gas Commission, Dehradun, pp.101–114.

Playford G 1990. Proterozoic and Palaeozoic palynology of Antarctica: a review. In: Taylor TN & Taylor EL (Editors)—Antarctic Palaeobiology: its role in reconstruction of Gondwana, Springer–Verlag, pp.51–70.

Price PL 1976. Permian palynology of the Bowen Basin. In: Jensen AR, Exon NF, Anderson JC & Koppe WH (Editors)—A guide to the geology of the Bower and Surat basins in Queensland, Excursion Guide 3C, 25th International Geological Congress.

Raiverman V, Rao MR & Pal D 1986. Stratigraphy and structure of the Pranhita–Godavari Graben. Petroleum Asia Journal 18: 174–189.

Raja Rao CS 1982. Coalfield of India–2. Coal resources of Tamil Nadu, Andhra Pradesh, Orissa and Maharashtra. Bulletin of Geological Survey of India 45: 9–40.

Ram–Awatar 2001. Permo–Triassic boundary in South Rewa Basin–A palynological overview. Minetech 22(5): 61–71.

Ram–Awatar, Mukhopadhyay A & Adhikari S 2004. Palynostratigraphy of sub–surface Lower Gondwana, Pali sediments, Sohagpur Coalfield, M.P., India. Palaeobotanist 53: 51–59.

Sabina PK, Mahesh S & Bilwa LM 2007. A palynostratigraphic study of Lower Gondwana sediments from Bandar Coalfield, Nagpur District, Maharashtra. Journal of Geological Society of India 69(4): 834–840.

Sarate OS 1986. Palynological correlation of the coal seams of Pathakhera Coalfield, Madhya Pradesh, India. Geophytology 16: 239–248.

Semkiwa P, Kalkeuth W, Utting J, Mayagilo F, Mpanju F & Hagemann 1998. The geology, petrology, palynology and geochemistry of Permian coal basin in Tanzania, Namwele Mkomolo, MuzeGalula Coalfields. International Journal of Coal Geology 36: 63–110.

Souza PA & Marques–Toigo M 2005. Progress on the palynostratigraphy of the Permian strata in Rio Grande do Sul State, Paraná Basin, Brazil. Annals of Brazilian Academy of Sciences 77: 353–365.

Srivastava SC & Anand–Prakash 1984. Palynological succession of the Lower Gondwana sediments in Umaria Coalfield, Madhya Pradesh, India. Palaeobotanist 32: 26–34.

Srivastava SC & Bhattacharyya AP 1996. Palynofloral assemblages from Permian sediments, West Siang District, Arunachal Pradesh, India. In: Guha PKS, Sengupta S, Ayyasami K & Ghosh RN (Editors)—Ninth International Gondwana Symposium Hyderabad. Geological Survey of India. Oxford and IBH Publishing Co., New Delhi–Calcutta. pp. 261–268.

Srivastava SC & Jha N 1987. Palynology of Kamthi Formation from Chelpur area, Godavari Graben, Andhra Pradesh, India. Palaeobotanist 35: 342–346.

Srivastava SC & Jha N 1989. Palynology of Lower Gondwana sediments in the Godavari Graben, Andhra Pradesh, India. Palaeobotanist 37: 199–209.

Srivastava SC & Jha N 1990. Permian–Triassic palynofloral transition in Godavari Graben, Andhra Pradesh. Palaeobotanist 38: 92–97.

Srivastava SC & Jha N 1992a. Permian palynostratigraphy in Ramakrishnanpuram area, Godavari Graben, Andhra Pradesh, India. Geophytology 20: 83–95.

Srivastava SC & Jha N 1992b. Palynostratigraphy of Permian sediments in Manuguru area, Godavari Graben, Andhra Pradesh. In: Venkatachalam VS, Jain KP & Awasthi N (Editors)—Proceedings of Birbal Sahni Birth Centenary Palaeobotanical Conference, Geophytology 22: 103–110.

Srivastava SC & Jha N 1993. Palynostratigraphy of Lower Gondwana sediments in Chintalapudi Sub–Basin, Godavari Graben, Andhra Pradesh. Geophytology 23: 93–98.

Srivastava SC & Jha N 1995. Palynostratigraphy and correlations of Permian–Triassic sediments in Budharam area, Godavari Graben. Journal of Geological Society of India 46: 647–653.

Srivastava SC & Jha N 1996. Palynology of sub–surface Permian sediments in Koyagudem area, Godavari Graben, Andhra Pradesh. Geophytology 25: 131–136.

Srivastava SC & Sarate OS 1989. Palynostratigraphy of Lower Gondwana sediments from Shobhapur Block, Pathakhera Coalfield, Madhya Pradesh. Palaeobotanist 37: 125–133.

Stephenson MH 2008. Spores and pollen from the Middle and Upper Gharif members (Permian) of Oman. Palynology 32: 157–182.

Stephenson MH, Osterloff PL & Filatoff J 2003. Palynological biozonation of the Permian of Oman and Saudi Arabia: Progress and challenges. Geo Arabia 8: 467–496.

Taylor TN, Taylor EL & Krings M 2009. Palaeobotany: The Biology and Evolution of Fossil Plants, 2nd Edition, Academic Press, Boston, Amsterdam, pp. 1230.

Tiwari RS 1973. Palynological succession in the Barakar type area. Geophytology 3: 166–183.

Tiwari RS 1999. Paradigm of FAD, LAD and DOD of some miospore taxa in Late Permian and Early Triassic successions on the Indian Peninsula. Journal of Palaeontological Society of India 44: 69–89.

Tiwari RS & Singh V 1986. Palynological evidences for Permo–Triassic boundary in Raniganj Coalfield, Damodar Basin, India. Bulletin of Geological Mineral Metallurgy Society of India 54: 256–264.

Tiwari RS & Tripathi A 1992. Marker Assemblage zones of spore and pollen species through Gondwana Palaeozoic–Mesozoic Sequence in India. Palaeobotanist 40: 194–236.

Tiwari RS & Tripathi A 1987. Palynological zones and their climatic inference in the coal–bearing Gondwana of peninsular India. Palaeobotanist 36: 87–101.

Tiwari RS, Tripathi A & Jana BN 1991. Palynological evidence for Upper Permian Raniganj coals in western part of Talcher Coalfield, Orissa, India. Current Science 61: 407–420.

Tripathi A 1997. Palynostratigraphy and palynofacies analysis of subsurface Permian sediments in Talcher Coalfield, Orissa. Palaeobotanist 46: 79–88.

Tripathi A & Tiwari RS 1982. Barakar mioflora from Jharia Coalfield. Geophytology 12: 195–200.

Tripathi A, Vijaya, Murthy S, Chakraborty B & Das DK 2012. Stratigraphic status of coal horizon in Tatapani–Ramkola Coalfield, Chhattisgarh, India. Journal of Earth System Science 121(2): 537–557.

Truswell EM 1980. Permo–Carboniferous palynology of Gondwanaland: Progress and problem in the Decade to 1980. BMR Journal of Australian Geology and Geophysics 5: 95–111.

Wheeler A & Götz AE 2016. Palynofacies as a tool for high–resolution palaeoenvironmental and palaeoclimatic reconstruction of Gondwanan post–glacial coal deposits: no. 2 coal seam, Witbank Coalfield (South Africa). Palaeobiodiversity Palaeoenvironment 97: 259–271