Palynostratigraphic, palaeoenvironmental and palaeogeographic significance of the Early Cretaceous palynoflora of Kachchh Basin, western India

Sediments of Bhuj Formation (Early Cretaceous) occur in the Kachchh Basin, western India containing abundant and diverse plant fossils. Sedimentary successions of the formation exposed along Pur River comprise variably thickened shale, carbonaceous shale, thin coal seam, siliceous clays, etc. and have yielded abundant megaspores, microspores, conifer pollen grains, dinoflagellate cysts and colonies of Botryococcus alga. Two palynozones are recognized in the recorded palynoassemblage, viz. Minerisporites cutchensis megaspore zone at the basal part, derived mostly from herbaceous vegetation growing along pro–deltaic swampy habitat. The succeeding Araucariacites australis zone in the upper part of the succession probably derived from conifer–dominated forest inhabited along the freshwater swamps, flourishing in a more humid and warm temperate climate. The palynofloras of both palynozones are biostratigraphically very significant indicating Late Aptian–Early Albian age of the succession. A majority of the palynotaxa recorded from the studied sedimentary succession show resemblance with the contemporaneous deposits of other Gondwana continents of the Southern Hemisphere.

[1]  B. S. Venkatachala Palynology of the Umia plant beds of Kutch, W. India - 2. Bhuj exposures near Walkamata, Kutch district, Gujarat state - Systematic palynology , 2022, Journal of Palaeosciences.

[2]  A. Rajanikanth,et al.  Early Cretaceous flora from the Pranhita-Godavari Basin (east coast of India): taxonomic, taphonomic and palaeoecological considerations , 2017 .

[3]  R. Mehrotra,et al.  Botryococcus from the Early Eocene Lignite Mines of Western India: Inferences on Morphology, Taphonomy and Palaeoenvironment , 2017, Palynology.

[4]  S. N. Césari,et al.  Revised stratigraphic framework of the Cretaceous in the Bajo Grande area (Argentinean Patagonia) inferred from new U–Pb ages and palynology , 2016 .

[5]  E. P. Ferreira,et al.  Palynological and sedimentary analysis of the Igarapé Ipiranga and Querru 1 outcrops of the Itapecuru Formation (Lower Cretaceous, Parnaíba Basin), Brazil , 2016 .

[6]  Ibrahim M. Ied,et al.  Palynostratigraphy and paleobiogeography of the Jurassic – Lower Cretaceous succession in Kabrit-1 well, northeastern Egypt , 2016 .

[7]  G. Fauth,et al.  Albian Palynostratigraphy of ODP Leg 207 (Holes 1257A, 1258C and 1260B), Demerara Rise, Equatorial Atlantic , 2014 .

[8]  R. Tyson,et al.  Palynofacies analysis and palynology of the Agua de la Mula Member (Agrio Formation) in a sequence stratigraphy framework, Lower Cretaceous, Neuquén Basin, Argentina , 2013 .

[9]  E. Schrank,et al.  Palynozonation of the Cretaceous to Lower Paleogene Strata of the Muglad Basin, Sudan , 2012 .

[10]  V. P. Loinaze,et al.  Palynostratigraphic study of the Early Cretaceous Río Mayer and Kachaike formations at the Quebrada El Moro Section, Austral Basin, southwestern Argentina , 2012 .

[11]  S. Gallagher,et al.  A new subdivision of the Albian spore-pollen zonation of Australia , 2012 .

[12]  R. Wagh,et al.  Paleo-Environmental Significance of Ichnofossils from the Bhuj Formation ( Gondwana Sediments ) of the Kachchh Region , Northwestern India , 2012 .

[13]  M. Erlström,et al.  The Jurassic-Cretaceous transition of the Fararp-1 core, southern Sweden: Sedimentological and phytological indications of climate change , 2011 .

[14]  D. Batten,et al.  Megaspores from mid Cretaceous deposits in western France and their biostratigraphic and palaeoenvironmental significance , 2010 .

[15]  O. F. Gallego,et al.  Stratigraphy, palynology, and conchostracans of a Lower Cretaceous sequence at the Cañadón Calcáreo locality, Extra-Andean central Patagonia: age and palaeoenvironmental significance , 2009 .

[16]  A. Tripathi Palynochronology of Lower Cretaceous volcano-sedimentary succession of the Rajmahal Formation in the Rajmahal Basin, India , 2008 .

[17]  B. Das,et al.  Petrology, geochemistry and paleomagnetism of the earliest magmatic rocks of Deccan Volcanic Province, Kutch, Northwest India , 2008 .

[18]  S. Archangelsky,et al.  Taxonomy and biostratigraphy of Cretaceous megaspores from Patagonia, Argentina , 2008 .

[19]  M. Philippe,et al.  Cretaceous Floras from Snow Island (South Shetland Islands, Antárctica) and Their Biostratigraphic Significance , 2008 .

[20]  Leo J. Hickey,et al.  Early cretaceous fossil evidence for angiosperm evolution , 2008, The Botanical Review.

[21]  B. Das,et al.  Petrology, geochemistry and magnetic properties of Sadara sill: Evidence of rift related magmatism from Kutch basin, northwest India , 2006 .

[22]  J. Kvaček,et al.  Early angiosperm ecology: evidence from the Albian-Cenomanian of Europe. , 2006, Annals of botany.

[23]  M. Quattrocchio,et al.  Early Cretaceous palynostratigraphy, palynofacies and palaeoenvironments of well sections in northeastern Tierra del Fuego, Argentina , 2006 .

[24]  Jack Kappelman,et al.  The Occurrence of the Fern Acrostichum in Oligocene Volcanic Strata of the Northwestern Ethiopian Plateau , 2006, International Journal of Plant Sciences.

[25]  P. V. R. Babu On the Ancient Deltas of India , 2006 .

[26]  G. Ogg EARLY CRETACEOUS PALYNOMORPHS OF THE WESTERN PACIFIC OCEAN 1 , 2006 .

[27]  M. A. Carvalho Palynological assemblage from Aptian/Albian from the Sergipe Basin: paleoenvironmental reconstruction , 2004 .

[28]  Johanna H. A. van Konijnenburg-van Cittert,et al.  A sporomorph ecogroup model for the Northwest European Jurassic - Lower Cretaceousi: concepts and framework , 2004, Netherlands Journal of Geosciences - Geologie en Mijnbouw.

[29]  V. A. Krasilov Terrestrial palaeoecology and global change , 2003 .

[30]  A. Drinnan,et al.  Early Cretaceous megaspore assemblages from southeastern Australia , 2002 .

[31]  Vijaya,et al.  An Early Cretaceous age for the Rajmahal traps, Panagarh area, West Bengal: palynological evidence , 2002 .

[32]  A. Herman Late Early-Late Cretaceous floras of the North Pacific Region: Florogenesis and early angiosperm invasion , 2002 .

[33]  S. McLoughlin The breakup history of Gondwana and its impact on pre-Cenozoic floristic provincialism , 2001 .

[34]  A. Sánchez-Pérez,et al.  AQUATIC AND WETLAND PLANTS OF PUERTO RICO. I. PTERIDOPHYTA , 1999 .

[35]  M. Macphail Palynostratigraphy of the murray basin, inland Southeastern Australia , 1999 .

[36]  Vijaya Palynological dating of the Neocomian–Aptian succession in the Indian Peninsula , 1999 .

[37]  C. Scotese,et al.  Gondwanan palaeogeography and pal˦oclimatology , 1999 .

[38]  A. Clausing Palaeoenvironmental significance of the green alga Botryococcus in the lacustrine rotliegend (upper carboniferous ‐ lower permian) , 1999 .

[39]  D. Cantrill,et al.  The age of the base of the Gustav Group in the James Ross Basin, Antarctica , 1998 .

[40]  G. Retallack Earliest Triassic origin of Isoetes and quillwort evolutionary radiation , 1997, Journal of Paleontology.

[41]  B. Balme Fossil in situ spores and pollen grains: an annotated catalogue , 1995 .

[42]  I. Metcalfe Gondwanaland origin, dispersion, and accretion of East and Southeast Asian continental terranes , 1994 .

[43]  A. Hallam,et al.  Jurassic Climates as Inferred from the Sedimentary and Fossil Record - Discussion , 1993 .

[44]  D. Batten,et al.  Morphological reassessment of some zonate and coronate megaspore genera of mainly post-Palaeozoic age , 1993 .

[45]  D. Guy-Ohlson Botryococcus as an aid in the interpretation of palaeoenvironment and depositional processes , 1992 .

[46]  R. Davey,et al.  Dinoflagellate cysts of the Cretaceous System , 1992 .

[47]  A. Powell A Stratigraphic index of dinoflagellate cysts , 1992 .

[48]  M. Garrett,et al.  Morphology, ecology and distribution of Isoetes L. in Tasmania , 1992 .

[49]  W. Taylor,et al.  Habitat, evolution, and speciation in Isoetes , 1992 .

[50]  A. K. Jaitly,et al.  Faunal response to transgressive-regressive cycles: example from the Jurassic of western India , 1991 .

[51]  R. Garg,et al.  'The fossil flora of Kachchh, IV- Tertiary, palynostratigraphy' by Ranjit K. Kar (1985): A critique on dinoflagellate cysts , 1990, Journal of Palaeosciences.

[52]  B. Mohr Early Cretaceous Palynomorphs from ODP Sites 692 and 693|the Weddell Sea|Antarctica , 1990 .

[53]  A. Lugo,et al.  Soil Salinity, Sun Exposure, and Growth of Acrostichum aureum, the Mangrove Fern , 1990, Botanical Gazette.

[54]  E. Masure Albian-Cenomanian Dinoflagellate Cysts from Sites 627 and 635, Leg 101, Bahamas , 1988 .

[55]  D. Batten,et al.  Dinoflagellate cyst associations in Cenomanian-Turonian “black shale” sequences of Northern Europe , 1988 .

[56]  R. Garg,et al.  Jurassic and Lower Cretaceous dinoflagellate cysts from India with some remarks on the concept of Upper Gondwana , 1987, Journal of Palaeosciences.

[57]  H. K. Maheshwari,et al.  Palynozonation of Jhuran and Bhuj formations in Kutch Basin , 1987, Journal of Palaeosciences.

[58]  S. Biswas Regional tectonic framework, structure and evolution of the western marginal basins of India , 1987 .

[59]  G. Retallack,et al.  Cretaceous angiosperm invasion of North America , 1986 .

[60]  H. K. Maheshwari,et al.  The fossil floras of Kachchh. II - Mesozoic megaspores , 1984, Journal of Palaeosciences.

[61]  R. Below Aptian to Cenomanian Dinoflagellate Cysts from the Mazagan Plateau, Northwest Africa (Sites 545 and 547, Deep Sea Drilling Project Leg 79) , 1984 .

[62]  A. Hallam Continental humid and arid zones during the jurassic and cretaceous , 1984 .

[63]  R. Below Aptian to Cenomanian dinoflagellate cysts from the Mazagan Plateau , 1984 .

[64]  Y. Varma,et al.  Palynology of the Gangapur beds, Pranhita-Godavari Basin, Andhra Pradesh , 1983 .

[65]  R. Tryon,et al.  Ferns and Allied Plants , 1982 .

[66]  J. Sclater,et al.  A model for the evolution of the Indian Ocean and the breakup of Gondwanaland , 1979 .

[67]  G. Williams Palynological Biostratigraphy, Deep Sea Drilling Project Sites 367 and 370 , 1978 .

[68]  I. McLachlan,et al.  Preliminary Palynological Results: Site 361, Leg 40, Deep Sea Drilling Project , 1978 .

[69]  R. H. Tschudy Stratigraphic distribution of species of the megaspore genus Minerisporites in North America , 1976 .

[70]  H. K. Maheshwari Palynology of the Athgarh formation, near Cuttack, Orissa , 1973, Journal of Palaeosciences.

[71]  L. Hills,et al.  Megaspores and other palynomorphs of the Brazeau formation (upper cretaceous), Nordegg area, Alberta , 1972 .

[72]  M. McElhinny Formation of the Indian Ocean , 1970, Nature.

[73]  R. K. Kar,et al.  Palynology of the Mesozoic sediments of Kutch, W. India. 10. Palynological zonation of Katrol (Upper Jurassic) and Bhuj (Lower Cretaceous) sediments in Kutch, Gujarat , 1969, Journal of Palaeosciences.

[74]  K. Campbell,et al.  Stratigraphy and palaeontology;: Essays in honour of Dorothy Hill , 1969 .

[75]  G. Playford,et al.  Palynology of the Australian Cretaceous: a review , 1969 .

[76]  B. S. Venkatachala Palynology of the Mesozoic sediments of Kutch - 4. Spores and pollen from the Bhuj exposures near Bhuj, Gujarat district , 1968, Journal of Palaeosciences.

[77]  G. Playford,et al.  Taxonomy of some Cretaceous spores and pollen grains from eastern Australia , 1968 .

[78]  B. S. Venkatachala Palynology of the umia plant beds of Kutch, Western India, 1: Stratigraphic palynology of the Bhuj exposures near Walkamata (Kutch district, Gujarat State) , 1967 .

[79]  S. Archangelsky,et al.  Spore and pollen types of the lower cretaceous in Patagonia (Argentina) , 1967 .

[80]  S. Roy,et al.  Studies on the Upper Gondwana of Cutch - 1. Mio and Macrospores , 1963, Journal of Palaeosciences.

[81]  M. Dettmann,et al.  Cretaceous "megaspores" and a closely associated microspore from the Australian region , 1958 .

[82]  A. Traverse Occurrence of the oil-forming alga Botryococcus in lignites and other Tertiary sediments , 1955 .

[83]  G. DE P. COTTER,et al.  Geology of India , 1940, Nature.