Santanu Banerjee – Department of Earth Sciences, IIT Bombay

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Dr. Santanu Banerjee

Professor and Head
Department of Earth Sciences
Phone : +91-22-2576 7282
santanu [at] iitb.ac.in

About Me

Teaching

Academics

Positions

Awards & Honors

Activities

Lab

Publications

About Me

Research Interest

Sedimentology: Microbially induced sedimentary structures in Proterozoic, Precambrian sedimentation, Sedimentary facies and basin analysis in Precambrian Vindhyan basin of central India. Sequence stratigraphy of Vindhyan and Kutch basin. Stable isotopes and carbonate diagenesis, Recent sediments around Gulf of Cambay, provenance and tectonic settings, deep sea siliciclastic sedimentation in Cenozoic Andaman basin, Phanerozoic and Precambrian glauconites in sequence stratigraphic context, Jurassic black shale in Kutch and its implications
Petroleum Geology: Reservoir analysis of the subsurface Tapti basin using outcrop analogues. Sandstone and limestone diagenesis

Teaching

Sedimentology
Basin Analysis
Reservoir Sedimentology
Petroleum Exploration
Petroliferous Basins of India

Academics

Ph.D. (Geology), 1997
Jadavpur University, Kolkata
M.Sc. (Applied Geology), 1992
Allahabad University
B.Sc. (Geology), 1990
University of Burdwan

Positions

Chair Professor, Indian Institute of Technology Bombay since 2018
Guest Scientist, Università della Calabria (2017)
Guest Scientist, Universität Hannover (2015)
Guest Researcher, Pretoria University (2012)
Visiting Researcher, University of Saskatchewan (2010)
Guest Researcher, Pretoria University (2008)
Visiting Research Scientist, Indiana University (2002)
Professor, Indian Institute of Technology Bombay (2009 onward)
Faculty, Indian Institute of Technology Bombay (1999)
Assistant Geologist, Geological Survey of India (1997-1999)

Awards & Honors

Fellow, National Academy of Sciences India since 2024
Institute Chair Professor in Basic Sciences

Awards

Institute Chair Professor, IIT Bombay, 2018-2021
Research Publication Award, IIT Bombay, 2009, 2020, 2022
Excellent in Teaching Award, IIT Bombay, 2003, 2017,2023
National Geoscience Award in Basic Geosciences, 2016
International Councilor, Society for Sedimentary Geology (SEPM), 2014-2016
Ambassador, Society for Sedimentary Geology (SEPM) since 2007
Member, National Academy of Sciences India since 2006
BOYSCAST Fellowship, Government of India, 2002-2003
Gold medalist, MSc, Allahabad University, 1992

Editorial board member

Sedimentary Geology since 2024
Associate Editor-in-Chief, Journal of Palaeogeography since 2017
Associate Editor, Journal of Petroleum Exploration and Production Technology since 2023
Section Editor, Minerals since 2021
Topical Chief Editor, Arabian Journal of Geosciences since 2014
Editor, SN Applied Sciences since 2019
Associate Editor, Journal of Earth Systems Science since 2019-2022
Member of the Editorial Board, Journal of the Geological Society of India, 2008-2018
Editorial Advisory Board, Indian Journal of Geoscience, 2014-2018

Committee members

Member, DST FIST committee since 2024
Member, Research Advisory Committee, Wadia Institute of Himalayan Geology, 2021 onward
Technical Advisory Committee, Indian Statistical Institute, 2018-2022
Program Advisory Committee, Earth and Atmospheric Sciences, Science and Engineering Research Board, 2021-2022
Member, IODP India review committee, 2021 onward
Member, Performance Appraisal Board (PAB) for CSIR-NGRI 2021
Board of Studies, Goa University, 2019 onward
Member of National Review Committee for the IODP India, 2021 onward
Research Advisory Council, Birbal Sahni Institute of Palaeosciences, 2018-2021, 2024-2027

Activities

Research projects undertaken

Sr No	Sponsoring Agency	Title of project	Amount of grant (Rs.)	Period
18	Centre for Oil Gas and Energy, IIT Bombay	High-resolution sequence stratigraphic interpretations of Cretaceous succession of Jaisalmer Basin and its implications for reservoir characterisation	79 lakhs	2023-2025
17	Ministry of Earth Sciences	Morphodynamic Evolution of Curved River Bend: Processes, Mechanisms and Protection (Co-investigator)	11.25 lakhs	2023-2026
16	Ministry of Earth Sciences	Characterization and Discrete Fracture Network Modeling (DFN) of Coal fractures Implications on permeability sweet spotting (Co-Investigator))	5.6 lakhs	2023-2026
15	Center for Oil gas and Energy, IIT Bombay	Estimation of CO2 storage potential in select hydrocarbon fields of North-East India based on an integrated risk-assessment-and-management framework (Co-Investigator))	80 lakhs	2023-2026
14	SERB, TARE	Palynological study of Upper Gondwana successions of Western India	18.3 lakhs	2022-2025
13	Tata Centre for Technology and Design, IIT Bombay	Development of plant probiotics from lab to field in agriculture through microbial mineralization	15.5 lakhs	2022-2023
12	Center for Oil gas and Energy, IIT Bombay	Integrated reservoir characterization of Eocene Hydrocarbon-bearing carbonates of Mukta Field of HPB sector Bombay Offshore Basin (Co-Investigator)	53 lakhs	2020-2023
11	Department of Science and Technology, Government of India	Investigation of clay minerals for eco-friendly slow-release fertilizers	21 lakhs	2020-2023
10	ISRO-IITB Cell	Physico-chemical conditions of formation of bole beds within Deccan basalt for Martian analogue	25 lakhs	2019-2022
9	Ministry of Mines, Government of India	Mineralogical and geochemical characterization of Indian glauconites for alternative potassium fertilizers	27 lakhs	2016-2021
8	Department of Science and Technology, Government of India	An investigation of black shale of Jhuran Formation in Kutch for shallow marine anoxia in Jurassic	56 lakhs	2015-2018
7	BG Exploration and Production India Limited	Occurrences of Mesozoic organic-rich shales in western Continental margin of India	4 lakhs	2014-2015
6	Oil Industry Development Board	Organic Geochemistry of the Lignite bearing Palaeogene Sequence of Selected Sections of Gujarat and Rajasthan (Co-PI)	185 lakhs	2011-2015
5	Department of Science and Technology, Government of India	Glauconitization in sequence stratigraphic framework	15 lakhs	2011-2014
4	BG Exploration and Production India Limited	Facies, paleogeography and diagenesis of Cenozoic Carbonates, Kutch	16 lakhs	2008-2012
3	Department of Science and Technology, Govt. of India	Sequence stratigraphy of the Palaeogene succession of Kutch	29 lakhs	2008-2011
2	BG Exploration and Production India Limited	Characterization of modern coastal environments in the Gulf of Cambay	35 lakhs	2004-2008
1	Department of Science and Technology, Govt. of India	Facies, biomat and metazoan life: Semri Group, Eastern Son Valley, India	14 lakhs	2001-2004

Reviewer for papers submitted in Journals

Geology, Sedimentary Geology, Sedimentology, Journal of Sedimentary Research, Precambrian Research, Palaeogeography, Palaoeclimatology Palaeoecology, Gondwana Research, Marine and Petroleum Geology, Mesozoic Research, Quaternary Research, Depositional Record, Journal of Asian Earth Sciences, Journal of African Earth Sciences, Journal of South American Earth Sciences, Geological Journal, Geological Magazine, AAPG Bulletin, Applied Geochemistry, Chemosphere, Clays and Clay Minerals, Journal of Earth Systems Science, Journal of the Geological Society of India, Journal of Palaeogeography, Current Science, Geology Ecology and Landscapes, Arabian Journal of Geosciences, Indian Journal of Geosciences, Journal of the Indian Association of Sedimentologists

Students supervision

Ph.D.

Serial	Name of the student/ Research Scholar	Title of thesis	Year of completion	joint guide
1	S. Paikaray	Sedimentology of Vindhyan shale and their sorption potential for heavy metals and organic pollutants	2005	Prof. S. Mukherji, CESE
2	S. Jeevankumar	Facies sequence and biomat structures of the Semri Group in eastern Son valley	2006	–
3	S. Saha	Recent sediment characteristics in the Gulf of Cambay	2008	–
4	S. Chattoraj	Origin of glauconites in stratigraphic framework of the Cenozoic sedimentary succession of Kutch	2011	Prof. P.K. Saraswati
5	Runci Paul Mathew	Sequence stratigraphy and organic geochemistry of Tertiary lignites and black shales of western Kutch	2012	Prof. S. Dutta
6	Urbashi Sarkar	Depositional sequence analysis of Eocene succession of Kutch	2014	Prof. P.K. Saraswati
7	Ashwin Arora	Integrated sedimentological and organic geochemical investigations of the Mesozoic Jhuran Formation of Kutch for palaeo-environmental Interpretations	2017	Prof. S. Dutta
8	Udita Bansal	Origin, stratigraphic significance and geochemical characteristics of Cretaceous glauconites in Peninsular India	2017	Prof. Kanchan Pande
9	Sandip Kumar Roy	Facies architecture of the Andaman Flysch: Implications for deep water sedimentation and depositional model, Andaman basin	2017
10	Dhiren Kumar Ruidas	Sedimentological studies of Turonian-Maastrichtian succession of Narmada basin, Dhar District, Madhya Pradesh	2018	–
11	Angana Chaudhuri	Provenance, tectonic setting and palaeoweathering conditions of Middle Jurassic to Early Cretaceous sediments of Kutch	2019	–

M.Tech.

Serial	Name of the student/ Research Scholar	Title of thesis	Year of completion	Co-guide (s)
1	Indrajit Basu	Reservoir rock analysis of subsurface Tertiary sequence of Tapti Basin	2001	–
2	M. Roy Moulik	Evaluation of sorbent characteristics of soils and sediments: correlation with heavy metal sorption	2001	Prof. S. Mukherji, CESE
3	Shouvik Roy	A synthesis of sedimentology and stratigraphy of the Lower Vindhyan basin in the Son valley, M.P., U.P. and Bihar	2002	–
4	Rupdip Guha	Electrofacies and lithofacies analysis of the Early Oligocene clastic sedimentary succession, Surat depression, India	2003	Mr. A. Bhaduri, Schlumberger
5	Suryendu Dutta	Some aspects of sedimentology and paleobiology of the Lower Vindhyan central India	2003	Prof. B.D. Erdtmann,TU Berlin
6	Saikat Das	Investigation of Precambrian carbonaceous megafossils from India, China and Sweden- insights from electron microscopy and maturity study	2004	Prof. B.D. Erdtmann, TU Berlin
7	Arindam Pal	Reservoir characteristics of a well section, offshore Kutch basin	2004	–
8	M. Kamalraj	A seismic stratigraphic analysis of the syn-rift stratigraphy in a North Sea 3D seismic dataset	2005	Dr. Rob Nick, BGEPIL
9	S. Bhadra	A seismic stratigraphic analysis of the post-rift stratigraphy in a North Sea 3D seismic dataset	2005	Dr. Rob Nick, BGEPIL
10	Ashish Kundu	A combined field, petrography and geochemical study of Vindhyan shales, Son valley, central India	2005	–
11	Pradipta Saha	Characterization of recent coastal sediments in the southeastern part of the Gulf of Cambay	2006	–
12	Sagnik Dasgupta	Mapping of recent coastal sediments by remote sensing techniques in the southeastern part of the Gulf of Cambay	2006	–
13	Vinay K. Sahai	Characterization of late Palaeocene-early Eocene carbonaceous shale and lignite of Panandhro, Kutch basin	2007	–
14	Abhishek Chandra	Chemeical characterization of Bassein Formation in selected wells of Panna-Mukta block	2008	–
15	Urmi Khasnabis	Characterization of clay minerals for the shallow cores from the offshore Mahanadi basin	2008	–
16	Moumita Sen	Sequence stratigraphy of the Palaeogene Kutch Succession	2009	–
17	Ravishankar Karmakar	Interpretation and delineation of stratigraphy of 1D sand in the western flank of South Tapti using multidisciplinary data (seismic, petrophysics, core)	2009	Prof. G. Mohan, S. Rana, BGEPIL
18	Agniv Mukherjee	Delineation and interpretation of sand VI B of South Tapti basin using multidisciplinary data	2009	Prof. G. Mohan, S. Rana, BGEPIL
19	Debasish Bandyopadhyay	Deep water thin bed analysis: Krishna-Godavari basin, D6 block	2009	T.Klimentos, Schlumberger
20	Md. Nadeem	Shallow water shaly sand analysis of Tapti basin	2009	T.Klimentos, Schlumberger
21	Jerin C Jose	Petrographic and cathodoluminescence studies of selected sandstones and limestones from the Vindhyan Supergroup, Son valley, central India	2010
22	Suman Das	Microfacies analysis and diagenetic study of well A of Mukta Formation, Bombay offshore basin	2010
23	Swagatam Bhoumick	Petrographic, mineralogical and geochemical characterization of glauconites from Tertiary Kutch basin	2010
24	Aditi Sharma	Integrated Formation Evaluation of Basement Rocks	2010
25	Tuli Bakshi	Delineation and interpretation of II C sand of South Tapti basin using multidisciplinary data	2010
26	Rajib Sadhu	Petrography and geochemistry of Palaeogene clastic sediments of Andaman basin with reference to arc-trench slope break	2011
27	Priyanka Bhatta	Petrographic study and microfacies analysis of Neogene carbonates in Havelock Island, Andaman, India	2011
28	Swagata Paul	Provenance study of Palaeogene clastic sediments of Andaman trench slope break	2011
29	Gopalakrishna Kuna	AVO modelling study of sand IIA and IIB of South Tapti field	2011	G. Mohan
30	Jaydeep Khatu	Sedimentological study of deep cores from deep continental shelf (DCS) Block, Mumbai offshore basin	2011
31	Sabyasachi Pal	Delineation and characterization of sand V in South Tapti basin using seismic data	2012	Asit Kumar, BG India
32	Arif Mahammad	Petrographic studies on core samples of Bikaner-Nagur basin	2012
33	Anuradha Tewari	Origin of glauconites in Karai Formation, Cauvery basin, India	2012	Kanchan Pande
34	Dhiren Kumar Ruidas	Microfacies and stratigraphic analysis of Bagh group in Dhar District, Madhya Pradesh	2012
35	Chaitanya Kumar Varanasi	Integrated petrophysical evaluation of Tapti reservoir	2012	Prof. G. Mohan
36	Avijit Kar	Facies Analysis, Geochemisitry and Stratigraphic Significance of Glauconite in Bhalukona Formation, Singhora Group, Chattisgarh Spergroup	2014
37	Sayan Biswas	Facies and Palaeodepositional Environment of the Mesozoic Jhuran Formation of Kutch	2014
38	Bhattacharya Chandni	Stratigraphic Implications of Glauconite Samples from Jhuran and Bhuj Formations (Kutch) and Lameta Beds (Central India)	2014
39	Anup Bilas Thorat	Geochemistry of glauconites within the Karai Shale and its implications	2015
40	Rajesh Singh Sekhawat	Ichnology and facies of the Mesozoic Jhuran Formation, Kutch basin	2015
41	Sarita Patel	Geochemical characterization of glauconites of Ukra Hill member (western Kutch) and Bryozoan Limestone (Bagh bed, district Dhar and Jhabua, M.P.)	2016
42	Binod Gogoi	Oragnic geochemical investigation of organic-rich shales in the Kimmeridgian Jhuran Formation, onshore Kutch basin	2016
43	Akshay Verma	Microfacies study and palaeoenevironmental interpretation of siliciclastic Jhuran Formation in Mainland Kutch basin, western India	2016
44	Radhika Arora	Palynofacies study on a Mesozoic black shale in the western Kutch and its implications on depositional conditions and hydrocarbon source rock potential	2017
45	Nancy Burgohain	Geochemical Characterization of Cretaceous Glauconites of Mahadek Formation and Lameta Formation	2017
46	Sarang Kulkarni	Geochemical Characterization of Proterozoic Glauconites of Rabanpalli Formation of Bhima Basin, India	2017
47	Masood Alam	Provenance Study Of Mesozoic Sediments In Kutch, Gujarat, India	2018
48	Mohuli Das	Study of Phanerozoic Glauconites for Environmental Interpretation	2018
49	Anjalai Upadhyay	Study of Mesozoic golden oolites of Kutch, western India	2019
50	Arindam Choudhury	Study of Eocene glauconites and palaeoclimatic interpretations from detrital clay, Jaisalmer	2019

M.Sc.

Serial no.	Name	Title of dissertation	Year of completion
1	Shouvik Roy	Study of Recent sediments of Bombay beach	2000
2	Soumyadita Bose	Sedimentological studies on Intertrappeans around Nagpur	2000
3	Sohini Sur	Study of Porcellanite Formation around Dhanwahi, M.P.	2001
4	Sanjeev Kumar	Sedimentology and stratigraphy of the Lower Vindhyan Group around Nauhatta, Bihar, India	2002
5	Supratik Sarkar	Sedimentological study of Kajrahat Limestone near Kajrahat, Sonbhadra district, Uttar Pradesh	2003
6	Debapriya Chattopadhyay	Sedimentology and stratigraphy of the Tertiary	2004
7	Arjit Chattopadhyay	Some aspects of Tertiary stratigraphy of western Kutch	2005
8	Avik Manna	Facies and petrography of Mesozoic succession around Bhuj	2006
9	Nabamita Bhattacharya	Facies and paleogeography of Oligocene Chhasra Formation of western Kutch	2006
10	Shubodip Konar	Facies and paleogeography of Eocene sedimentary rocks Kutch, western India	2007
11	Pronomita Adhikary	Facies and depositional sequence of the Oligocene Maniyara Fort Formation of Kutch, western India	2007
12	Subhendu Sarkar	Petrological studies of the Fulra Limestone	2008
13	Soumyo Mitra	Petrographic studies of Fulra Limestone in Western Kutch	2009
14	Santa Dolui	Petrography study of Naredi Formation in Western Kutch	2009
15	Anusree Karmakar	Microfacies analysis and Diagenetic study of Fulra Limestone, Kutch, Gujarat	2010
16	Santanu Kumar Panda	Petrography of Maniyara Fort Formation in Western Kutch	2010
17	Sujit Chakraborty	Sedimentological study of Maniyara Fort Formation in Western Kutch, Gujarat	2011
18	Gauri Saha	Sedimentological Studies of the Fulra Limestone in Western Kutch	2011
19	Rituraj	Sedimentological study of the Bhuj Formation in and around Bhuj	2012
20	Arnab Nag	Analysis of Mesozoic clastic sedimentary rocks of Jhuran Formation, Kutch	2012
22	Anima Mahanta	Sedimentological study of sandstone of Jhuran Formation, Jurassic age, Kuch, Gujarat	2014
23	Shakuntala Sahoo	Geochemical investigations on black shales of the Jhuran Formation	2014
24	Bidisha Basu	Petrographical analysis and depositional history of carbonates, early Miocene, Kutch, India	2014
25	A Shiva Reddy	An investigation of the Kimmeridgian Jhuran Formatgion of Kutch for palaeoenvironment and prtovenance interpretation	2015
26	Subhajit Sahoo	Study of paleoredox conditions for deposition of black sha;le and interpretation of associated facies of Middle Member of Jhuran Formation, Kutch, Gujarat.	2015
27	A Shiva ReddyTulika Bakshi	Petrographic study of black shales in Jhuran Formation	2015
28	Sreejita Chatterjee	Study of limestones in the Bagh Group	2016
29	Mohammad Farooq Jafri	Study of Cretaceous glauconite in Lameta Formation of central India	2016

Research projects undertaken

Sponsoring Agency	Title of project	Amount of grant (INR)	Period
Department of Science and Technology, Government of India	Facies, biomat and metazoan life: Semri Group, Eastern Son Valley, India	1.4 million	2001-2004
BG Exploration and Production India Limited	Characterization of modern coastal environments in the Gulf of Cambay	3.5 million	2004-2008
Department of Science and Technology, Government of India	Sequence stratigraphy of the Palaeogene succession of Kutch	2.8 million	2008-2011
BG Exploration and Production India Limited	Facies, paleogeography and diagenesis of Cenozoic Carbonates, Kutch	1.6 million	2008-2012
Department of Science and Technology, Government of India	Glauconitization in sequence stratigraphic framework	1.5 million	2011-2014
BG Exploration and Production India Limited	Occurrences of Mesozoic organic-rich shales in western Continental margin of India	0.4 million	2014-2015
Department of Science and Technology, Government of India	An investigation of black shale of Jhuran Formation in Kutch for shallow marine anoxia in Jurassic	5.6 million	2015-2018
Ministry of Mines, Government of India	Mineralogical and geochemical characterization of Indian glauconites for alternative potassium fertilizers	5.6 million	2016-2019

Continuing education programmes conducted

Coordinator and course instructor, first winter school on Sedimentary facies and basin analysis organized by Department of Geological Sciences, Jadavpur University and sponsored by Department of Science and Technology, Govt. of India (duration three weeks, December 10-30, 2002).
Coordinator and course instructor, second winter school on Sedimentary facies and basin analysis organized by Department of Earth Sciences, IIT Bombay and sponsored by Department of Science and Technology, Govt. of India (duration three weeks, November 17 to December 7, 2003).
Principal coordinator and course instructor, third winter school on Sedimentary facies and basin analysis organized by Department of Earth Sciences, IIT Bombay and sponsored by Department of Science and Technology, Govt. of India (duration fifteen days, December 15-29, 2004).

Lab

Bg Petroleum Geoscience Lab.

The lab is partially funded by the BG Exploration and Production India Limited and is engaged in basic and applied research in sedimentology and petroleum geology. Ongoing research projects include topics related to sedimentary basin evolution, sequence stratigraphy and petroleum geology of several Indian basins. Research projects are funded by Government agencies and oil companies.

Facilities

Leica DM 4500 P microscope with wide ranging objectives from 1.25 X to 100 X with Leica DFC420 camera attachment and facilities for reflectance light, transmitted light and fluorescence.
Leica DMLSP microscope with image analysis system with Micropublisher 3.3 RTV camera. Image acquisition and analysis is performed with Leica Q-Win (Leica Microsystems) image analysis program based on MS-Windows.
Nikon SMZ 645 – binocular microscope
Wild Heerbrugg – stereozoom microscope
PETROG point counting software
BUEHLER vacuum impregnation equipment for grinding and polishing of friable samples.
BUEHLER PETROTHIN – easy to use precision thin sectioning equipment
BEUHLER METASERV thin section polishing system for automatic polishing

Ph.D. students/PDF Sanghita Sengupta, Angana Chaudhuri, Tathagata Roy Choudhuri, Pragya Singh, Pawan Kumar Rajak, Dipima Borgohain, Sankar Kumar Nahak

Publications

PAPERS IN INDEXED JOURNALS

137. Baldermann, A., Banerjee, S., Stefan Löhr, Rudmin, M., Warr, L., Chakraborty, A., 2024. Exploring reverse silicate weathering across geological time: a review. Clay Minerals. 1–27. https://doi.org/10.1180/clm.2024.27

136. Mohammed, I.Q., Sarin, T., Singh, P., Lawa, F.A., Farouk, S., Al-Kahtany, K., Banerjee, S., 2024. The influence of depositional conditions on chemical and mineralogical composition of glauconite: case study from the Late Cretaceous Dokan Basin in Kurdistan region of Iraq. Applied Clay Science, https://doi.org/10.1016/j.clay.2024.107639

135. Boukhalfa, K., Soussi, M., Renaud, J-Y, Banerjee, S. 2024. Sandstones and red-beds in the Lower Cretaceous Sidi Aich Formation, Chotts basin (Southern Tunisia): Facies, architecture and depositional environments. Geological Society of London Special Publication 545, https://doi.org/10.1144/sp545-2023-181

134. Han, Z., Banerjee, S., Corso, J.D., Hu, X., Kemp, D.B., 2024. Response of marine and terrestrial environments to Triassic–Paleogene hyperthermals. Palaeogeography Palaeoclimatology Palaeoecology, https://doi.org/10.1016/j.palaeo.2024.112562

133. Kang, S., Shao, L., Banerjee, S., Wang, S., Tracey, F., 2024. Ramp depositional model in an intracratonic basin: The Cambrian sedimentary successions in Yanshan area, North China. Geological Journal. https://doi.org/10.1002/gj.5056, pp. 1–28

132. Mahanta, A., Banerjee, S., Chakrabarty, S., 2024. Depositional architecture of the tide-dominated Late Oligocene hydrocarbon reservoirs in the Tapti-Daman Block, Mumbai Offshore Basin, India. Marine and Petroleum Geology, https://doi.org/10.1016/j.marpetgeo.2024.106979.

131. Nahak, S.K., Dasgupta, S., Prabhakar, N., Banerjee, S. 2024. Paleozoic to Mesozoic paleotectonic reconstructions of Gondwana assembly: insights from petrography, heavy mineral chemistry and detrital U–Th–total Pb monazite geochronology of sandstones in the Pranhita-Godavari Basin (SE India). Marine and Petroleum Geology https://doi.org/10.1016/j.marpetgeo.2024.106914

130. Mandal, S., Srimani, S., Mondal, I., Choudhuri, A., Das, A., Das, K., Banerjee, S., Sarkar, S., 2024. Seismic-Aseismic impact on marine depositional dynamics and sedimentary architecture: Study on multilayer – multiscale SSDS in Proterozoic Rohtas Limestone, India. Sedimentary Geology (2024), https://doi.org/10.1016/j.sedgeo.2024.106661.

129. Das, M., Dasgupta, S., Srivastava, A., Rajkhowa, D., Banerjee, S., 2024. Ichnological response to the Middle Eocene Climatic Optimum (MECO) in the Bartonian deposits of Kutch Basin, India. Palaeogeography Palaeoclimatology Palaeoecology, https://doi.org/10.1016/j.palaeo.2024.112183.

128. Singh, P., Banerjee, S., Wagh, D., Pande, K., Bhattacharya_,S., 2024. Origin of K-rich green clays within Late Cretaceous Deccan basalts: A local K-depository. Applied Clay Science https://doi.org/10.1016/j.clay.2024.107270

127. Dasi, E., Rudmin, M., Banerjee, S. 2024. Glauconite applications in agriculture: a review of recent advances. Applied Clay Science, https://doi.org/10.1016/j.clay.2024.107368

126. Das, M, Dasgupta, S., RoyChoudhury, T., D’souza, R., Banerjee, S., 2024. Impact of early Eocene (Ypresian) warming events on ichnological assemblage of the Naredi Formation, western Kutch (Kachchh) Basin of Gujarat, India. Palaeogeography Palaeoclimatology Palaeoecology, https://doi.org/10.1016/j.palaeo.2024.112063.

125. Rajak, P.K., Prabhakar, N., Banerjee, S., Dev, J.A., George, B.G., Tomson, J.K., 2024. Provenance of Mesozoic sandstones in the Saurashtra Basin using heavy minerals, geochemistry and geochronology: implications for paleogeographic reconstruction in western India. Marine and Petroleum Geology, https://doi.org/10.1016/j.marpetgeo.2024.106732.

124. Roy Choudhury, T., Srimani, S., Mondal, I., Chakrabarty, A., Banerjee, S., Sarkar, S., 2024. Berthierine authigenesis as grain pseudomorph? A new insight from the early Maastrichtian Kallankurichchi Formation, India. Applied Clay Science 249, 107255, https://doi.org/10.1016/j.clay.2024.107255

123. Menon, S., Khanna, P.K., Banerjee, S., 2024. Circum-Indian Holocene Sea-level Database: A repository of distinct RSL across the Indian Peninsula. Journal of Palaeogeography https://doi.org/10.1016/j.jop.2023.10.003

122. Mandal, S., Singh, A. Banerjee, S., Uddandam, P., Negi, R.S., 2024. Linking the impact on seismicity on paleogeographic evolution and sedimentary architecture: A case study from Middle Jurassic succession of Spiti Himalaya. Geological Magazine https://doi.org/10.1017/S0016756823000778.

121. Rajak, P.K., Prabhakar, N., Banerjee, S., 2024. Tracing source and palaeo-weathering conditions of quartzose sandstone in the Cretaceous Cambay Basin: A combined petrographical, geochemical and geochronological approach. Geological Journal, 1-22, https://doi.org/10.1002/gj.4891

120. Riaz, M., Banerjee, S., Latif, K., Liu, Z., Ahmed, M.S., Fathy, D., 2023. Understanding the origin of ancient carbonate ooids: recent findings. International Geology Review. https://doi.org/10.1080/00206814.2023.2220390.

119. Rudmin, M., López Quirós, A., Banerjee, S., Ruban, A., Shaldybin, M., Bernatonis, P., Singh, P., Dauletova, A., Maximov, P., 2023. Origin of Fe-rich clay minerals in early Devonian volcanic rocks of the northern Minusa Basin, Eastern Siberia. Applied Clay Science

118. Roy Choudhury, T., Singh, P., Chakraborty, A., Banerjee, S., 2023. Authigenic Fe Mineralization in Shallow to Marginal Marine Environments: A Case Study from the Late Paleocene-Early Eocene Cambay Shale Formation. Minerals 13, 646. https://doi.org/10.3390/ min13050646.

117. Singh, P., Banerjee, S., Roy Choudhuri, T., Bhattacharya, S., Pande, K. 2023. Distinguishing celadonite from glauconite for environmental interpretations: a review. Journal of Palaeogeography, https://doi.org 10.1016/j.jop.2023.02.001.

116. Baldermann, A., Banerjee, S., Czuppon, G., Dietzel, M., Farkaš, J., Lӧhr, S., Moser, U., Scheiblhofer, E., Wright, N.M., Zack, T., 2022. Impact of green clay authigenesis on element sequestration in marine settings. Nature Communications 13:1527, https://doi.org/10.1038/s41467-022-29223-6.

115. Rajak, P.K., Chaudhuri, A., Prabhakar N., Banerjee, S., 2022. Tracking sources and paleotectonic settings of Mesozoic sandstones in interlinked rift basins of western India: an integrated approach using petrography and heavy mineral chemistry. Journal of Paleogeography, 12, https://doi.org/10.1016/j.jop.2022.02.001.

114. Mandal, S., Roy Choudhury, T., Das, A., Sarkar, S., Banerjee, S., 2022. Shallow marine glauconitization during the Proterozoic in response to intrabasinal tectonics: a study from the Proterozoic Lower Bhander Sandstone, Central India. Precambrian Research 372, https://doi.org/10.1016/j.precamres.2022.106596.

113. Roy Choudhury, T., Khanolkar, S., Banerjee, S., 2022. Glauconite authigenesis during the warm climatic events of Paleogene: Case studies from shallow marine sections of western India. Global and Planetary Change, https://doi.org/10.1016/j.gloplacha.2022.103857.

112. Pereira, C.D., Khanolkar, S., Banerjee, S., Özcan, E., Saraswati, P.K., 2022. Larger benthic foraminifera and microfacies of Late Paleocene – Early Eocene sections in Meghalaya, northeast India. Journal of Foraminiferal Research 52, 43–59.

111. Singh, P., Banerjee, S., Pande, K., Bhattacharya, S., Sarkar, S., Le Pera, E., 2022. Authigenic green mica in interflow horizons within Late Cretaceous Deccan volcanic province, India and its genetic implications. Minerals, 12, 198, https://doi.org/10.3390/min12020198.

110. Roy Choudhury, T., Sunder Raju, P.V., Shaikh, T., Banerjee, S., 2022. An assessment of alternate fertilizer potential of glauconite deposits in India using simple beneficiation methods. Journal of the Geological Society of India 98, 181-184.

109. Dasgupta, S., Banerjee, S., Ghosh P., 2022. Petrographical and geochemical study of the syn-rift sediments, Pranhita-Godavari Gondwana basin, India: Genesis and paleo-environmental implications. Geosciences Journal 12, 230, https://doi.org/10.3390/geosciences12060230.

108. Rudmin, M., Banerjee, S., Sinkina, E., Ruban, A., Kalinina, N., Smirnov, P., 2022. A study of iron carbonates and clay minerals for understanding the origin of marine ooidal ironstone deposit. Marine and Petroleum Geology, https://doi.org/10.1016/j.marpetgeo.2022.105777.

107. Rudmin, M., Banerjee, S., Maximov, P., Novoselov, A., Trubin, Y., Smirnov, P., Abersteiner, A., Tang, D., Mazurov, A., 2022. Origin of ooids, peloids and micro-oncoids of marine ironstone deposits in Western Siberia (Russia). Journal of Asian Earth Sciences, https://doi.org/10.1016/j.jseaes.2022.105361.

106. Rudmin, M., Banerjee, S., Makarov, B., Ibraeva, K., Konstantinov, A., 2022. Mechanical Activation of Smectite-Based Nanocomposites for Creation of Smart Fertilizers. Applied Sciences 12, 809. https://doi.org/10.3390/ app12020809.

105. Rudmin, M., Banerjee, S., Makarov, B., Belousov, P., Kurovsky, A., Ibraeva, K., Buyakov, A., 2022. Glauconite urea nanocomposites as polyfunctional controlled release fertilizers. Journal of Soil Science and Plant Nutrition, 22, https://doi.org/10.1007/s42729-022-01006-4.

104. Roy Choudhury, T., Banerjee, S., Khanolkar, S., Meena, S.S., 2021. Paleoenvironmental conditions during the Paleocene-Eocene transition imprinted within the glauconitic Giral Member of the Barmer Basin, India. Minerals 12, 56. https://doi.org/10.3390/ min12010056.

103. Roy Choudhury, T., Banerjee, S., Khanolkar, S., Saraswati, P.K., 2021. Glauconite authigenesis during the onset of the Paleocene-Eocene Thermal Maximum: A case study from the Khuiala Formation in Jaisalmer Basin, India. Palaeogeography Palaeoclimatology Palaeoecology, 571, 110388, https://doi.org/10.1016/j.palaeo.2021.110388.

102. Khanolkar, S., Roy Choudhury, T., Saraswati, P.K., Banerjee, S., 2021. Late Paleocene-early Eocene foraminiferal assemblage and carbon isotope excursion indicating hyperthermal events in paleotropical succession of northwestern India. Journal of Foraminiferal Research 51, 4-13.

101. Chaudhuri, A., Chatterjee, A., Banerjee, S., Ray, J.S., 2021. Tracing multiple sources of sediments using trace element and Nd isotope geochemistry: Provenance of the Mesozoic succession in the Kutch Basin, western India. Geological Magazine 158, 359-374, https://doi.org/10.1017/S0016756820000539.

100. Rudmin, M, Banerjee, S., Dauletova, A., Ruban, A., 2021. Depositional Conditions of Cretaceous Ironstone Deposit in Chulym-Yenisey Basin (Western Siberia). Minerals 11, 1008, https://doi.org/10.3390/min11091008.

99. Rudmin, M., Kalinina, N., Banerjee, S., Reva, I., Kondrashova, E., Kanaki, A., Trubin, Y., Baldermann, A., Mazurov, A., 2021. Origin of Oligocene channel ironstones of Iisakovsk deposit (Turgay depression, northern Kazakhstan). Ore Geology Review, doi: https://doi.org/10.1016/j.oregeorev.2021.104391.

98. Tounekti, A., Boukhalfa, K., Roy Choudhury, T., Soussi, M., Banerjee, S., 2021. Global and local factors behind the authigenesis of Fe-silicates 2 (Glauconite/Chamosite) in Miocene strata of Northern Tunisia. Journal of African Earth Sciences, https://doi.org/10.1016/j.jafrearsci.2021.104342.

97. Banerjee, S., Choudhury, T.R., Saraswati, P.K., Khanolkar, S., 2020. The formation of authigenic deposits during Palaeogene warm climatic intervals: A review. Journal of Palaeogeography 9,27, https://doi.org/10.1186/s42501-020-00076-8.

96. Bansal, U., Banerjee, S., Nagendra, R., 2020. Is the rarity of glauconite in Precambrian deposits related to its transformation to chlorite? Precambrian Research 336, https://doi.org/10.1016/j.precamres.2019.105509.

95. Bansal, U., Banerjee, S., Pande, K., Ruidas, D.K. 2020. Unusual seawater composition of the Late Cretaceous Tethys imprinted in glauconite of Narmada basin, central India. Geological Magazine 137, 233-247.

94. Chaudhuri, A., Banerjee, S., Chauhan, G., 2020. Compositional evolution of siliciclastic sediments recording the tectonic stability of a pericratonic rift: Mesozoic Kutch Basin, western India. Marine and Petroleum Geology 111, 476-495.

93. Chaudhuri, A., Das, K., Banerjee, S., Fitzsimons, I.C.W., 2020. Detrital zircon and monazite tracks the source of Mesozoic sediments in Kutch to rocks of Late Neoproterozoic and Early Palaeozoic orogenies in northern India. Gondwana Research 80, 188-201.

92. Chaudhuri, A., Banerjee, S., Prabhakar, N., Das, A., 2020. The use of heavy mineral chemistry in reconstructing provenance: a case study from Mesozoic sandstones of Kutch Basin, India. Geological Journal, 55, 7807-7817, DOI: 10.1002/GJ.3922.

91. Mandal, S., Banerjee, S., Sarkar, S., Mondal, I., Roy Choudhury, T., 2020. Origin and sequence stratigraphic implications of high-alumina glauconite within the Lower Quartzite, Vindhyan Supergroup. Marine and Petroleum Geology, 112, https://doi.org/10.1016/j.marpetgeo.2019.104040.

90. Ruidas, D.K., Pomoni-Papaioannou, F.A., Banerjee, S., Gangopadhyay, T.K., 2020. Petrographical and geochemical constraints on carbonate diagenesis in an epeiric platform deposit: Late Cretaceous Bagh Group in central. Carbonates and Evaporites 35: 94, DOI: 10.1007/s13146-020-00624-2.

89. Sarkar, S., Banerjee, S., Chakraborty, P.P. 2020. Microbial Mat Structures and role of microbes in Precambrian siliciclastic sedimentation. Episodes 43, 164-174, https://doi.org/10.18814/epiiugs/2020/02009.

88. Choudhuri, A., Banerjee, S., Sarkar, S., 2020. A review of biotic signatures within the Precambrian Vindhyan Supergroup: Implications on evolution on microbial and metazoan life on Earth. Journal of Mineralogical and Petrological Science 115, 162-174.

87. Chandra, D., Vishal, V., Debbarma, A., Banerjee, S., Pradhan, S.P., Mishra, M., 2020. Role of composition and depth on pore attributes of Barakar Formation gas shales of Ib Valley, India using a combination of low pressure sorption and image analysis. Energy and Fuels. https://doi.org/10.1021/acs.energyfuels.0c00746.

86. Ghosal, S., Agrahari, S., Banerjee, S., Chakrabarti, R., Sengupta, D., 2020. Geochemistry of the Heavy Mineral Sands from the Garampeta to the Markandi beach, southern coast of Odisha, India: Implications of high contents of REE and Radioelements attributed to Placer Monazite. Journal of Earth Systems Science 129:152, https://doi.org/10.1007/s12040-020-01419-8.

85. Banerjee, S., Ghosh, P.S., Nagendra, R., Bhattacharya, B., Desai, B, Srivastava, A.K., 2020. Marine and Fluvial Sedimentation Including Erosion and Sediment Flux in Peninsular Indian Phanerozoic Basins. Proceedings of the Indian National Science Academy, 86, 351-363.

84. Li, J., Hu, X., Garzanti, E., Banerjee, S., BouDagher-Fadel, M., 2020. Late Cretaceous topographic doming caused by initial upwelling of Deccan magmas: stratigraphic and sedimentological evidence. Bulletin of the Geological Society of America 132, 835-849, doi: 10.1130/B35133.1.

83. Rudmin, M., Banerjee, S., Abdullayev, E., Mazurov, A., Filimonenko, E., Lyapina, E., Kashapov, R., Ruban, A., 2020. Ooidal ironstones in Cretaceous to Palaeogene sequences in western Siberia: assessment of processes of formation and relationship with regional and global Earth processes. Journal of Palaeogeography, 9:1 https://doi.org/10.1186/s42501-019-0049-z.

82. Rudmin, M.R., Banerjee, S., Yakich, T., Tabakaev, R., Ibraeva, K., Buyakov, A., Soktoev, B., Ruban, A., 2020. Formulation of a slow-release fertilizers by mechanical activation of smectite/glauconite and urea mixtures. Applied Clay Science 195, 105775, https://doi.org/10.1016/j.clay.2020.105775.

81. Rudmin, M., Banerjee, S., Makarov, B., 2020. Effects of the applications of glauconitic fertilizer on oat development: A two-year field-based investigation. Agronomy 10, 872; doi:10.3390/agronomy10060872.

80. Boukhalfa, K., Soussi, M., Ozcan, E., Banerjee, S., Tounekti, A., 2020. The Oligo-Miocene siliciclastic foreland basin deposits of northern Tunisia: Stratigraphy, Sedimentology and Paleogeography. Journal of African Earth Sciences, doi https://doi.org/10.1016/j.jafrearsci.2020.103932.

79. Jafarzadeh, M., Roy Choudhury, T., Taheri, A., Banerjee, S., Jafarian, A., 2020. Glauconite within Albian-Cenomanian Aitamir Formation, Kopet-Dagh Basin, northeastern Iran: Origin and implications for Cretaceous seawater. Arabian Journal of Geosciences, 13, 1236, doi: 10.1007/s12517-020-05920-8.

78. Bansal, U., Pande, K., Banerjee, S. ,Nagendra, R., Jagadeesan, K.C., 2019. The timing of oceanic anoxic events in the Cretaceous succession of Cauvery Basin: Constraints from 40Ar/39Ar ages of glauconite in the Karai Shale Formation. Geological Journal 54, 308–315.

77. Banerjee, S., Farouk, S., Nagm, E., Roy Choudhury, T., Meena, S.S., 2019. High Mg-glauconite in Campanian Duwi Formation of Abu Tartur Plateau, Egypt and its implications. Journal of African Earth Sciences, 156, 12-25.

76. Mandal, S., Choudhuri, A., Mondal, I., Sarkar, S., Chakraborty, P.P., Banerjee, S., 2019. Revisiting the boundary between lower and upper Vindhyan, Son valley, India. Journal of Earth Systems Science 128: 222. https://doi.org/10.1007/s12040-019-1250-2.

75. Rudmin, M., Mazurov, A., Banerjee, S., 2019. Origin of ooidal ironstones in relation to warming events: Cretaceous-Eocene Bakchar deposit, south-east Western Siberia, Marine and Petroleum Geology, 100, 309-325.

74. Rudmin, M., Banerjee, S., Makarov, B., Mazurov, A., Ruban, A., Oskina, Y., Tolkachev, O., Buyakov, A., Shaldybin, M., 2019. An investigation of plant growth by the addition of glauconitic fertilizer. Applied Clay Science 180, 105178, https://doi.org/10.1016/j.clay.2019.105178.

73. Saha, S., Burley, S., Banerjee, S., 2018. Mixing processes in modern estuarine sediments from the Gulf of Khambhat, western India. Marine and Petroleum Geology 91, 599-621.

72. Bansal, U., Banerjee, S., Ruidas, D.K., Pande, K., 2018. Origin and geochemical characterization of the glauconites in the Upper Cretaceous Lameta Formation, central India. Journal of Palaeogeography 7, 99-116.

71. Chattoraj, S.L., Banerjee, S., van der Meer, F., Champati Ray, P.K., 2018. Application of visible and infrared spectroscopy for the evaluation of evolved glauconite. International Journal of Applied Earth Observation and Geoinformation 64, 301-310.

70. Chaudhuri, A., Banerjee, S., Le pera, E., 2018. Petrography of Middle Jurassic to Early Cretaceous sandstones of the Kutch Rift Basin: Implications on provenance and basin evolution. Journal of Palaeogeography, https://doi.org/10.1186/s42501-018-0002-6.

69. Banerjee, S., Khanolkar, S., Saraswati, P.K., 2018. Facies and depositional settings of the Middle Eocene-Oligocene carbonates in Kutch. Geodinamica Acta, https://doi.org/10.1080/09853111.2018.1442609.

68. Saraswati, P.K., Khanolkar, S., Banerjee, S., 2018. Paleogene stratigraphy of Kutch, India: An update about progress in foraminiferal biostratigraphy. Geodinamica Acta, https://doi.org/10.1080/09853111.2017.1408263.

67. Rudmin, M., Oskina, Y., Banerjee, S., Mazurov,A., Soktoev, B, Shaldybin, M., 2018. Roasting-leaching experiments on glauconitic rocks of Bakchar ironstone deposit (Western Siberia) for evaluation their fertilizer potential. Applied Clay Science 162, 121-128.

66. Bansal, U., Banerjee, S., Pande, K., Arora, A., Meena, S.S., 2017. The distinctive compositional evolution of glauconite in the Cretaceous Ukra Hill Member (Kutch basin, India) and its implications. Marine and Petroleum Geology 82, 97-117.

65. Arora, A., Dutta, S. Gogoi, B., Banerjee, S., 2017. The effects of igneous dike intrusion on organic geochemistry of black shale and its implications: Late Jurassic Jhuran Formation, India. International Journal of Coal Geoloy 178, 84-99.

64. Palaparthi, J., Chakrabarti, R., Banerjee, S., Guin, R., Ghosal, S., Agrahari, S., Sengupta, D., 2017. Rapid Exploration for Economic REE Deposits along Beach Placers of Andhra Pradesh, Eastern Coast of India. Arabian Journal of Geosciences, DOI 10.1007/s12517-017-2973-5.

63. Rudmin, M., Banerjee, S., Mazurov, A., 2017. Compositional variation of glauconites in Uupper Cretaceous-Palaeogene sedimentary iron-ore deposits in south-eastern western Siberia. Sedimentary Geology 355, 20-30.

62. Rudmin, M., Banerjee, S., Mazurov, A., Makarovv, B., Martemyanov, D., 2017. Economic potential of glauconitic rocks in Bakchar deposit (S-E western Siberia) for alternate potash fertilizer. Applied Clay Science, 150, 225-233.

61. Liu, H., Meng, J., Banerjee. S., 2017. Estimation of palaeo-slope and sediment volume of a lacustrine rift basin: a semi-quantitative study on the southern steep slope of the Shijiutuo Uplift, Bohai Offshore Basin, China. Journal of Asian Earth Sciences 147, 148-163.

60. Banerjee, S., Bansal, U. Pande, K, Meena, S.S. 2016. Compositional variability of glauconites within the Upper Cretaceous Karai Shale Formation, Cauvery Basin, India: implications for evaluation of stratigraphic condensation. Sedimentary Geology 331, 12–29.

59. Banerjee, S., Bansal, U., Thorat, A., 2016. A review on palaeogeographic implications and temporal variation in glaucony composition. Journal of Palaeogeography 5, 43-71.

58. Arora, A., Banerjee, S., Dutta, S., 2016. Black shale in Late Jurassic Jhuran Formation of Kutch: Possible indicator of Oceanic Anoxic Event? Journal of the Geological Society of India 85, 265-278.

57. Chattoraj, S.L., Banerjee, S., Saraswati, P.K., Bansal, U., 2016. Origin, depositional setting and stratigraphic implications of Palaeogene glauconite of Kutch. Special Publication of the Geological Society of India 6, 75-88.

56. Saraswati, P.K., Banerjee, S., Sarkar, U., Chakraborty, S., Khanolkar, S, 2016. Eocene depositional sequence and cycles in Kutch. Special Publication of the Geological Society of India 6, 46-56.

55. Kumar, P., Saraswati, P.K., Banerjee, S., Ghosh, A., 2016. Sequence stratigraphic analysis of a shallow marine, mixed carbonate-siliciclastic system, early Miocene, Kutch. Special Publication of the Geological Society of India 6, 55-74.

54. Saraswati, P.K., Khanolkar, S., Raju, D.S.N., Banerjee, S., 2016. An updated Eocene stratigraphy of Kutch. Special Publication of the Geological Society of India 6, 25-31.

53. Saha, S., Burley, S., Banerjee, S., Ghosh, A., Saraswati, P.K., 2016. The morphology and evolution of tidal bar sand bodies in the macrotidal Gulf of Khambhat, western India. Marine and Petroleum Geology 77, 714-73.

52. Banerjee, S., Mondal, S., Chakraborty, P.P., Meena, S.S., 2015. Distinctive compositional characteristics and evolutionary trend of Precambrian glaucony: example from Bhalukona Formation, Chhattisgarh basin, India. Precambrian Research 271, 33–48.

51. Banerjee, S., Sarkar, S., Eriksson, P.G., 2014. Palaeoenvironmental and biostratigraphic implications of microbial mat-related structures: examples from modern Gulf of Cambay and Precambrian Vindhyan basin. Journal of Palaeogeography 3, 127–144.

50. Sarkar, S., Choudhuri, A., Banerjee, S., van Loon, A.J. (Tom), Bose, P.K., 2014. Seismic and non-seismic soft-sediment deformation structures in the Proterozoic Bhander Limestone, central India. Geologos 20, 79–93.

49. Sakar, S., Banerjee, S., Samanta, P, Chakraborty, P.P., Mukhopadhyay, S. and Singh, A.K., 2014. Spectral variation of Microbial mat records in siliciclastic rocks: examples from Four Indian Proterozoic basins and their modern equivalents in Gulf of Cambay. Journal of Asian Earth Sciences 91, 362–377.

48. Sarkar, S., Chakraborty, N., Banerjee, S., van Loon, A.J. (Tom), Bose, P.K., 2014. Siliciclastic-carbonate mixing modes in the river mouth palaeogeography of the Upper Cretaceous Garudamangalam Sandstone (Ariyalur, India). Journal of Palaeogeography 3, 233–256.

47. Sunder Raju, P.V., Eriksson, P.G., Catuneanu, O., Sarkar, S., Banerjee, S., 2014. A review of the inferred geodynamic evolution of the Dharwar craton over the ca. 3.5 – 2.5 Ga period and possible implications for global tectonics. Canadian Journal of Earth Sciences 51, 312–32.

46. Saraswati, P.K., Khanolkar, S., Raju, D.S.N., Dutta, S. and Banerjee, S., 2014. Foraminiferal Biostratigraphy of Lignite Mines of Kutch, India: Age of Lignite and Fossil Vertebrates. Journal of Palaeogeography 3, 90-98.

45. Eriksson, P.G., Banerjee, S., Catuneanu, O., Corcoran, P.L., Eriksson, K.A., Hiatt, E.E., Laflamme, M., Lenhardt, N., Long, G.F.D., Miall, A.D., Mints, M.V., Pufahl, P.K., Sarkar, S., Simpson, E.L. and Williams, G.E., 2013. Secular changes in sedimentation systems and sequence stratigraphy. Gondwana Research 24, 468-489.

44. Mathew, R.P., Tripathi, S.M., Banerjee, S. and Dutta, S., 2013. Palynology, Palaeoecology and Palaeodepositional Environment of Eocene Lignites and Associated Sediments from Matanomadh Mine, Kutch Basin, Western India. Journal of the Geological Society of India 82, 236-248.

43. Banerjee, S., 2013. Microbial mat-related peculiar tunnels and cracks from modern supratidal environment, Gulf of Cambay, India. International Journal of Earth Sciences 102, 2223.

42. Banerjee, S., Chattoraj, S.L., Saraswati, P.K., Dasgupta, S. and Sarkar, U. 2012. Mineralogy and geochemistry of lagoonal glauconites and their implications on origin and maturation: Oligocene Maniyara Fort Formation, western Kutch, India. Geological Journal 47, 357-371.

41. Banerjee, S., Chattoraj, S.L., Saraswati, P.K., Dasgupta, S. and Sarkar, U., 2012. Substrate control on formation and maturation of glauconites in the Middle Eocene Harudi Formation, western Kutch, India. Marine and Petroleum Geology 30, 144-160.

40. Banerjee, S., 2012. Discoidal microbial colonies. International Journal of earth Sciences 101, 1343.

39. Sarkar, U., Banerjee, S. and Saraswati, P.K., 2012. Integrated borehole and outcrop study for documentation of sea level cycles within the Early Eocene Naredi Formation, western Kutch, India. Journal of Palaeogeography 1, 126-137.

38. Saraswati, P.K., Sarkar, U and Banerjee, S., 2012. Nummulites solitarius – Nummulites burdigalensis lineage in Kutch with remarks on the age of Naredi Formation. Journal of the Geological Society of India 79, 476-482.

37. Bose, P.K., Eriksson, P.G., Sarkar, S., Wright, P., Samanta, P., Mukhopadhyay, S., Mandal, S., Banerjee, S. and Altermann, W., 2012. Sedimentation patterns during the Precambrian: a unique record? Marine and Petroleum Geology 33, 34-68.

36. Sharma, M., Kumar, S., Tiwari, M., Shukla, Y., Pandey, S.K., Srivastava, P. and Banerjee, S., 2012. Palaeobiological constraints and the Precambrian biosphere: Indian evidence. Proceedings of the Indian National Science Academy 78, 407-422.

35. Dutta, S., Mathews, R.P., Singh, B.D., Tripathi, S.M., Singh, A., Saraswati, P.K., Banerjee, S. and Mann, U. 2011. Petrology, palynology and organic geochemistry of Eocene lignite of Matanomadh, Kutch Basin, western India: Implications to depositional environment and hydrocarbon source potential. International Journal of Coal Geology 85, 91-102.

34. Saha, S., Ghosh, A., Banerjee, S., Saraswati, P.K. and Burley, S.D., 2011. Characteristic of an open coast tidal flat: example from Daman, west coast of India. Geological Society of India 77, 409-418.

33. Saha, S., Banerjee, S., Burley, S.D., Ghosh, A. and Saraswati, P.K., 2010. The influence of flood basaltic source terrains on the efficiency of tectonic setting discrimination diagrams: an example from the Gulf of Khambhat, western India. Sedimentary Geology 228, 1-13.

32. Chattoraj, S., Banerjee, S. and Saraswati, P.K., 2009. Petrographic study on modes of occurrence of glauconitic pellets from Late Palaeocene to Early Eocene Naredi Formation, Western Kutch, Gujarat. Journal of the Geological Society of India 73, 567-574.

31. Ghosh, A., Saha, S., Saraswati, P.K., Banerjee S., and Burley, S., 2009. Intertidal Foraminifera in the macrotidal Estuaries of the Gulf of Cambay: implications for interpreting sea level change in palaeo-estuaries. Marine and Petroleum Geology 26, 1592-1599.

30. Eriksson, P., Banerjee, S., Nelson, D., Catuneanu, O., Sarkar, S., Roberts, J., Rigby, M. and Ruban, D., Mtimkulu N. Mtimkulu and Sunder Raju, P.V., 2009. A Kaapvaal craton debate: nucleus of an early small “supercontinent” or affected by a “super continent-formation” (accretion) event? Gondwana Research 1, 354-372.

29. Sharma, M., Mishra, S., Dutta, S., Banerjee, S. and Shukla, Y., 2009. On the affinity of Chuaria-Tawuia complex: A multidisciplinary study. Precambrian Research 173, 123-36.

28. Kumar, P., Saraswati, P.K. and Banerjee, S., 2009. Early Miocene shell concentration in the mixed carbonate-siliciclastic system of Kutch and their distribution in sequence stratigraphic framework. Journal of the Geological Society of India 74, 432-444.

27. Banerjee, S., Jeevankumar, S. and Eriksson, P.G., 2008. Mg-rich ferric illite in marine transgressive and highstand systems tracts: examples from the Paleoproterozoic Semri Group, central India. Precambrian Research 162, 212-226.

26. Paikaray, S., Banerjee, S. and Mukherjee, S., 2008. Surface characteristics of shales and implication on metal sorption. Environmental Chemistry Letters 6, 91-94.

25. Paikaray, S., Banerjee, S. and Mukherjee, S., 2008. Geochemistry of shales from the Paleoproterozoic to Neoproterozoic Vindhyan Supergroup: implications on provenance, tectonics and paleoweathering. Journal of Asian Earth Sciences 32, 34-48.

24. Ghosh, A., Saha, S., Saraswati, P.K., Banerjee, S., Burley, S. and Gundu Rao, T.K., 2008. Gallitellia – A Proxy for Palaeo-monsoonal upwelling on the western coast of India? Current Science 95, 1608-1611.

23. Banerjee, S. and Jeevankumar, S., 2007. Facies and depositional sequence of the Mesoproterozoic Rohtas Limestone: eastern Son valley, India. Journal of Asian Earth Sciences 30, 82-92.

22. Banerjee, S., Bhattacharya, S.K. and Sarkar, S., 2007. Carbon and oxygen isotopic variations in peritidal stromatolite cycles, Paleoproterozoic Kajrahat Limestone, Vindhyan basin of central India. Journal of Asian Earth Sciences 29, 823-831.

21. Eriksson, P.G., Banerjee, S., Catuneanu, O., Sarkar, S., Bumby, A.J. and Mtimkulu, M.N., 2007. Prime controls on Archaean-Palaeoproterozoic sedimentation: change over time. Gondwana Research 12, 550-559.

20. Banerjee, S., Jeevankumar, S., Sanyal, P. and Bhattacharyya, S.K., 2006. Stable isotope ratios and nodular limestone of the Proterozoic Rohtas Limestone: Vindhyan basin, India. Carbonates and Evaporites 21, 133-143.

19. Banerjee, S., Dutta, S., Paikaray, S. and Mann, U., 2006. Stratigraphy, sedimentology and bulk organic geochemistry of black shales from the Proterozoic Vindhyan Supergroup (central India). Journal of Earth Systems Science 115, 37-48.

18. Banerjee, S., Bhattacharya, S.K. and Sarkar, S., 2006. Carbon and oxygen isotope compositions of the carbonate facies in the Vindhyan Supergroup, central India. Journal of Earth Systems Science 115, 113-134.

17. Dutta, S., Steiner, M., Banerjee, S., Erdtmann, B.D., Jeevankumar, S. and Mann, U., 2006. Chuaria circularis from the early Mesoproterozoic Suket Shale, Vindhyan Supergroup, India: insights from light and electron microscopy and pyrolysis-gas chromatography fossils from the Vindhyan Supergroup. Journal of Earth Systems Science 115, 99-112.

16. Sarkar, S., Banerjee, S., Samanta, P. and Jeevankumar, S., 2006. Microbial mat-induced sedimentary structures and their implications: examples from Chorhat Sandstone, M.P., India. Journal of Earth Systems Science 115, 49-60.

15. Sur, S., Schieber, S. and Banerjee, S., 2006. Petrographic observations suggestive of microbial mats from Rampur Shale and Bijaigarh Shale, Vindhyan basin, India. Journal of Earth Systems Science 115, 61-66.

14. Banerjee, S. and Jeevankumar, S., 2005. Microbially originated wrinkle structures on sandstone and their stratigraphic context: Palaeoproterozoic Koldaha Shale, central India. Sedimentary Geology 176, 211-224.

13. Banerjee, S., Sarkar, S. and Bhattacharyya, S.K. 2005. Facies, dissolution seams and stable isotope characteristics of the Rohtas Limestone (Vindhyan Supergroup) in the Son valley area, central India. Journal of Earth Systems Science 114, 87-96.

12. Sarkar, S., Banerjee, S., Eriksson, P.G. and Catuneanu, O., 2005. Microbial mat control on siliciclastic Precambrian sequence stratigraphic architecture: examples from India. Sedimentary Geology 176, 195-209.

11. Roymoulik, M., Banerjee, S. and Mukherji, S., 2005. Correlation between sorbent characteristics and metal sorption capacity of soils around Mumbai: implications on environmental hazard management. Journal of the Geological Society of India 66, 445-452.

10. Paikaray, S., Banerjee, S. and Mukherji, S., 2005. Sorption of arsenic on to Vindhyan shales: role of pyrite and organic carbon. Current Science 88, 1580-1585.

9. Paikaray, S., Banerjee, S., Mukherji, S., 2005. Sorption behavior of heavy metal pollutants onto shales and correlation with shale geochemistry. Environmental Geology 47, 1162-1170.

8. Parizot, M., Eriksson, P.G., Aifa, T., Sarkar, S., Banerjee, S., Catuneanu, O., Altermann, W., Bumby, A.J., Bordy, E.M., Louis van Rooy, J. and Boshoff, A.J., 2005. Microbial mat-related crack-like sedimentary structures in the c. 2.1 Ga Magaliesberg Formation sandstones, South Africa. Precambrian Research 138, 274-296.

7. Sarkar, S., Banerjee, S., Chakraborty, S. and Bose, P.K., 2002. Shelf storm flow dynamics: insight from the Mesoproterozoic Rampur Shale, central India. Sedimentary Geology 147, 89-104.

6. Rasmussen, B., Bose, P.K., Sarkar, S., Banerjee, S., Fletcher, I.R. and McNaughton, N.J., 2002. 1.6 Ga age for the Chorhat Sandstone: implications for the early evolution of animals. Geology 30, 103-106.

5. Bose, P.K., Sarkar, S., Chakraborty, S. and Banerjee, S., 2001. Overview of the Meso- to Neoproterozoic evolution of the Vindhyan basin, central India (1.4-0.55 Ga). Sedimentary Geology 141, 395-419.

4. Banerjee, S., 2000. Climatic versus tectonic control on storm cyclicity in Mesoproterozoic Koldaha Shale, central India. Gondwana Research 3, 521-528.

3. Sarkar, S., Chakraborty, P.P., Bhattacharya, S. and Banerjee, S., 1998. C-12 enrichment along intraformational unconformities within Proterozoic Bhander Limestone and its implications, Son valley, India. Carbonates and Evaporites 13, 108-114.

2. Bose, P.K., Banerjee, S. and Sarkar, S., 1997. Slope-controlled seismic deformation and tectonic framework of deposition of Koldaha Shale, India. Tectonophysics 269, 151-169.

1. Sarkar, S., Banerjee, S. and Bose, P.K., 1996. Trace fossils in the Mesoproterozoic Koldaha Shale, Central India, and their implications. Neues Jahrbuch fur Geologie und Palaontologie-Monatshefte 7, 425-438.

BOOK

1. Sarkar, S., Banerjee, S., 2020. A synthesis of depositional sequence of the Proterozoic Vindhyan Supergroup in Son valley, Springer, 188p. doi. 10.1007/978-981-32-9551-3

BOOKS EDITED

9. Khomsi, S., Bezzeghoud, M., Banerjee, S., Eshagh, M., Benim, A.C., Merkel, B., Kallel, A., Panda, S., Chenchouni, H., Grab, S., Barbieri, M., 2024 (Eds.), 2024. Selected Studies in Geophysics, Tectonics and Petroleum Geosciences. Proceedings of the 3rd Conference of the Arabian Journal of Geosciences (CAJG-3), https://doi.org/10.1007/978-3-031-43807-3, Springer, 220 p.

8. Çiner, A., Naitza, S., Radwan, A.E., Hamimi, Z., Lucci, F., Knight, J., Cucciniello, C., Banerjee, S., Chennaoui, H., Doronzo. D.M., Candeias, C., Rodrigo-Comino, J., Kalatehjari, R., Shah, A.A., Gentilucci, M., Panagoulia, D., Chaminé, H.I., Barbieri, M., Ergüler, Z.A. (Eds.), Recent Research on Sedimentology, Stratigraphy, Paleontology, Geochemistry, Volcanology, Tectonics and Petroleum Geology. Proceedings of the 2nd MedGU, (Volume 2), Springer, https://doi.org/10.1007/978-3-031-48758-3, 342p.

7. Lucci, F., Doronzo, D.M., Knight, J., Travé, A., Grab, S., Kallel, A., Panda, S., Chaminé, H.I., Rodrigo-Comino, J., Khomsi, S., Banerjee, S., Merkel, B., Chenchouni, H., 2023 (Eds.). Selected Studies in Geomorphology, Sedimentology, and Geochemistry. Proceedings of the 3rd Conference of the Arabian Journal of Geosciences (CAJG-3), https://doi.org/10.1007/978-3-031-43744-1_1, Springer, 208p.

6. Çiner, A., Banerjee, S., Lucci, F., Radwan, A.E., Shah, A.A., Doronzo, D.M., Hamimi, Z., Bauer, W., (Eds.), 2023. Recent Research on Sedimentology, Stratigraphy, Paleontology, Tectonics, Geochemistry, Volcanology and Petroleum Geology. Proceedings of the 1st MedGU, Istanbul 202, doi: 10.1007/978-3-031-43222-4. Springer, 252p.

5. Kallel, A., Barbieri, M., Rodrigo-Comino, J., Chaminé, H.I., Merkel, B., Chenchouni, H., Knight, J., Panda, S., Khélifi, N., Benim, A.C., Grab, S., El-Askary, H., Banerjee, S., Hadji, R., Eshagh, M., (Eds.), 2023. Selected Studies in Environmental Geosciences and Hydrogeosciences, https://doi.org/10.1007/978-3-031-43803-5, Springer, 272 p.

4. Meghraoui, M., Sundararajan, N., Banerjee, S., Hinzen, K., Eshagh, M., Roure, F., Chaminé, H.I., Maouche, S., Michard, A., 2022. Advances in Geophysics, Tectonics and Petroleum Geosciences. doi: 10.1007/978-3-030-73026-0, Springer, 891 p.

3. Banerjee, S. and Sarkar, S., 2021. Mesozoic Stratigraphy of India – A Multi-Proxy Approach. Springer, ISBN 978-3-030-71370-6.

2. Banerjee, S. Barati, R., Patil, S., 2019. Advances in Petroleum Engineering and Petroleum Geochemistry. Springer, 195 p.

1. Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W., 2007. An Atlas of microbial mat features preserved within the siliciclastic rock record. Elsevier Science, Amsterdam, 311 pp.

CHAPTERS IN BOOKS

25.Roy Choudhury, T., Banerjee, S., Khanolkar, S., 2022. The geochemical affinity of Paleogene glauconites in paleo-Tethyan deposits of India. In: Armstrong-Altrin, A., Pandarinath, K., Verma, S.K. (Eds.), Geochemical Treasures and Petrogenetic Processes. Springer, pp. 243-277, https://doi.org/10.1007/978-981-19-4782-7_10

24.Banerjee, S., Chakrabarty, S., Roy Choudhury, T., 2022. The application of glauconite for high-resolution stratigraphic interpretations of Eocene succession in India. In: Meghraoui, M., Sundararajan, N., Banerjee, S., Hinzen, K., Eshagh, M., Roure, F., Chaminé, H.I., Maouche, S., Michard, A., Al-amri, A. (Eds.), Advances in Geophysics, Tectonics and Petroleum Geosciences, pp. 369-372, https://doi.org/10.1007/978-3-030-73026-0_84.

23.Bansal, U., Banerjee, S., Borgohain, D., 2021. Records of Marine Transgressions and Paleo-depositional Conditions Imprinted Within Cretaceous Glauconites of India. In: Banerjee, S., Sarkar S. (Eds.), Mesozoic Stratigraphy of India – A Multi-Proxy Approach. Springer, pp. 443-467, https://doi.org/10.1007/978-3-030-71370-6_16.

22.Bansal, U., Banerjee, S., Chauhan, G., Rudmin, M., Borgohain, D., Upadhyay, A., 2021. Geochemistry of Callovian ironstone in Kutch and its stratigraphic implications. In: Banerjee, S., Sarkar S. (Eds.), Mesozoic Stratigraphy of India – A Multi-Proxy Approach. Springer, pp. 215-239, https://doi.org/10.1007/978-3-030-71370-6_7.

21.Chakraborty, N., Mandal, A., Nagendra, R., Srimani, S., Banerjee, S., Sarkar, S., 2021. Cretaceous deposits of India: A Review. In: Banerjee, S., Sarkar S. (Eds.), Mesozoic Stratigraphy of India – A Multi-Proxy Approach. Springer, pp. 39-85, https://doi.org/10.1007/978-3-030-71370-6_2.

20.Chaudhuri, A., Le Pera, E., Chauhan, G., Banerjee, S., 2021. Provenance and paleo-weathering of the Mesozoic Rocks of Kutch Basin: Integrating results from heavy minerals and geochemical proxies. In: Banerjee, S., Sarkar S. (Eds.), Mesozoic Stratigraphy of India: A Multi-Proxy Approach. pp. 173-213, Springer, https://doi.org/10.1007/978-3-030-71370-6.

19.Singh, P., Le Pera, E., Bhattacharya, S., Pande, K., Banerjee, S., 2021. Mineralogical and Textural Characteristics of Red Boles of Western Deccan Volcanic Province, India: Genetic and Paleoenvironmental Implications. In: Banerjee, S., Sarkar S. (Eds.), Mesozoic Stratigraphy of India – A Multi-Proxy Approach. Springer, pp. 697-722, https://doi.org/10.1007/978-3-030-71370-6_7.

18.Roy, S.K., Banerjee, S., 2020. Facies stacking of a deep sea depositional lobe: Case study from Paleogene Andaman Flysch, South Andaman Islands, India. In: Ray, J.S, and Radhakrishna, M. (eds.), The Andaman Islands and Adjoining Offshore: Geology, Tectonics and Paleoclimate. Springer, https://doi.org/10.1007/978-3-030-39843-9_3, p. 43-64.

17.Roy, S.K., Chaudhuri, A., Banerjee, S., 2020. Spatial variation in the composition of Andaman Flysch across the Andaman Islands in relation to source of sediments and tectonics. In: Ray, J.S, and Radhakrishna, M. (eds.), The Andaman Islands and Adjoining Offshore: Geology, Tectonics and Paleoclimate. Springer, https://doi.org/10.1007/978-3-030-39843-9_4, p. 65-91.

16.Bose, P.K., Sarkar, S., Das, N.G., Banerjee, S., Mandal, A., Chakraborty, N., 2015. Proterozoic Vindhyan basin: Configuration and evolution. Geological Society of London Memoir 43, 85–102

15.Banerjee, S., Sarkar, S., Eriksson, P.G. and Samanta, P., 2010. Microbially related structures in siliciclastic sediment resembling Ediacaran fossils: examples from India, ancient and modern. In: Microbial Mats: Modern and Ancient Microorganisms in Stratified Systems (Eds. J. Seckbach and A. Oren), Springer-Verlag, Berlin, pp. 111-129.

14.Eriksson, P.G., Sarkar, S., Banerjee, S., Porada, H., Catuneanu, O. and Samanta, P., 2010. Paleoenvironmental context of microbial mat-related structures in siliciclastic rocks: Examples from the Proterozoic of India and South Africa. In: Microbial Mats: Modern and ancient Microorganisms in Stratified Systems (Eds. J. Seckbach and A. Oren), Springer-Verlag, Berlin, pp. 73-108.

13.Eriksson, P.G., Bose, P.K., Catuneanu, O, Sarkar, S. and Banerjee, S., 2009. The nature of Precambrian clastic epeiric seas: some basic concepts. In: Holmden, C. and Pratt, B.R. (Eds.), Dynamics of Epeiric Seas: Sedimentological, Paleontological and Geochemical Perspectives. Geological Association of Canada Special Paper 48: 119-136.

12.Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W., 2007. Prologue: An Introduction to Microbial Mats. Chapter-1. In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp.1-4.

11. Eriksson, P.G., Schieber, J., Bouougri, G., Gerdes, G., Banerjee, S., Bose, P.K. and Sarkar, S., 2007. Classification of structures left by microbial mats in their host sediments. In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp. 39-52.

10.Eriksson, P.G., Porada, H., Banerjee, S., Sarkar, S., Bumby, A.J. and Noffke, N., 2007. Mat destruction features. In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp. 76-105.

9. Sarkar, S. and Banerjee, S., 2007. Some unusual and/or problematic features. In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp. 145-147.

8. Bose, P.K., Sarkar, S., Banerjee, S. and Chakraborty, S., 2007. Mat-related features From the Vindhyan Supergroup in central India. In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O., and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp. 181-188.

7. Schieber, J., Sur, S. and Banerjee, S., 2007. Benthic microbial mats in black shale units from the Vindhyan Supergroup, Middle Proterozoic of India: the challenges of recording the genuine article. In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp. 225-232.

6. Schieber, J., Gerdes, G., Eriksson, P.G., Sarkar, S., Bose, P.K., Banerjee, S., Catuneanu, O. and Altermann, W., Chapter 10: Conclusions In: Schieber, J., Bose, P.K., Eriksson, P.G. Banerjee, S., Sarkar, S., Catuneanu, O. and Altermann, W. (Eds.), An Atlas of Microbial Mat Features Preserved within the Clastic Rock Record, Elsevier, pp 285-288.

5. Sarkar, S., Banerjee, S. and Eriksson, P.G., 2004. Microbial mat features in sandstone illustrated. In: Eriksson, P.G., Altermann, W., Nelson, W., Mueller, D.R. and Catuneanu, O. (Eds.), The Precambrian Earth: Tempos and Events. Elsevier, Amsterdam, pp. 673-675.

4. Eriksson, P.G., Sarkar, S, Bose, P.K. and Banerjee, S., 2004. Sedimentation rate. In: In: Eriksson, P.G., Altermann, W., Nelson, W., Mueller, D.R. and Catuneanu, O. (Eds.), The Precambrian Earth: Tempos and Events. Elsevier, Amsterdam, pp. 675-677.

3. Banerjee, S. and Jeevankumar, S., 2003. Facies motif and paleogeography of Kheinjua Formation, Vindhyan Supergroup, eastern Son valley. In: Roy, A. and Mohabey, D.M. (Eds.), Advances of Precambrian of Central India. Gondwana Geological Magazine Special Volume 7, Gondwana Geological Society, Nagpur, pp. 363-370.

2 Sarkar, S., Chakraborty, S., Banerjee, S. and P.K. Bose, 2002. Facies sequence and cryptic imprint of sag tectonics in late Proterozoic Sirbu Shale, central India. In: Precambrian Sedimentary Environments: A Modern Approach to Ancient Depositional Systems (Ed. by W. Altermann and P. Corcoran), Special Publication of the International Association of Sedimentologists, No. 33, Blackwell Science, pp. 369-382.

1. Chakraborty, P.P., Banerjee, S., Das, N.G., Sarkar, S. and Bose, P.K., 1996. Volcaniclastics and their sedimentological bearing in Proterozoic Kaimur and Rewa Groups. Memoir of the Geological Society of India 36, 59-75.

PUBLISHED CONTRIBUTIONS TO ACADEMIC CONFERENCES

125.Singh, P., Banerjee, S., Wagh, D., Pande, K., Bhattacharya, S., 2023. Investigation of the compositional spectrum of clay minerals within interbasaltic green volcaniclastic beds of Late Cretaceous Deccan volcanic province. 36th International Meeting of Sedimentology, June 12-16, Dubrovnik, Croatia, p. 310.

124.Nahak, S.K., Dasgupta, S., Prabhakar, N., Banerjee, S., 2023. Use of heavy minerals as provenance indicator in fluvial successions of Paleo-Mesozoic Pranhita-Godavari Gondwana rift basin, India. 36th International Meeting of Sedimentology, June 12-16, Dubrovnik, Croatia, p. 481.

123.Singh, P., Banerjee, S., and Pande, K.: Paleoenvironmental implications of interbasaltic volcaniclastic sediments within Late Cretaceous Deccan volcanics, India, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-710, https://doi.org/10.5194/egusphere-egu23-710, 2023.

122.Borgohain, D., Phukan, S., and Banerjee, S.: Glauconitization within the late Cretaceous Mahadek Formation and its stratigraphic implications., EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-11099, https://doi.org/10.5194/egusphere-egu23-11099, 2023.

121.Nahak, S.K., Banerjee, S., 2022. A Reconstruction of palaeodrainage patterns for South-East Gondwana basins of peninsular India in the Palaeozoic period. 21st International Sedimentological Congress, (Beijing 2022), August 21-25, Abstract book, p.129.

120.Roy Choudhury, T., Banerjee, S., 2022. Glauconite authigenesis during the warm climatic events of Paleogene: Case studies from shallow marine sections of Western India. 21st International Sedimentological Congress, (Beijing 2022), August 21-25, Abstract book, p.175-176.

119.Singh, P., Banerjee, S., Bhattacharya, S., Le Pera, E., 2022. Red and green volcanic paleosol within Late Cretaceous Deccan volcanics, India: their paleoenvironmental implication. 21st International Sedimentological Congress, (Beijing 2022), August 21-25, Abstract book, p. 422-423.

118.Singh P., Banerjee S., Pande K., Bhattacharya S. and Le Pera E., 2022. Paleoenvironmental implication of interbasaltic bole beds between lava flow of Late Cretaceous Deccan volcanic province, India and their implication as Martian analogue. 5th International Conference of Palaeogeography, Wuhan, May 14-15, Id: T4-001, 66-68.

117.Bansal, U., Sundar Raju, P.V., Banerjee, S., 2022. Compositional evolution of glauconite within Proterozoic Gandikonta Formation, Cuddapah Basin, India and its implications. 21st International Sedimentological Congress, (Beijing 2022), August 21-25, Abstract book, p. 1965.

116.Chaudhuri, A., Banerjee, S., Das, K., Le Pera, E., 2021. Evidence of lost orogenies in the Mesozoic sedimentary record of the Kutch Basin, western India. 35th Meeting of Sedimentology, Prague, June 21-25, Contribution ID: 264, p. 102.

115.Singh, P., Banerjee, S., Pande, K., Bhattacharya, S., 2021. Volcaniclastic deposits within Late Cretaceous Deccan basalt, India and their implications on Martian weathering conditions, 35th IAS Meeting of Sedimentology, Prague, June 21–25, Contribution ID: 467, p. 40.

114.Singh, P., Banerjee, S., Pande, K., Bhattacharya, S., 2020. Mineralogical investigation of bole beds of Deccan volcanic province for Martian analogue. Indian Planetary Science Conference-2020, PRL, Ahmedabad, p. 91.

113.Pereira, C.D., Khanolkar S., Banerjee, S., Ozcan, E., Saraswati, P.K., 2019. Carbon isotope stratigraphy and environmental changes in the late Palaeocene – early Eocene succession of Meghalaya, NE India. GSA Annual Meeting, Phoenix, September 22-25, paper no. 149-12.

112.Banerjee, S., Roy Choudhuri, T., Khanolkar, S., Saraswati, P.K., 2019. The origin of Palaeogene glauconites in the palaeo-Tethyan margins in the background of warming events. IAS Meeting of Sedimentology, Rome, September 10-13, Session 6A-405.

111.Banerjee, S., Roy Choudhuri, T., Khanolkar, S., Saraswati, P.K., 2019. An investigation of Palaeogene glauconites in Cenozoic of Kutch in the background of warming events. 4th International Palaeogeography Conference, Beijing, September 20-22.

110.Banerjee, S., Roy Choudhury, T., Khanolkar, S., Saraswati, P.K., 2019. Unusual seawater composition in the Palaeogene Tethys imprinted in glauconites of Kutch. Second National Conference and Field Workshop on “Recent Studies on the Geology of Kachchh Basin”, p.14.

109.Banerjee, S., Roy Choudhury, T., Khanolkar, S., Saraswati, P.K., 2019. Formation of Palaeogene glauconites in Kutch in the background of warming events. IAS Meeting, Doctor Harsingh Gaur Vishwavidyalaya, Sagar, January 28-30.

108.Bansal, U., Banerjee, S., Ruidas, D.K., 2018. Compositional evolution of glauconite within the Upper Cretaceous Bagh Group of sediments, India. Geophysical Research Abstracts Vol. 20, EGU 2018-1677.

107.Roy, S.K., Banerjee, S., 2017. Deep water clastic sedimentation: Progression in understanding in processes, concepts and models. National Conference in Basin Dynamics, facies architecture and palaeoclimate and 34th Convention of Indian association of Sedimentologists, Amravati University, 19-21 December, p. 22-23.

106.Bansal, U., Banerjee, S., Pande, K., 2017. Mineralogy and Geochemistry of glauconites in the Maastrichtian Lameta Formation, Narmada basin. National Conference in Basin Dynamics, facies architecture and palaeoclimate and 34th Convention of Indian association of Sedimentologists, Amravati University, 19-21 December, p. 68-69.

105.Chaudhuri, A., Banerjee, S., Le Pera, E., 2017. Mesozoic Jhuran Formation, Kutch rift basin: analysis of sandstone characteristics. National Conference in Basin Dynamics, facies architecture and palaeoclimate and 34th Convention of Indian association of Sedimentologists, Amravati University, 19-21 December, p. 45-46.

104.Banerjee, S., Bansal, U., Pande, K., 2017. Influence of depositional condition and stratigraphic context on chemical compositions of Cretaceous glauconites in peninsular India. International Meeting of Sedimentology, Toulouse, October, 10-12, p. 76.

103.Chaudhuri, A., Arora, A., Banerjee, S., 2017. Physico-chemical characteristics of a Kimmeridgian black shale: Jhuran Formation, western India. International Meeting of Sedimentology, Toulouse, October, 10-12, p. 178.

102.Bansal, U., Ruidas, D.K., Banerjee, S., Pande, K., 2017. Origin and geochemical characterization of Maastrichtian glauconites within Lameta Formation, central India.Abstract Book of the Third International Palaeogeography Conference, September 23-25, Chengdu, p.32.

101.Chaudhuri, A., Banerjee, S., Le Pera, E., 2017.Sandstone petrography of the Mesozoic Jhuran Formation: implications on provenance and evolution of the Kutch rift basin. Abstract Book of the Third International Palaeogeography Conference, September 23-25, Chengdu, p.43.

100.Banerjee, S., 2016. Compositional variability of glauconite and its implications. 33rd Convention of Indian association of Sedimentologists, 12-14 November, Vanaras Hindu University, p.8. (keynote).

99.Banerjee, S., Bansal, U., Pande, K., 2016. Mineral Chemical Analysis of Glauconites Within the Upper Cretaceous Karai Shale Formation for Evaluation of Stratigraphic Condensation. AAPGG Annual Convention and Exhibition, Calgary, 19-22 June, theme 1.

98.Banerjee, S., 2016. Significance of glauconite for environmental interpretations. Developments in Geosciences in the past decade- emerging trends for the future and impact on society and Annual General meeting of the Geological Society of India, p. 38-39 (keynote), IIT Kharagpur, 21-23 October, 2016.

97.Roy, S.K., Banerjee, S., 2016. Thick-bedded sandstone facies of Andaman Flysch: variability and process controls along the Andaman Island arc. 33rd Convention of Indian association of Sedimentologists, 12-14 November, Vanaras Hindu University, p.60.
96.Gupta, S., Mitra, S., Mitra, K., Bhattacharya, S., Banerjee, S., Chauhan, P., Jain, N., Partasarathy, G., 2016. The drying of Mars: an analog from Kachchh, western India. AGU fall Meeting, 12-16 December, San Francisco, P21C-2131.

95.Banerjee, S., Mondal, S, Chakraborty, P.P., 2015. Distinctive geochemical characteristics and palaeogeographic implications of Precambrian glaucony: examples from Purana basins in India. GSA Annual Meeting, Baltimore, Maryland, November 1-4, paper no. 284-1.

94.Banerjee, S., Arora, S., Dutta, S., 2015. Modification in Textural and Geochemical Characteristics of Shallow Marine Black Shale in Proximity to Igneous Dykes in Kimmeridgian Jhuran Formation, India. AAPG Annual Convention and Exhibition, Denver, May 31 – June 3, 2015, article #90216.

93.Banerjee, S., Mondal, S, Chakraborty, P.P., 2015. Distinctive geochemical characteristics and palaeogeographic implications of Precambrian glaucony: examples from Purana basins in India. GSA Annual Meeting, Baltimore, Maryland, November 1-4, paper no. 284-1.

92.Banerjee, S., 2015. Palaeo-environmental interpretations of microbial mat-related sedimentary structures on modern clastic coasts from western India. 8th International Conference on Asian Marine Geology (ICAMG-8), Jeju Island, October 4-8, S-06 R-07.

91.Arora, A., Banerjee, S., Dutta, S., 2015. Stratigraphic implications of seismite bed within the siliciclastic Jhuran Formation in western India. 2nd International Palaeogeography Conference, Beijing, October 10-13, p.1.

90.Banerjee, S., Bansal, U., Thorat, A., 2015. A review on palaeogeographic implications and temporal variation in glaucony composition. 2nd International Palaeogeography Conference, Beijing, October 10-13, p.5.
89.Bansal, U., Banerjee, S., 2015. Influence of substrate, depositional setting and sequence stratigraphic context on compositional variability of Mesozoic glauconites in India. 2nd International Palaeogeography Conference, Beijing, October 10-13, p.7.

88.Mitra, S., Gupta, S., Bhattacharyya, S., Banerjee, S., Chauhan, P., Jain, N., 2015. Alteration and submergence of Deccan traps in Kutch, Gujarat, India: Imnplications for the role of Flood basaltic volcanism in the India Seychelles break-up. 12th International Symposium on Antarctic Earth Sciences, Goa, July 13-17, p. 131-132.

87.Banerjee, S., Mondal, S, Nagendra, R., 2015. Glauconite in the Neoproterozoic Rabanpalli Formation of Bhima basin and its implications. International Conference on Geosciences and Environment and 32nd Annual Convention of Indian association of Sedimentologists, 7-10 January, Annamalai University, p.34-35.

86.Banerjee, S., 2014. Palaeoenvironmental significance of microbial mat-related structures on siliciclastics: examples from the modern coastal plains of the gulf of Cambay and the Proterozoic Vindhyan basin, India. 2014 GSA Annual Meeting in Vancouver, British Columbia (19–22 October 2014), paper no. 175-5.

85.Banerjee, S., 2014. Microbial mat-related structures in siliciclastics as palaeo-environmental proxies: examples from Precambrian Vindhyan basin and modern Gulf of Cambay, India. 19th International Sedimentological Congress Geneva, 18-22 August, p. 42.

84.Arora, A., Banerjee, S. and Dutta, S., 2014. Effect of igneous dykes on geochemical properties of shallow marine-originated black shales: Kimmeridgian Jhuran Formation, India. 19th International Sedimentological Congress Geneva, 18-22 August, p. 30.

83.Bansal, U., Banerjee, S. and Pande, K., 2014. Geochemical characteristics of glauconite within transgressive deposits of Early to Late Cretaceous Karai Shale, Cauvery Basin, India. 19th International Sedimentological Congress, Geneva, 18-22 August, p. 45.

82.Mitra, S., Gupta, S., Bhattacharyya,S., Banerjee, S., Chauhan, P. and Parthasarthy, G., 2014. Jarosite Precipitation from Acidic Saline Waters in Kachchh, Gujarat, India: an Appropriate Martian Analogue? American Geophysical Union Fall Meeting, San Francisco, 15-19 December, P14A3891.

81.Banerjee, S., 2014. Microbial mat related structures in siliciclastics as palaeo-environmental proxies: examples from Precambrian Vindhyan basin and modern Gulf of Cambay, India. Convention of Indian Association of Sedimentologists, University of Pune, November 12-14, p. 2-3. 31st Convention of Indian Association of Sedimentologists, University of Pune, November 12-14, p. 2-3.

80.Mitra, S., Gupta, S. Bharadwaj, P., Bhattacharya, S., Banerjee, S., Chauhan, P., 2014. The truncated dome at Guneri, Kachchh, Gujarat: evidence of diapirism or basin inversion? Third Rock Deformation and Structures (RDS-III), Dibrugarh University, October, 29-31, p.123.

79.Banerjee, S. and Mondal, S., 2014. Glauconite in the Precambrian Bhalukona Formation (Chhatisgarh basin) and its implications. 31st Convention of Indian Association of Sedimentologists, University of Pune, November 12-14, p. 4-5.

78.Arora, A., Banerjee, S. and Dutta, S.,2014. Organic geochemical characteristics and thermal maturity aberrations within black shale of Kimmeridgian Jhuran Formation, India. 31st Convention of Indian Association of Sedimentologists, University of Pune, November 12-14, p. 136-137.

77.Bansal, U. and Banerjee, S., 2014. Influence of depositional environment on geochemical characteristics of glauconites: study from Karai Shale (Cauvery basin) and Lameta Formation (Narmada basin). 31st Convention of Indian Association of Sedimentologists, University of Pune, November 12-14, p. 138-139.

76.Arora, A. Banerjee, S., 2014. SEM study of pyrite framboids from ~150 Ma old rocks from Kutch, Gujarat, for estimation of palaeoredox conditions within seawater column. International Conference on Electron Microscopy and 35th Annual Meeting of the Electron Microscopy Society of India, July 9-11, University of Delhi, 295 p.

75.Banerjee, S., Sarkar, S., Eriksson, P.G., 2013. Palaeoenvironmental and biostratigraphic implications of microbial mat-related structures: examples from modern Gulf of Cambay and Precambrian Vindhyan basin. Journal of paleogeography. 1st International Palaeogeography Conference, September 14-17, Beijing, p.59.

74.Saraswati, P.K., Khanolkar, S., Raju, D.S.N., Dutta, S., Banerjee, S., 2013. Foraminiferal biostratigraphy of lignite mines of Kutch, India: Age of lignite and fossil vertebrates. 1st International Palaeogeography Conference, September 14-17, Beijing 59 p.

73.Arora, A., Banerjee, S. and Dutta, S., 2013. Signatures of shallow marine black shales deposition from Jhuran Formation, Kutch, Gujarat, western India. 30th Indian Association of Sedimentologists Meeting, Imphal, November 28-30, p. 28.

72.Banerjee, S., 2013. Discoidal microbial colony on clastic sediments: examples from modern Gulf of Cambay and Precambrian Vindhyan basin. 30th Indian Association of Sedimentologists Meeting, Imphal, November 28-30, p. 92.

71.Chakraborty, S., Banerjee, S. and Saraswati, P.K., 2013. Foraminiferal accumulations in Eocene-Ologocene succession of Kutch: Sedimentological Implications. Abstract volume of the national conference “Modern Geological and geophysical methods and their applications”, Jadavapur University, 28-29 November, 2013, p. 8.

70.Bansal, U. and Banerjee, S., 2013. Genetic implications of glauconite-phosphorite association within the karai shale Formation, southern India. Abstract volume of the national conference “Modern Geological and geophysical methods and their applications”, Jadavapur University, 28-29 November, 2013, p. 10.

69.Arora, A., Banerjee, S. and Dutta, S., 2013. Shallow marine carbonaceous shales of Late Jurassic Jhuran Formation: a possible case of extension of oxygen minimum zone up to storm wave base. Jadavapur University, 28-29 November, 2013, p. 109.

68.Arora, A., Banerjee, S. and Dutta, S., 2013. Carbonaceous shales of Jhuran Formation, Mesozoic of Kutch: an indicator of shallow marine anoxia? Abstract volume of seminar on ‘Earth Sciences for the Society’, Proceedings of NGRI, Hyderabad, India, November 2013, pp. 169-170.

67.Banerjee, S., 2012. Microbial mat-related structures in silici¬clastics of the Precambrian Vindhyan Supergroup and the modern Gulf of Cambay and their implications. Abstract volume of 29th IAS Meeting of Sedimentology Schladming, 10-13 September, Schladming, Austria, 136 p.

66.Banerjee, S., 2012. Factors influencing formation and maturation of the Palaeogene glauconites in western Kutch, India. Abstract volume of National seminar on “Sediments and Sedimentary rocks: Resource Potential, Depositional Processes, Implication to Ecosystem and Environmental Changes” and 29th Convention of Indian Association of Sedimentologists, 20-22 December, Pondicherry University, p. 82.

65.Arora, A., Banerjee, S. and Dutta, S., 2012. Depositional settings and organic geochemistry of black shales of Mesozoic Jhuran Formation, Kutch, India. Abstract volume of National seminar on “Sediments and Sedimentary rocks: Resource Potential, Depositional Processes, Implication to Ecosystem and Environmental Changes” and 29th Convention of Indian Association of Sedimentologists, 20-22 December, Pondicherry University, p. 130.

64.Chakraborty, S., Banerjee, S. and Saraswati, P.K., 2012. Larger foraminiferal accumulations in Eocene-Oligocene succession of Kutch: sedimentological implications. Abstract volume of National seminar on “Sediments and Sedimentary rocks: Resource Potential, Depositional Processes, Implication to Ecosystem and Environmental Changes” and 29th Convention of Indian Association of Sedimentologists, 20-22 December, Pondicherry University, p. 73.

63.Banerjee, S., 2012. Microbial mat-related structures in silici¬clastics of the Precambrian Vindhyan Supergroup and the modern Gulf of Cambay and their implications. Abstract volume of 29th IAS Meeting of Sedimentology Schladming, 10-13 September, Schladming, Austria, 136 p.

62.Banerjee, S., 2012. Facies, paleogeography and depositional environment of the Mesoproterozoic Rohtas Limestone in the eastern margin of the Vindhyan basin. National workshop on recent advances in Geosciences in Bihar and Jharkhand, Geological Survey of India, Patna, 29th October, p.4.

61.Banerjee, S., Chattoraj, S.L. and Saraswati, P.K., 2012. Glauconite formation in the sequence stratigraphic framework of the Palaeogene of Kutch. Abstract volume of the national level field based workshop on “Geology of Kachh basin, western India: Present status and future perspectives”, 26-29 January, KSKV Kachchh University, p.54.

60.Sarkar, U., Banerjee, S. and Saraswati, P.K., 2011. Depositional environment and sea level cycles in Middle Eocene Fulra Limestone, Kutch. 23rd Indian Colloquium on Micropalaeontology and Stratigraphy and International Symposium on Global Bioevents in the earth History, Bangalore, 9-11 December, 172 p.

59.Chakraborty, S., Banerjee, S. and Saraswati, P.K., 2011. Carbonate microfacies and depositional environment of Early Miocene Chhasra Formation of Kutch, 23rd Indian Colloquium on Micropalaeontology and Stratigraphy and International Symposium on Global Bioevents in the earth History, Bangalore, 9-11 December, 166 p.

58.Banerjee, S., Chattoraj, S.L. and Saraswati, P.K., 2011. Origin and depositional implications of glauconite in the Eocene Harudi Formation and Oligocene Maniyara Fort Formation in western Kutch. National Seminar on “Modern and Palaeo Sediments: Implications to Climate, Water resources and Environmental Changes & 28th Convention of Indian Association of Sedimentologists, abstract volume, p. 20.

57.Chakraborty, S., Chattoraj, S.L., Banerjee, S. and Saraswati, P.K., 2011. Facies and depositional setting of the Oligocene Mainyara Fort Formation, western Kutch. National Seminar on “Modern and Palaeo Sediments: Implications to Climate, Water resources and Environmental Changes & 28th Convention of Indian Association of Sedimentologists, abstract volume, p. 84.

56.Sarkar, U., Saraswati, P.K. and Banerjee, S., 2011. Record of Early Eocene sea level fluctuations from the Naredi Formation, western Kutch. National Seminar on “Modern and Palaeo Sediments: Implications to Climate, Water resources and Environmental Changes & 28th Convention of Indian Association of Sedimentologists, abstract volume, p. 80-81.

55.Banerjee, S., 2011. Microbial mat originated features in Palaeoproterozoic siliciclastics resembling Ediacaran fossils: examples from the Vindhyan Supergroup, central India. Abstract volume of 28th International association of Sedimentologists Meeting, Zaragoza, Spain, 5-8 July, 387p.

54.Roy, S. and Banerjee, S., 2011. Provenance and tectonic setting of a coarse-grained flysch: case study from Andaman Flysch at trench slope break, north Andaman Islands. GGSA annual meeting, Minneapolis, 9-12th October, Geological Society of America Abstracts with Programs Vol. 43, No. 5, abstract no. 191068.

53.Mathews, R.P., Dutta, S., Banerjee, S., Singh, B.D., Triptahi, S.M., Singh, A., 2011. Hydrocarbon Source Potential of Tertiary Lignites of Kutch Basin: Insights from Petrography, Palynology and Organic Geochemistry. The 2nd South Asian Geoscience Conference and Exhibition, GeoIndia2011, 12-14th January, 2011, New Delhi, 479p.

52.Sarkar, U. Chattoraj, S.L., Banerjee, S. and Saraswati, P.K., 2011. Occurrence of Glauconites in the Palaeogene Succession of Kutch and their Stratigraphic Implications. The 2nd South Asian Geoscience Conference and Exhibition, GeoIndia2011, 12-14th January, 2011, New Delhi, 577p.

51.Khasnobis, U., Saraswati, P.K. and Banerjee, S., 2011. Microfacies Analysis of Early Miocene Carbonates of Kutch. The 2nd South Asian Geoscience Conference and Exhibition, GeoIndia2011, 12-14th January, 2011, New Delhi, 632p.

50.Roy, S.K. and Banerjee, S., 2011. Sedimentary Facies and Penecontemporaneous Deformation Features in Andaman Flysch at South point, South Andaman Island and their Implications for Depositional Environment. The 2nd South Asian Geoscience Conference and Exhibition, GeoIndia2011, 12-14th January, 2011, New Delhi, 629p.

49.Roy, S.K. and Banerjee, S., 2010. From chaos to apparent calm: the saga of tectonics and sedimentation in Andaman basin. Geological Society of America Annual Meeting, 31st October-3rd November, Denver, Abstracts with Programs, p. 291/3.

48.Mathews, R.P., Dutta, S., Tripathi, S.K. and Banerjee. S., 2010. Organic geochemistry and palynology of Matanomadh lignite, western India in relation to hydrocarbon source potential. Abstract Volume National Conference and 27th Convention of IndiaNn Association of Sedimentologists, December 22-24, Jammu University, p. 61.

47.Banerjee, S., 2009. Microbial mat related structures in siliciclastic rocks in relation to systems tracts: Palaeo-Mesoproterozoic Semri Group, central India. Abstract volume of 27th International Association of Sedimentologists Meeting, Alghero, Italy, 20-23 September, p. 65.

46.Banerjee, S., 2009. Microbial mat features resembling Ediacaran fossils: Modern and ancient examples. Abstract Volume of 27th Indian Association of Sedimentologists Annual Meeting, Visakhapatnam, 16-18 December, p. 41.

45.Mathew, R.P., Dutta, S. and Banerjee, S., 2009. Organo-Geochemical Characteristics of Kutch Lignites and Carbonaceous Shales and Its Application from Source Rock Evaluation. AAPG Annual Convention and Exhibition, Denver, Colorado, June 7-10, article no. 90090.

44.Chattoraj, S., Banerjee, S. and Saraswati, P.K., 2008. Sedimentation, palaeogeography and sequence stratigraphic framework of Late Palaeocene to Early Eocene Naredi Formation, western Kutch, Gujarat. International Association for Gondwana Research Conference Series 5, pp.116.

43.Chattoraj, S.L., Banerjee, S. and Saraswati, P.K., 2008. Glauconitic minerals from green shales Late Paleocene to Early Eocene Naredi Formation, western Kutch, Gujarat. 25th Annual Convention of Indian Association of Sedimentologists, 26th-28th December, 2008, p. 35.

42.Mathew, R.P., Dutta, S., Banerjee, S., 2008. Organo-geochemical characteristics of Kutch lignites and carbonaceous shales and its application on source rock evaluation. 25th Annual Convention of Indian Association of Sedimentologists, 26th-28th December, 2008, p. 43.

41.Saha, S., Ghosh, A., Burley, S., Banerjee, S. and Saraswati, P.K., 2008. Sedimentology and sequence stratigraphy of Pleistocene sections along the estuary banks, Gulf of Khambhat, western India. 2008 GEO India Convention September 16-19, A-1-A-7.

40.Ghosh, A., Saha, S., Saraswati, P.K. and Banerjee, S., 2008. Evidence of sea level fluctuation in Quaternary sections along the Narmada Estuary. International Association for Gondwana Research Conference Series 5, pp.120.

39. Banerjee, S., 2007. Microbially originated structures in Palaeoproterozoic Chorhat Sandstone and their modern equivalents. Abstract, International Conference on Precambrian Sedimentation and Tectonics and 2nd GPSS meeting, IIT Bombay, pp. 9-10.

38.Saha, B., Sarkar, S. and Banerjee, S., 2007. Stromatolitic variability within Palaeoproterozoic Kajrahat Limestone. Abstract, International Conference on Precambrian Sedimentation and Tectonics and 2nd GPSS meeting, IIT Bombay, pp. 15.

37.Dutta, S. and Banerjee, S. 2007. Biogeomacromolecules of Chuaria circularis from the Mesoproterozoic Suket shale, Vindhyan Supergroup, India. Abstract, International Conference on Precambrian Sedimentation and Tectonics and 2nd GPSS meeting, IIT Bombay, pp. 13-14.

36. Saha, S., Ghosh, A., Burley, S., Banerjee, S. and Saraswati, P.K., 2007. Characteristics of tidal sand bars in the gulf of Khambhat using satellite images and field mapping, western India. Abstract volume of AAPG Annual Meeting, p. 121.

35.Ghosh, A., Saha, S., Saraswati, P.K., Banerjee, S., Burley, S., and Rao, T.K., Gundu., 2007. Gallitellia – a proxy for palaeo-monsoonal upwelling on the western coast of India. GSA Abstracts with Programs Vol. 39, No. 6. 2007 GSA Denver Annual Meeting (28–31 October 2007), p. 584.

34.Sahay, V.K., Banerjee, S. and Saraswati, P.K., 2006. Preliminary studies on Late Paleocene-Early Eocene carbonaceous shale-lignite succession from Western Kutch. 23rd Annual Convention of Indian Association of Sedimentologists, 7th-9th December, 2006, p.65-66.

33.Banerjee, S., 2006. Microbially originated sand-cracks in Chorhat Sandstone, Vindhyan basin of central India. Abstract Volume, Part B, 17th International Sedimentological Congress, Fukuoka Japan, 27th August–1st September, O-201.

32.Banerjee, S., 2006. Implications of organic-rich shales in Vindhyan Supergroup, central India. Global Infracambrian hydrocarbon systems and the emerging potential in North Africa. 29th-30th November, Berlington House, London, p. 57-58.

31.Kumar, P., Saraswati, P.K. and Banerjee, S., 2006. Characterization of Early Miocene shell beds of mixed carbonate-siliciclastic sequence of Kutch. Abstract Volume, Part B, 17th International Sedimentological Congress, Fukuoka Japan, 27th August – 1st September, O- 200.

30.Ghosh, A., Saha, S., Saraswati, P.K., Banerjee, S. and Burley, S., 2006. Pleistocene sea-level high-stand in the Narmada Estuary, Western India. Petroleum Geoscience Collaboration Conference, London, 24-25th October, 2006, p.37-38.

29.Saha, S., Ghosh, A., Burley, S., Banerjee, S. and Saraswati, P.K., 2006. Integrated geomorphic, sedimentological and sequence stratigraphic analysis of an estuarine embayment: defining depositional geometries for understanding the Tapti reservoirs, offshore western India. Petroleum Geoscience Collaboration Conference, London, 24-25th October, 2006, p.40.

28.Ghosh, A., Saha, S., Saraswati, P.K., Banerjee, S. and Burley, S., 2006. The distribution of modern foraminifera in the macrotidal estuaries of Gulf of Khambat. Abstract volume of the Association of Petroleum Geologists Conference, 21st-24th September, Goa, p. 178-179.

27.Banerjee, S. and Jeevankumar, S., 2005. Microbially originated black shale in Paleoproterozoic Kajrahat Formation and its significance. Abstract Volume of National Seminar on “Challenges in Indian Palaeobiology”, Birbal Sahni Institute of Palaeobotany, 15-16th November, p.15.

26.Jeevankumar, S. and Banerjee, S., 2005. Shallowing upward platformal carbonate succession: Paleoproterozoic Kajrahat Limestone, Vindhyan Supergroup, central India. International Conference on Precambrian Continental growth and Tectonism, proceedings Bundelkhand University, Jhansi, p. 250-253.

25.Jeevankumar, S. and Banerjee, S. 2005. Microfabric and origin of thrombolites in Paleoproterozoic Kajrahat Limestone, Vindhyan Supergroup, Central India. Abstract volume on Proterozoic Systems of India, organized at ISM Dhanbad, November 11-12, p. 19.

24.Paikaray, S., Banerjee, S. and Mukherji, S., 2005. Major element and zircon geochemistry of shales from Semri Group, Vindhyan Supergroup and implications on provenance and tectonics. Abstract volume on Proterozoic Systems of India, organized at ISM Dhanbad, November 11-12, p. 27.

23.Jeevankumar, S. and Banerjee, S., 2004. Facies and depositional environment of the Deoland Formation, Vindhyan Supergroup in the Son valley area. Abstract volume of the 21st Convention of Indian Association of Sedimentologists, Annamalai University, pp. 79-80.

22.Paikaray, S., Banerjee, S. and Mukherji, S., 2004. Origin of the pyriteferous Bijaigarh shale in the Vindhyan basin and its implications. Abstract Volume of the International Geological Congress, Florence, Italy, Part 2, p. 879.

21.Paikaray, S., Banerjee, S. and Mukherji, S., 2004. Facies and depositional setting of the Proterozoic Koldaha Shale, Semri Group, Vindhyan Supergroup. Abstract volume of the 21st Convention of Indian Association of Sedimentologists, Annamalai University, pp. 98-99.

20.Sur, S., Schieber, J. and Banerjee, S., 2004. The geochemistry of the Bijaigarh Shale of the Vindhyan Supergroup, India: a mid-Proterozoic source rock. AAPG Annual Convention, Abstract volume, p. A134, May 9-14, Dallas, Texas.

19.Tannert, D.V., Jeevankumar, S. and Banerjee, S., 2004. Emergence features in sandstone and its implications: 1.6 Ga Chorhat Sandstone, Vindhyan Supergroup, central India. Abstract volume of the 21st Convention of Indian Association of Sedimentologists, Annamalai University, pp. 81-82.

18.Kundu, A. Jeevankumar, S. and Banerjee, S., 2004. Facies and paleogeography of the Rohtas Limestone in the eastern Son valley area, Abstract volume of the 21st Convention of Indian Association of Sedimentologists, Annamalai University, pp. 16-17.

17.Paikaray, S., Jeevankumar, S., Kundu, A. and Banerjee, S., 2004. Proterozoic shales as possible source rocks in the Vindhyan basin, Son valley. Abstract volume of the Association of Petroleum Geologists Conference, Khajuraho, p. 261-262.

16.Banerjee, S. and Schieber, J., 2003. Paleoproterozoic condensed zone sediments in the Kajrahat Formation, Vindhyan Supergroup, central India. Geological Society of America Abstracts with Programs, v.35, No.6, p.173, Seattle Annual Meeting (November 2-5).

15.Paikaray, S. and Banerjee, S., 2003. SEM observations of organic carbon rich Bijaigarh Shale, Vindhyan Supergroup (1.8-0.6 Ga), central India and their implications. Abstract Volume of the XXVI Annual Conference of Electron Microscope Society of India, Shimla, p.119.

14.Dutta, S., Jeevankumar, S. and Banerjee, S., 2003. SEM study of the primitive carbonaceous body fossils from the Proterozoic Vindhyan basin. Abstract Volume of the XXVI Annual Conference of Electron Microscope Society of India, Shimla, p.145.

13.Jeevankumar, S. and Banerjee, S., 2003. Facies analysis and paleogeographic shifts within the Rohtas Formation, Vindhyan Supergroup, eastern Son valley. Abstract Volume of the 20th Convention of Indian Association of Sedimentologists, HNB Garwhal University, p. 51-52.

12.Paikaray, S., Banerjee, S. and Mukherji, S., 2003. Shales and soils as natural geosorbents for heavy metals. Abstract Volume of the 20th Convention of Indian Association of Sedimentologists, HNB Garwhal University, p. 81-82.

11. Sur, S., Schieber, J. and Banerjee, S., 2003. The Bijaigarh and Rampur Shales of the Vindhyan Supergroup, India: transgressive systems tract source rocks of Mid Proterozoic age. AAPG Annual Convention, Salt Lake City, Utah, May 9-14, Abstract volume, p. A165.

10. Sur, S., Schieber, J. and Banerjee, S., 2003. Shale microfacies and origin of the Middle Proterozoic Rampur Shale of the Rohtas Formation, Vindhyan basin, India. Geological Society of America Abstracts with Programs, v.35, No.6, p.173, Seattle Annual Meeting (November 2-5).

9. Banerjee, S. and Sarkar, S., 2002. Prolific mat growth on marine storm beds and its palaeogeographic implications: 1.6 Ga Chorhat Sandstone, central India. Abstract volume, 16th International Sedimentological Congress, Rand Afrikaans University, Johannesburg, 8th – 12th July, p. 23.

8. Banerjee, S., Roy, S. and Nerurkar, S., 2002. Morphology of volcaniclastic shards of an explosive volcanic eruption, Porcellanite Formation, Chopan, U.P. Abstract volume in the XXV annual conference of the Electron Microscope Society of India, IIT Bombay, p. 91-92.

7. Jeevankumar, S. and Banerjee, S., 2002. Microbial structures from the carbonates and siliciclastics of the Semri Group and its implications. Abstract volume of the XIX Convention of Indian Association of Sedimentologists, Visakhapatnam, p. 67-68.

6. Paikaray, S. and Banerjee, S., 2002. Environmental application of Vindhyan shales related to heavy metal and organic matter sorption. Abstract volume of the XIX Convention of Indian Association of Sedimentologists, Visakhapatnam, p. 71-72.

5. Sarkar, S., Ray, S and Banerjee, S., 2002. Seismites and Tsunami-induced sediments in intracratonic Neoproterozoic Bhander Formation, central India. Abstract volume, 16th International Sedimentological Congress’ RAU, Johannesburg, 8th – 12th July, p. 325.

4. Sur, S., Schieber, J. and Banerjee, S., 2002. Petrographic observations suggestive of microbial mats and metazoan activities in Middle Proterozoic black shales from India. Geological Society of America Abstracts with programs, v. 34, No. 6, p.133, Denver Annual Meeting (October 27-30).

3. Roy, S. and Banerjee, S., 2001. Facies, Petrography and Geochemistry of the Porcellanite Formation around Chopan, U.P. Abstract volume of the XVIII Convention of Indian Association of Sedimentologists, Aligarh, p. 57-58.

2. Roy Moulik, M., Banerjee, S. and Mukherji, S., 2001. Preliminary studies on heavy metal and hydrophobic organic compound sorption potential of Vindhyan shales, central India and soils from Mumbai area. Abstract volume of the XVIII Convention of Indian Association of Sedimentologists, Aligarh, p. 47.

1. Roy, S. and Banerjee, S., 2000. Circular mounds of heavy mineral accumulation from Kihim beach. Abstract volume of the XVII Convention of Indian Association of Sedimentologists, Cochin, p. 74-75

OTHER PUBLICATIONS

20.Roy, S.K., Banerjee, S., 2017. Commonality of sedimentary facies of Andaman Flysch in South Andamans and Great Nicobar island: Implications for depositional model in southern part of the Andaman basin. Journal of the Indian Association of Sedimentologists 34, 75–92.

19.Roy, S., Banerjee, S., 2016. Soft Sediment Deformation Structures in the Andaman Flysch Group, Andaman Basin: Evidence for Palaeogene Seismic Activity in the Island Arc. Berita Sedimentologi 35, 55–63.

18.Chattoraj, S.L., Sarkar, U., Banerjee, S., Saraswati, P.K., 2012. Facies and Paleogeography of the Middle Eocene Fulra Limestone, Kutch. Journal of the Indian Association of Sedimentologists 31, 1–10.

17 Banerjee, S., 2010. Distinction between marine and continental facies in Precambrian sedimentary succession: Palaeoproterozoic Deoland Formation, Vindhyan Supergroup, central India. Gondwana Geological Magazine 25, 239–250.

16.Banerjee, S. (Ed.), 2009. Abstract Volume of International Conference on Precambrian Sedimentation and Tectonics and Second GPSS Meeting, IIT Bombay, 75 pp.

15.Banerjee, S., 2008. Introduction to Sedimentology by S.M. Sengupta. Book Review, Journal of the Geological Society of India 71, p. 745.

14.Banerjee, S., 2008. Oil, gas and other energies by Alberat Legault. Book Review, Journal of African Earth Sciences 52, p. 6.

13.Jeevankumar, S., Banerjee, S., 2008. Organic-rich shale in the Paleoproterozoic Kajrahat Formation (Vindhyan Supergroup) in Son valley and its implications. The Palaeobotanist 57, 7–14.

12.Saha, S., Ghosh, A., Burley, S., Banerjee, S., Saraswati, P.K., 2007. Tidal bars in a macrotidal estuarine embayment: the Gulf of Khambhat, western India. Indian Journal of Petroleum Geology 15, 69–78.

11.Paikaray, S., Banerjee, S., Mukherji, S., 2007. Microfabric analysis of Proterozoic Vindhyan shales from central India and their paleogeographic implications. Indian Journal of Petroleum Geology 16, 53–60.

10.Paikaray, S., Banerjee, S., Mukherji, S., 2006. Geochemistry of lower Vindhyan shales and its implications on provenance and tectonics. Indian Journal of Geology 78, 143–157.

9. Paikaray, S., Banerjee, S., Mukherji, S., 2005. Major element composition of Vindhyan shales and its importance in provenance interpretations. Indian Journal of Geochemistry 20, 37–52.

8. Jeevankumar, S., Banerjee, S., 2005. Facies, microbial features and paleogeography of the Kajrahat Limestone in the eastern Son valley. Indian Journal of Petroleum Geology 14, 81–96.

7. Paikaray, S., Banerjee, S. and Mukherji, S., 2005. Shales and geoscience research: examples from the Vindhyan Supergroup- a review. Shilalipi 2, 17-21.

6. Paikaray, S., Banerjee, S., Mukherji, S., 2004. Facies analysis of the Koldaha Shale, Vindhyan Supergroup and its paleogeographic implications. Indian Journal of Petroleum Geology 13, 1–11.

5. Banerjee, S., Jeevankumar, S., 2003. Facies motif and paleogeography of Kheinjua Formation, Vindhyan Supergroup, eastern Son valley. Gondwana Geological Magazine Special Volume 7, 363–370.

4. Paikaray, S., Banerjee, S., Jeevankumar, S., Mukherji, S., 2003. Occurrences of black shales within the Vindhyan Supergroup and its implications. Indian Journal of Petroleum Geology 12, 65–81.

3. Roy, S., Banerjee, S., 2002. Facies and petrography of the Porcellanite Formation around Chopan, Uttar Pradesh. Journal of the Indian Association of Sedimentologists 20, 195–205.

2. Sarkar, S., Banerjee, S., Chakraborty, S., Mazumder, R., 2000. Could reef growth be the prime reasons for the rarity of carbonate hummocky cross-stratifications? Indian Journal of Earth Sciences 27, 1–10.

1. Sarkar, S., Banerjee, S., Chakraborty, S., 1995. Synsedimentary seismic signatures in the Mesoproterozoic Koldaha Shale, Kheinjua Formation, central India. Indian Journal of Earth Sciences 22, 158–164.

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