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41. Halder, K. (2000). Diversity and biogeographic distribution of Jurassic nautiloids of
Kutch, India, during the fragmentation of Gondwana. Journal of African Earth
Sciences, 31(1), 175-185.
42. Halder, K. (2012). Cenozoic fossil nautiloids (Cephalopoda) from Kutch, western
India. Palaeoworld, 21(2), 116-130.
43. Halder, K., Jana, S. K., & Bardhan, S. (1998). Ornamental polymorphism in
Paracenoceras prohexagonum (Nautiloidea) from the Jurassic Chari sequence,
Kutch, Gujarat. Indian Minerals, 52, 89-94.
44. Keller, G., Khozyem, H., Saravanan, N., Adatte, T., Bajpai, S., & Spangenberg, J.
(2013). Biostratigraphy and foraminiferal paleoecology of the early Eocene Naredi
Formation, SW Kutch, India. Geological Society of India (Special Publication), 1,
183-196.
45. Khanolkar, S., & Saraswati, P. K. (2014). Palaeoenvironmental Significance of
Rectilinear Benthic Foraminifera in the Middle Eocene section of Matanaomadh
Sub-basin, Kutch. In Proceedings of XXIII Indian Colloquium of Micropaleontology
and Stratigraphy. Journal of Geological Society of India.
46. Khanolkar, S., & Saraswati, P. K. (2019). Eocene foraminiferal biofacies in Kutch
Basin (India) in context of palaeoclimate and palaeoecology. Journal of
Palaeogeography, 8(1), 1-16.
47. Khanolkar, S., Kumar Saraswati, P., & Rogers, K. (2017). Ecology of foraminifera
during the middle Eocene climatic optimum in Kutch, India. Geodinamica Acta,
29(2), 181-193.
48. Kumar, K., & Sahni, A. (1986). Remingtonocetus harudiensis, new combination, a
middle Eocene archaeocete (Mammalia, Cetacea) from western Kutch, India.
Journal of Vertebrate Paleontology, 6(4), 326-349.
49. Kundal, M. P. (2014). Foraminifera from the late middLe eocene to early middle
miocene sequence of the Kachchh offshore Basin, Western india:
Paleoenvironmental significance. Journal of the Palaeontological Society of India,
59(2), 219-226.
50. Lipps, J. H. (1988). Predation on foraminifera by coral reef fish; taphonomic and
evolutionary implications. Palaios, 3(3), 315-326.
51. Loubere, P., & Gary, A. (1990). Taphonomic process and species microhabitats in
the living to fossil assemblage transition of deeper water benthic foraminifera.
Palaios, 375-381.
52. Mohan, M., & Soodan, K. S. (1970). Middle Eocene planktonic foraminiferal
zonation of Kutch, India. Micropaleontology, 37-46.
53. Mukherjee, D., Bardhan, S., & Ghosh, D. N. (2002). Significance of new species of
Cryptorhynchia (Brachiopoda) from the Middle Jurassic of Kutch, India. Alcheringa,
26(2), 209-231.
54. Mukherjee, D., and Ray, S., 2012. Taphonomy of an Upper Triassic vertebrate
bonebed-A new rhynchosaur accumulation from India. Palaeogeography,
Palaeoclimatology, Palaeoecology.333–334, 75–91.
55. Nagappa, Y. (1959). Foraminiferal biostratigraphy of the Cretaceous-Eocene
succession in the India-Pakistan-Burma region. Micropaleontology, 5(2), 145-177.
56. Nebelsick, J. H., Bassi, D., & Rasser, M. W. (2011). Microtaphofacies: exploring the
potential for taphonomic analysis in carbonates. In Taphonomy(pp. 337-373).
Springer, Dordrecht.
57. Özcan, E., & Saraswati, P. K. (2014). Late Middle Eocene (Bartonian)
orthophragminids from Fulra Limestone, Kutch Basin (western India): regional
implications and their correlation to well-known assemblages in western Tethys

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