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Article: New biological insights into the Middle Triassic capitosaurs from India as deduced from limb bone anatomy and histology

Papers in Palaeontology - Volume 6 Issue 1 - Cover
Publication: Papers in Palaeontology
Volume: 6
Part: 1
Publication Date: Febuary 2020
Page(s): 93 142
Author(s): Debarati Mukherjee, Dhurjati P. Sengupta, and Nibedita Rakshit
DOI: 10.1002/spp2.1263
Addition Information

How to Cite

MUKHERJEE, D., SENGUPTA, D.P., RAKSHIT, N. 2020. . Papers in Palaeontology, 6, 1, 93-142. DOI: /doi/10.1002/spp2.1263

Author Information

  • Debarati Mukherjee - Geological Studies Unit Indian Statistical Institute 203 Barrackpore Trunk Road Kolkata 700108 West Bengal India
  • Dhurjati P. Sengupta - Geological Studies Unit Indian Statistical Institute 203 Barrackpore Trunk Road Kolkata 700108 West Bengal India
  • Nibedita Rakshit - Department of Geology & geophysics Indian Institute of Technology Kharagpur 721302 West Bengal India

Publication History

  • Issue published online: 28 January 2020
  • Manuscript Accepted: 09 January 2019
  • Manuscript Received: 10 May 2018

Funded By

Indian Statistical Institute, Kolkata
Department of Science and Technology, New Delhi. Grant Number: SR/FTP/ES‐36/2013

Online Version Hosted By

Wiley Online Library (Free Access)
Get Article: Wiley Online Library [Free Access]

Abstract

Multiple limb bones of different Middle Triassic capitosaurs from India including Cherninia denwai and Paracyclotosaurus crookshanki were examined to reveal differences in palaeobiology and lifestyle adaptations. Limb bone anatomy of Cherninia is characterized by distinct torsion and its absence in the fore and hindlimb bones, respectively. Substantial torsion is seen in all the limb bones of P. crookshanki. Woven fibred bone tissue, a very rapidly deposited tissue mostly seen in the embryos and very young individuals of higher vertebrates, is reported for the first time in a juvenile temnospondyl. Predominance of incipient fibrolamellar bone tissue is seen in a large bodied Middle Triassic temnospondyl suggesting that such tissues in non‐amniotes helped in achieving large body sizes rapidly. Highly vascularized woven fibred bone tissue in the early ontogeny, transforming to a more stable incipient fibrolamellar bone tissue associated with growth marks later in ontogeny characterizes C. denwai. This suggests rapid sustained growth slowed down and became punctuated later in ontogeny. A continuous slow growth throughout ontogeny is suggested for P. crookshanki as parallel fibred bone and azonal lamellar bone tissue are seen in all the examined limb bones. The growth of C. denwai and P. crookshanki had variable susceptibility to seasonal fluctuations. The onset of sexual maturity was at 55% adult size for Cherninia as implied from the change in tissue type. Cherninia inhabited the bottom of the water column and acted as a passive benthic predator whereas Paracyclotosaurus was a shallow water predator that retained a high level of terrestriality.

Acknowledgements

We are immensely grateful to S. Ray, Department of Geology and Geophysics, Indian Institute of Technology, Kharagpur, India, for providing critical scientific expertise in the paper. We thank J. Botha‐Brink, Karoo Palaeontology Department, National Museum Bloemfontein, South Africa, for her critical comments on an earlier version of the manuscript that improved the manuscript significantly. We are also thankful to I. A. Cerda, CONICET‐Instituto de Investigación en Paleobiología y Geología, Universidad Nacional de Río Negro, A.B. Smith, Natural History Museum, London, UK, Sally Thomas, technical editor of Papers in Palaeontology and one anonymous reviewer for their constructive suggestions. C. De Sarkar and T. Kar are acknowledged for thin section preparations. The Indian Statistical Institute, Kolkata and Department of Science and Technology, New Delhi (SR/FTP/ES‐36/2013) provided infrastructural facilities and financial support to carry out this research work.

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