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Article: New insights from bone microanatomy of the Late Triassic Hyperodapedon (Archosauromorpha, Rhynchosauria): implications for archosauromorph growth strategy

Publication: Palaeontology
Volume: 58
Part: 2
Publication Date: March 2015
Page(s): 313 339
Author(s): Debarati Mukherjee
Addition Information

How to Cite

MUKHERJEE, D. 2015. New insights from bone microanatomy of the Late Triassic Hyperodapedon (Archosauromorpha, Rhynchosauria): implications for archosauromorph growth strategy. Palaeontology 58, 2, 313–339.

Author Information

  • Debarati Mukherjee - Department of Geology and Geophysics, Indian Institute of Technology, Kharagpur, India (email: mdebarati.iitkgp@gmail.com)
  • Debarati Mukherjee - Geological Studies Unit, Indian Statistical Institute, Kolkata, West Bengal, India (email: mdebarati@isical.ac.in)

Publication History

  • Issue published online: 5 MAR 2015
  • Article first published online: 21 JAN 2015
  • Manuscript Accepted: 24 NOV 2014
  • Manuscript Received: 6 JUL 2014

Funded By

Department of Science and Technology, New Delhi, India
Indian Institute of Technology, Kharagpur, India

Online Version Hosted By

Wiley Online Library
Get Article: Wiley Online Library [Pay-to-View Access] |

Abstract

Bone microanatomy of multiple postcranial skeletal elements of several individuals of Hyperodapedon collected from India is reported. This reveals that fibrolamellar bone tissue is predominant in the mid- and inner cortices, whereas the peripheral region of the cortex is composed of either parallel-fibred and/or lamellar bone. The pattern of primary osteons mostly ranges between laminar and subplexiform. Such predominance of fibrolamellar bone tissue in the cortex suggests an overall fast growth, which slowed down considerably later in ontogeny. Four distinct ontogenetic stages are identified based on the bone microstructure. During the juvenile stage, growth was fast and continuous, but it became punctuated during the early and late sub-adult stages. In adult individuals, growth was slow and showed periodic interruption but did not stop completely, suggesting that Hyperodapedon had an indeterminate growth strategy. Interelemental histovariations affecting cortical thickness, organization of the vascular network, incidence of growth rings and extent of secondary reconstruction are noted. Throughout ontogeny, the femora show higher cortical thickness than humeri and tibiae, suggesting differential appositional growth rate between the skeletal elements. Differences in cortical thickness are noted in the ribs, which suggest differential functional constraints based on anatomical site-specific occurrences. Although fibrolamellar bone tissue became progressively more dominant towards the archosaurs, there are considerable variations in the growth patterns of the archosauromorphs. This is exemplified by the bone microstructure of Hyperodapedon, which deviates from the generalized slow-growth pattern proposed for all basal archosauromorphs, suggesting that rapid growth was already present in the archosauromorphs. The cortical thickness of various long bones of Hyperodapedon bears similarity with that of several extant terrestrial quadrupeds, suggesting that Hyperodapedon was essentially a terrestrial quadruped.

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