Developmental and functional controls on enrolment in an ancient, extinct arthropod

Three-dimensional models reveal how the mechanics of exoskeletal enrolment changed during the development of a model organism for insights into ancient arthropod development, the 429-million-year-old trilobite Changes in the number, size and allocation of segments within the trunk, coupled with the...

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Veröffentlicht in:	Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2023-06, Vol.290 (2000), p.20230871
Hauptverfasser:	Esteve, Jorge, Hughes, Nigel C
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Sprache:	eng
Schlagworte:	Animals Arthropods Palaeobiology Posture
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description	Three-dimensional models reveal how the mechanics of exoskeletal enrolment changed during the development of a model organism for insights into ancient arthropod development, the 429-million-year-old trilobite Changes in the number, size and allocation of segments within the trunk, coupled with the need to maintain effective exoskeletal shielding of soft tissue during enrolment, necessitated a transition in enrolment style about the onset of mature growth. During an earlier growth phase, enrolment was sphaeroidal, with the venter of the trunk fitting exactly against that of the head. In later growth, if lateral exoskeletal encapsulation was to be maintained trunk length proportions did not permit such exact fitting, requiring an alternative, non-sphaeoridal enrolment style. Our study favours the adoption of a posture in later growth in which the posterior trunk extended beyond the front of the head. This change in enrolment accommodated a pattern of notable variation in the number of mature trunk segments, well known to characterize the development of this species. It suggests how an animal whose early segmental development was remarkably precisely controlled was able to realize the marked variation in mature segment number that was related, apparently, to life in a physically challenging, reduced oxygen setting.
doi_str_mv	10.1098/rspb.2023.0871
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subjects	Animals Arthropods Palaeobiology Posture
title	Developmental and functional controls on enrolment in an ancient, extinct arthropod
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