The origins of mammal growth patterns during the Jurassic mammalian radiation

Elis Newham; Ian J. Corfe; Philippa Brewer; Jen A. Bright; Vincent Fernandez; Neil J. Gostling; Simone Hoffmann; Kai R. K. Jaeger; Erika Kague; Goran Lovric; Federica Marone; Elsa Panciroli; Philipp Schneider; Julia A. Schultz; Heikki Suhonen; Alex Witchell; Pamela G. Gill; Thomas Martin

doi:10.1126/sciadv.ado4555

The origins of mammal growth patterns during the Jurassic mammalian radiation

Elis Newham, Ian J. Corfe, Philippa Brewer, Jen A. Bright, Vincent Fernandez, Neil J. Gostling, Simone Hoffmann, Kai R. K. Jaeger, Erika Kague, Goran Lovric, Federica Marone, Elsa Panciroli, Philipp Schneider, Julia A. Schultz, Heikki Suhonen, Alex Witchell, Pamela G. Gill, Thomas Martin

High-Performance Vision Systems

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Abstract

We use synchrotron x-ray tomography of annual growth increments in the dental cementum of mammaliaforms (stem and crown fossil mammals) from three faunas across the Jurassic to map the origin of patterns of mammalian growth patterns, which are intrinsically related to mammalian endothermy. Although all fossils studied exhibited slower growth rates, longer life spans, and delayed sexual maturity relative to comparably sized extant mammals, the earliest crown mammals developed significantly faster growth rates in early life that reduced at sexual maturity, compared to stem mammaliaforms. Estimation of basal metabolic rates (BMRs) suggests that some fossil crown mammals had BMRs approaching the lowest rates of extant mammals. We suggest that mammalian growth patterns first evolved during their mid-Jurassic adaptive radiation, although growth remained slower than in extant mammals.

Originalsprache	Englisch
Aufsatznummer	eado4555
Seitenumfang	15
Fachzeitschrift	Science advances
Volume	10
Issue	32
DOIs	https://doi.org/10.1126/sciadv.ado4555
Publikationsstatus	Veröffentlicht - 7 Aug. 2024

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Regional assessment of male murine bone exposes spatial heterogeneity in osteocyte lacunar volume associated with intracortical canals and regulation by VEGF
Titel in Übersetzung: Regionale Bewertung des männlichen murinen Knochens zeigt räumliche Heterogenität des Osteozytenlakunenvolumens im Zusammenhang mit intrakortikalen Kanälen und Regulation durch VEGF.Trend, J., Sharma, A., Michels, L., Goggin, P., Schneider, P., Deinhardt, K. & Clarkin, C. E., 11 Okt. 2023, in: bioRxiv.
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Newham, E., Corfe, I. J., Brewer, P., Bright, J. A., Fernandez, V., Gostling, N. J., Hoffmann, S., Jaeger, K. R. K., Kague, E., Lovric, G., Marone, F., Panciroli, E., Schneider, P., Schultz, J. A., Suhonen, H., Witchell, A., Gill, P. G., & Martin, T. (2024). The origins of mammal growth patterns during the Jurassic mammalian radiation. Science advances, 10(32), Artikel eado4555. https://doi.org/10.1126/sciadv.ado4555

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abstract = "We use synchrotron x-ray tomography of annual growth increments in the dental cementum of mammaliaforms (stem and crown fossil mammals) from three faunas across the Jurassic to map the origin of patterns of mammalian growth patterns, which are intrinsically related to mammalian endothermy. Although all fossils studied exhibited slower growth rates, longer life spans, and delayed sexual maturity relative to comparably sized extant mammals, the earliest crown mammals developed significantly faster growth rates in early life that reduced at sexual maturity, compared to stem mammaliaforms. Estimation of basal metabolic rates (BMRs) suggests that some fossil crown mammals had BMRs approaching the lowest rates of extant mammals. We suggest that mammalian growth patterns first evolved during their mid-Jurassic adaptive radiation, although growth remained slower than in extant mammals.",

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author = "Elis Newham and Corfe, {Ian J.} and Philippa Brewer and Bright, {Jen A.} and Vincent Fernandez and Gostling, {Neil J.} and Simone Hoffmann and Jaeger, {Kai R. K.} and Erika Kague and Goran Lovric and Federica Marone and Elsa Panciroli and Philipp Schneider and Schultz, {Julia A.} and Heikki Suhonen and Alex Witchell and Gill, {Pamela G.} and Thomas Martin",

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day = "7",

doi = "10.1126/sciadv.ado4555",

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Newham, E, Corfe, IJ, Brewer, P, Bright, JA, Fernandez, V, Gostling, NJ, Hoffmann, S, Jaeger, KRK, Kague, E, Lovric, G, Marone, F, Panciroli, E, Schneider, P, Schultz, JA, Suhonen, H, Witchell, A, Gill, PG & Martin, T 2024, 'The origins of mammal growth patterns during the Jurassic mammalian radiation', Science advances, Vol. 10, Nr. 32, eado4555. https://doi.org/10.1126/sciadv.ado4555

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AU - Fernandez, Vincent

AU - Gostling, Neil J.

AU - Hoffmann, Simone

AU - Jaeger, Kai R. K.

AU - Kague, Erika

AU - Lovric, Goran

AU - Marone, Federica

AU - Panciroli, Elsa

AU - Schneider, Philipp

AU - Schultz, Julia A.

AU - Suhonen, Heikki

AU - Witchell, Alex

AU - Gill, Pamela G.

AU - Martin, Thomas

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N2 - We use synchrotron x-ray tomography of annual growth increments in the dental cementum of mammaliaforms (stem and crown fossil mammals) from three faunas across the Jurassic to map the origin of patterns of mammalian growth patterns, which are intrinsically related to mammalian endothermy. Although all fossils studied exhibited slower growth rates, longer life spans, and delayed sexual maturity relative to comparably sized extant mammals, the earliest crown mammals developed significantly faster growth rates in early life that reduced at sexual maturity, compared to stem mammaliaforms. Estimation of basal metabolic rates (BMRs) suggests that some fossil crown mammals had BMRs approaching the lowest rates of extant mammals. We suggest that mammalian growth patterns first evolved during their mid-Jurassic adaptive radiation, although growth remained slower than in extant mammals.

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KW - Exploratory-behavior

KW - Adaptive radiation

KW - Mesozoic mammals

KW - Metabolic-rate

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KW - Bone

KW - Personality

KW - Evolution

KW - Age

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The origins of mammal growth patterns during the Jurassic mammalian radiation

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Regional assessment of male murine bone exposes spatial heterogeneity in osteocyte lacunar volume associated with intracortical canals and regulation by VEGF

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