Allometric Space and Allometric Disparity: A Developmental Perspective in the Macroevolutionary Analysis of Morphological Disparity

Here, we advance novel uses of allometric spaces—multidimensional spaces specifically defined by allometric coefficients—with the goal of investigating the focal role of development in shaping the evolution of morphological disparity. From their examination, operational measures of allometric dispar...

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Veröffentlicht in:Evolution 2008-06, Vol.62 (6), p.1450-1457
Hauptverfasser: Gerber, Sylvain, Eble, Gunther J., Neige, Pascal
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container_title Evolution
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creator Gerber, Sylvain
Eble, Gunther J.
Neige, Pascal
description Here, we advance novel uses of allometric spaces—multidimensional spaces specifically defined by allometric coefficients—with the goal of investigating the focal role of development in shaping the evolution of morphological disparity. From their examination, operational measures of allometric disparity can be derived, complementing standard signals of morphological disparity through an intuitive and process-oriented refinement of established analytical protocols used in disparity studies. Allometric spaces thereby become a promising context to reveal different patterns of evolutionary developmental changes and to assess their relative prevalence and importance. Such spaces offer a novel domain of investigation of phenotypic variation and should help in detecting large-scale trends, thus placing various macroevolutionary phenomena in an explicitly developmental context. Ammonoidea (Cephalopoda) at the Lower-Middle Jurassic transition were chosen as a case study to illustrate this methodological approach. We constructed two phenotypic spaces: a static, adult one (adult morphospace) and a dynamic, developmental one (allometric space). Comparative disparity analyses show a strikingly stable occupation in both spaces, despite extensive change in taxonomic composition. In contrast, disparity analyses of subclades reveal clearly distinct morphological and allometric disparity dynamics. Allometric approaches allow developmental insights into morphological diversification otherwise intractable from the analysis of adult morphospace alone.
doi_str_mv 10.1111/j.1558-5646.2008.00370.x
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source MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; BioOne Complete; Access via Wiley Online Library; JSTOR Archive Collection A-Z Listing; Oxford University Press Journals All Titles (1996-Current)
subjects Adults
Allometry
ammonites
Ammonoidea
Analysis of Variance
Animal populations
Animals
Biodiversity
Biological Evolution
Cephalopoda
Cephalopoda - anatomy & histology
Comparative analysis
development
Development Biology
Earth Sciences
Evolution
Evolutionary biology
Fossils
Geometric shapes
Life Sciences
macroevolution
Marine
Mathematical vectors
Models, Biological
Mollusks
Morphogenesis
Morphogenesis - physiology
morphometrics
morphospace
Original s
Paleobiology
Paleontology
Phenotype
Population genetics
Populations and Evolution
Sciences of the Universe
Species Specificity
Studies
Taxa
Trajectories
title Allometric Space and Allometric Disparity: A Developmental Perspective in the Macroevolutionary Analysis of Morphological Disparity
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