The Concept of Morphospaces in Evolutionary and Developmental Biology: Mathematics and Metaphors

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Biological Theory 4 (1):54-67 (2009)
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Abstract

Formal spaces have become commonplace conceptual and computational tools in a large array of scientific disciplines, including both the natural and the social sciences. Morphological spaces are spaces describing and relating organismal phenotypes. They play a central role in morphometrics, the statistical description of biological forms, but also underlie the notion of adaptive landscapes that drives many theoretical considerations in evolutionary biology. We briefly review the topological and geometrical properties of the most common morphospaces in the biological literature. In contemporary geometric morphometrics, the notion of a morphospace is based on the Euclidean tangent space to Kendall’s shape space, which is a Riemannian manifold. Many more classical morphospaces, such as Raup’s space of coiled shells, lack these metric properties, e.g., due to incommensurably scaled variables, so that these morphospaces typically are affine vector spaces. Other notions of a morphospace, like Thomas and Reif’s skeleton space, may not give rise to a quantitative measure of similarity at all. Such spaces can often be characterized in terms of topological or pretopological spaces

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10.1162/biot.2009.4.1.54

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Simon Huttegger
University of California, Irvine

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The end of the adaptive landscape metaphor?Jonathan Kaplan - 2008 - Biology and Philosophy 23 (5):625-638.
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