Abstract
Opossums are frequent subjects of developmental studies because marsupials share developmental features not seen in placentals and because Didelphimorpha is the sister-group of other extant Marsupialia. But is the adult marsupial muscular system markedly different from that of placentals or is it, like the skeletal system, very similar? We provide, for the first time, a brief description of all head and limb muscles of Didelphis virginiana based on our dissections and using a unifying nomenclature by integrating the data gathered in our long-term project on the development, homologies, and evolution of the muscles of all major vertebrate taxa. Our data indicate that there were many more muscle synapomorphic changes from the last common ancestor (LCA) of amniotes to the mammalian LCA (63) and from this LCA to the LCA of extant therians (48) than from this latter LCA to the LCA of extant placentals (10 or 11). Importantly, Didelphis is anatomically more plesiomorphic (only 14 changes from LCA of extant therians) than are rats (37 changes) and humans (63 changes), but its musculature is more complex (193 muscles) than that of humans (only 180 muscles). Of the 194 muscles of Didelphis, 172 (89%) are present in rats, meaning that their adult muscle anatomy is indeed very similar. This similarity supports the existence of a common, easy recognizable therian Bauplan, but one that is caused by developmental constraints and by evolutionary change driven by the needs of the embryos/neonates, rather than by a "goal" toward a specific adult plan/"archetype," as the name Bauplan suggests. Anat Rec, 299:1224-1255, 2016. © 2016 Wiley Periodicals, Inc.
Highlights
Marsupial opossums are frequently the focus of evolutionary developmental studies because this order is the sister-group of a clade including all other extant marsupials and is a good model to study the origin and early evolution of marsupials as a whole (e.g. Horovitz & Sánchez-Villagra 2003)
Intrinsic muscles of the snout are present in rats and mice, and similar muscles are found in marsupials such as opossums (Grant et al, 2013), so they were likely already present in the last common ancestor (LCA) of placentals and marsupials
The branchial laryngeal muscle cricoarytenoideus posterior is divided into two bundles in opossums and frequently in other marsupials as well, which are often seen as separate muscles (Jouffroy & Saban, 1971)
Summary
Marsupial opossums (order Didelphimorpha) are frequently the focus of evolutionary developmental studies because this order is the sister-group of a clade including all other extant marsupials and is a good model to study the origin and early evolution of marsupials as a whole (e.g. Horovitz & Sánchez-Villagra 2003). Numerous authors have studied and discussed the hand muscles of marsupials, including D. virginiana (e.g. Brandell, 1935; Campbell, 1939; McMurrich, 1903ab; Lewis, 1989; Jouffroy, 1971; Stein, 1981; Coues, 1872; Brooks, 1886a; Young, 1880). Their lack of comparative context and common nomenclature rendered them confusing or “useless”, as stated by Lewis (1989). A list of the other non-primate vertebrate specimens studied by us in our long-term project is provided in Diogo & Abdala (2010), Diogo et al (2010, 2013a, 2013b, 2014), Diogo & Molnar (2014), Diogo & Ziermann (2014), and Diogo & Tanaka (2014); a list of the studied primates is provided in Diogo & Wood (2012)
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