Serendipity and adaptation in New World marsupial evolution

This is the first study analyzing the distribution of New World marsupials and their relationship to climatic zones on a continental scale. We describe the distribution at different taxonomic categories (order, subfamily, tribe, genus) and their presence within climates, and discuss these patterns c...

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Bibliographic Details
Published in:Journal of mammalian evolution 2022-09, Vol.29 (3), p.493-513
Main Authors: Martin, Gabriel M., Brand, Cecilia, Monjeau, Adrian
Format: Article
Language:English
Subjects:
Adaptation
Animal Genetics and Genomics
Anthropology
Biomedical and Life Sciences
Climate
Didelphimorphia
Evolution
Evolutionary Biology
Hibernation
Human Genetics
Life Sciences
Marsupials
Original Paper
Taxonomy
Torpor
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Summary:This is the first study analyzing the distribution of New World marsupials and their relationship to climatic zones on a continental scale. We describe the distribution at different taxonomic categories (order, subfamily, tribe, genus) and their presence within climates, and discuss these patterns considering two different processes: serendipity or adaptation (i.e., a serendipitous process affects a taxon older than the climate it inhabits, or affects a taxon younger than the climate it inhabits but without the evolution of new traits; an adaptation process affects a taxon in a climate with the evolution of new traits). Living Didelphimorphia included the highest richness and least functional redundancy in Tropical climates at the four taxonomic categories studied; living Paucituberculata was mostly represented in Temperate climates, and living Microbiotheria was exclusively represented in Temperate climates. The most restrictive climates grouped generalized forms (e.g., scansorial animalivores) with a high order richness, but high functional redundancy and low richness for all the other taxonomic categories (i.e., subfamily, tribe, genus). Also, climates which favor complex habitats (e.g., tropical, subtropical and temperate forests) have a higher richness and functional redundancy, while simple habitats resulting from drier and/or colder climates have less specialized forms, albeit taxonomically singular (e.g., Lestodelphys , Chacodelphys , Caenolestes ). Highly seasonal climates grouped generalized taxa with high functional redundancy, and convergent adaptations (e.g., caudal fat storage, torpor or hibernation), while stable climates over long periods of time, acted as diversification centers for New World marsupials, especially Didelphimorphia.
ISSN:1064-7554
1573-7055
DOI:10.1007/s10914-022-09605-9