Phylogeny, niche conservatism and the latitudinal diversity gradient in mammals

Biologists have long searched for mechanisms responsible for the increase in species richness with decreasing latitude. The strong correlation between species richness and climate is frequently interpreted as reflecting a causal link via processes linked to energy or evolutionary rates. Here, we inv...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2010-07, Vol.277 (1691), p.2131-2138
Main Authors: Buckley, Lauren B., Davies, T. Jonathan, Ackerly, David D., Kraft, Nathan J. B., Harrison, Susan P., Anacker, Brian L., Cornell, Howard V., Damschen, Ellen I., Grytnes, John-Avid, Hawkins, Bradford A., McCain, Christy M., Stephens, Patrick R., Wiens, John J.
Format: Article
Language:English
Subjects:
Adaptation, Biological - physiology
Animals
Bats
Biodiversity
Biological Evolution
Biological taxonomies
Chiroptera
Climate
Climate models
Conservatism
Demography
Ecological genetics
Ecosystem
Evolution
Evolutionary History
Geography
Latitudinal Diversity Gradient
Mammals
Mammals - physiology
Models, Biological
Paleoclimatology
Phylogenetic Niche Conservatism
Phylogenetics
Phylogeny
Species diversity
Species Specificity
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Summary:Biologists have long searched for mechanisms responsible for the increase in species richness with decreasing latitude. The strong correlation between species richness and climate is frequently interpreted as reflecting a causal link via processes linked to energy or evolutionary rates. Here, we investigate how the aggregation of clades, as dictated by phylogeny, can give rise to significant climate–richness gradients without gradients in diversification or environmental carrying capacity. The relationship between climate and species richness varies considerably between clades, regions and time periods in a global-scale phylogenetically informed analysis of all terrestrial mammal species. Many young clades show negative richness–temperature slopes (more species at cooler temperatures), with the ages of these clades coinciding with the expansion of temperate climate zones in the late Eocene. In carnivores, we find steeply positive richness–temperature slopes in clades with restricted distributions and tropical origins (e.g. cat clade), whereas widespread, temperate clades exhibit shallow, negative slopes (e.g. dog–bear clade). We show that the slope of the global climate–richness gradient in mammals is driven by aggregating Chiroptera (bats) with their Eutherian sister group. Our findings indicate that the evolutionary history should be accounted for as part of any search for causal links between environment and species richness.
ISSN:0962-8452
1471-2945
1471-2954
DOI:10.1098/rspb.2010.0179