Ben G. Holt scite author profile

Modern attempts to produce biogeographic maps focus on the distribution of species, and the maps are typically drawn without phylogenetic considerations. Here, we generate a global map of zoogeographic regions by combining data on the distributions and phylogenetic relationships of 21,037 species of amphibians, birds, and mammals. We identify 20 distinct zoogeographic regions, which are grouped into 11 larger realms. We document the lack of support for several regions previously defined based on distributional data and show that spatial turnover in the phylogenetic composition of vertebrate assemblages is higher in the Southern than in the Northern Hemisphere. We further show that the integration of phylogenetic information provides valuable insight on historical relationships among regions, permitting the identification of evolutionarily unique regions of the world.

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Humboldt’s enigma: What causes global patterns of mountain biodiversity?

Rahbek

Borregaard

Colwell

et al. 2019

Science

603

507

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Mountains contribute disproportionately to the terrestrial biodiversity of Earth, especially in the tropics, where they host hotspots of extraordinary and puzzling richness. With about 25% of all land area, mountain regions are home to more than 85% of the world’s species of amphibians, birds, and mammals, many entirely restricted to mountains. Biodiversity varies markedly among these regions. Together with the extreme species richness of some tropical mountains, this variation has proven challenging to explain under traditional climatic hypotheses. However, the complex climatic characteristics of rugged mountain regions differ fundamentally from those of lowland regions, likely playing a key role in generating and maintaining diversity. With ongoing global changes in climate and land use, the role of mountains as refugia for biodiversity may well come under threat.

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Building mountain biodiversity: Geological and evolutionary processes

Rahbek

Borregaard

Antonelli

et al. 2019

Science

474

400

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Mountain regions are unusually biodiverse, with rich aggregations of small-ranged species that form centers of endemism. Mountains play an array of roles for Earth’s biodiversity and affect neighboring lowlands through biotic interchange, changes in regional climate, and nutrient runoff. The high biodiversity of certain mountains reflects the interplay of multiple evolutionary mechanisms: enhanced speciation rates with distinct opportunities for coexistence and persistence of lineages, shaped by long-term climatic changes interacting with topographically dynamic landscapes. High diversity in most tropical mountains is tightly linked to bedrock geology—notably, areas comprising mafic and ultramafic lithologies, rock types rich in magnesium and poor in phosphate that present special requirements for plant physiology. Mountain biodiversity bears the signature of deep-time evolutionary and ecological processes, a history well worth preserving.

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Introducing the biogeographic species pool

Carstensen¹,

Lessard²,

Holt³

et al. 2013

Ecography

108

142

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Th e species pool concept has played a central role in the development of ecological theory for at least 60 yr. Surprisingly, there is little consensus as to how one should defi ne the species pool, and consequently, no systematic approach exists. Because the defi nition of the species pool is essential to infer the processes that shape ecological communities, there is a strong incentive to develop an ecologically realistic defi nition of the species pool based on repeatable and transparent analytical approaches. Recently, several methodological tools have become available to summarize repeated patterns in the geographic distribution of species, phylogenetic clades and taxonomically broad lineages. Here, we present three analytical approaches that can be used to defi ne what we term ' the biogeographic species pool ' : distance-based clustering analysis, network modularity analysis, and assemblage dispersion fi elds. Th e biogeographic species pool defi nes the pool of potential community members in a broad sense and represents a fi rst step towards a standardized defi nition of the species pool for the purpose of comparative ecological, evolutionary and biogeographic studies.

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A supermatrix phylogeny of corvoid passerine birds (Aves: Corvides)

Jønsson

Fabre

Kennedy

et al. 2016

Molecular Phylogenetics and Evolution

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Ben G. Holt

An Update of Wallace’s Zoogeographic Regions of the World

Humboldt’s enigma: What causes global patterns of mountain biodiversity?

Building mountain biodiversity: Geological and evolutionary processes

Introducing the biogeographic species pool

A supermatrix phylogeny of corvoid passerine birds (Aves: Corvides)

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