Richard J. Carter scite author profile

SummaryMountains are often more species-rich than lowlands. This could be the result of migration from lowlands to mountains, of a greater survival rate in mountains, or of a higher diversification rate in mountains. We investigated this question in the globally distributed family Ericaceae, which includes c. 4426 species ranging from sea level to > 5000 m. We predict that the interaction of low specific leaf area (SLA) and montane habitats is correlated with increased diversification rates.A molecular phylogeny of Ericaceae based on rbcL and matK sequence data was built and dated with 18 fossil calibrations and divergence time estimates. We identified radiations using BAMM and correlates of diversification rate changes using binary-state speciation and extinction (BiSSE) and multiple-state speciation and extinction (MuSSE) analyses.Analyses revealed six largely montane radiations. Lineages in mountains diversified faster than nonmountain lineages (higher speciation rate, but no difference in extinction rate), and lineages with low SLA diversified faster than high-SLA lineages. Further, habitat and trait had a positive interactive effect on diversification.Our results suggest that the species richness in mountains is the result of increased speciation rather than reduced extinction or increased immigration. Increased speciation in Ericaceae was facilitated by low SLA.

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Fossils and a Large Molecular Phylogeny Show That the Evolution of Species Richness, Generic Diversity, and Turnover Rates Are Disconnected

Xing

Onstein

Carter

et al. 2014

Evolution

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Fundamental questions about how and why life became so diverse remain poorly understood, despite several centuries of accumulation of data about the diversity of extant and extinct species. In particular, there is little consensus as to whether expansionist models of species diversification, with no apparent limit to species richness, rather than equilibrium models, suggesting a plateau in species richness, apply. Furthermore, our knowledge of the impacts of global change on trajectories of species accumulation through the time and extent, causes, and dynamics of species turnover, which are fundamental to understanding biological diversification, remains fragmentary. To gain insights into these questions, we focus on the Cenozoic, an era of dramatic global climate, atmospherical and geological change, and the im-

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Do Mediterranean-type ecosystems have a common history?-Insights from the Buckthorn family (Rhamnaceae)

et al. 2015

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Mediterranean-type ecosystems (MTEs) are remarkable in their species richness and endemism, but the processes that have led to this diversity remain enigmatic. Here, we hypothesize that continent-dependent speciation and extinction rates have led to disparity in diversity between the five MTEs of the world: the Cape, California, Mediterranean Basin, Chile, and Western Australia. To test this hypothesis, we built a phylogenetic tree for 280 Rhamnaceae species, estimated divergence times using eight fossil calibrations, and used Bayesian methods and simulations to test for differences in diversification rates. Rhamnaceae lineages in MTEs generally show higher diversification rates than elsewhere, but speciation and extinction dynamics show a pattern of continent-dependence. We detected high speciation and extinction rates in California and significantly lower extinction rates in the Cape and Western Australia. The independent colonization of four of five MTEs may have occurred conterminously in the Oligocene/Early Miocene, but colonization of the Mediterranean Basin happened later, in the Late Miocene. This suggests that the in situ radiations of these clades were initiated before the onset of winter rainfall in these regions. These results indicate independent evolutionary histories of Rhamnaceae in MTEs, possibly related to the intensity of climate oscillations and the geological history of the regions.

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Diversification rate shifts in the Cape Floristic Region: The right traits in the right place at the right time

Onstein

Carter

Xing

et al. 2014

Perspectives in Plant Ecology, Evolution and Systematics

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Richard J. Carter

As old as the mountains: the radiations of the Ericaceae

Fossils and a Large Molecular Phylogeny Show That the Evolution of Species Richness, Generic Diversity, and Turnover Rates Are Disconnected

Do Mediterranean-type ecosystems have a common history?-Insights from the Buckthorn family (Rhamnaceae)

Diversification rate shifts in the Cape Floristic Region: The right traits in the right place at the right time

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