Investigating processes of neotropical rain forest tree diversification by examining the evolution and historical biogeography of the Protieae (Burseraceae).
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TL;DR: In this paper, a multilocus phylogeny of 102 Protieae taxa (73% of published species), sampled pantropically, is presented to test hypotheses about the relative importance of dispersal, vicariance, habitat specialization, and biotic factors in the diversification of this ecologically dominant tribe of Neotropical trees.
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Abstract: Andean uplift and the collision of North and South America are thought to have major implications for the diversification of the Neotropical biota. However, few studies have investigated how these geological events may have influenced diversification. We present a multilocus phylogeny of 102 Protieae taxa (73% of published species), sampled pantropically, to test hypotheses about the relative importance of dispersal, vicariance, habitat specialization, and biotic factors in the diversification of this ecologically dominant tribe of Neotropical trees. Bayesian fossil-calibrated analyses date the Protieae stem at 55 Mya. Biogeographic analyses reconstruct an initial late Oligocene/early Miocene radiation in Amazonia for Neotropical Protieae, with several subsequent late Miocene dispersal events to Central America, the Caribbean, Brazil's Atlantic Forest, and the Choco. Regional phylogenetic structure results indicate frequent dispersal among regions throughout the Miocene and many instances of more recent regional in situ speciation. Habitat specialization to white sand or flooded soils was common, especially in Amazonia. There was one significant increase in diversification rate coincident with colonization of the Neotropics, followed by a gradual decrease consistent with models of diversity-dependent cladogenesis. Dispersal, biotic interactions, and habitat specialization are thus hypothesized to be the most important processes underlying the diversification of the Protieae.
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Species Diversity In Space And Time
Katja Gruenewald
- 01 Jan 2016
TL;DR: The species diversity in space and time is universally compatible with any devices to read and is available in the digital library an online access to it is set as public so you can get it instantly.
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The discovery of the Amazonian tree flora with an updated checklist of all known tree taxa
Hans ter Steege,Hans ter Steege,Rens W. Vaessen,Rens W. Vaessen,Dairon Cárdenas-López,Daniel Sabatier,Alexandre Antonelli,Sylvia Mota de Oliveira,Nigel C. A. Pitman,Peter M. Jørgensen,Rafael de Paiva Salomão +10 more
TL;DR: A checklist of all tree species collected to date in Amazonia is provided, and it is found that a species’ range size is a better predictor of the number of times it has been collected than thespecies’ estimated basin-wide population size.
Recently evolved diversity and convergent radiations of rainforest mahoganies (Meliaceae) shed new light on the origins of rainforest hyperdiversity
TL;DR: This work inferred the largest time-calibrated phylogeny for the Meliaceae family to date, reconstructed ancestral states for habitat and deciduousness, estimated diversification rates and modeled potential shifts in macro-evolutionary processes using a recently developed Bayesian method.
Using targeted enrichment of nuclear genes to increase phylogenetic resolution in the neotropical rain forest genus Inga (Leguminosae: Mimosoideae)
James A. Nicholls,R. Toby Pennington,Erik J. M. Koenen,Colin E. Hughes,Jack Hearn,Lynsey Bunnefeld,Kyle G. Dexter,Graham N. Stone,Catherine A. Kidner +8 more
TL;DR: It is concluded that targeted enrichment provides the large volumes of phylogenetically-informative sequence data required to resolve relationships within recent plant species radiations, both at the species level and for within-species phylogeographic studies.
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To move or to evolve: contrasting patterns of intercontinental connectivity and climatic niche evolution in "Terebinthaceae" (Anacardiaceae and Burseraceae).
TL;DR: A comprehensive sampling of the pantropical sister pair Anacardiaceae and Burseraceae is used to assess the relative importance of continental vicariance, long-distance dispersal and niche-conservatism in generating its distinctive pattern of diversity over time.
References
The importance of environmental heterogeneity and spatial distance in generating phylogeographic structure in edaphic specialist and generalist tree species of Protium (Burseraceae) across the Amazon Basin
Paul V. A. Fine,Felipe Zapata,Douglas C. Daly,Italo Mesones,Tracy M. Misiewicz,Hillary F. Cooper,Hillary F. Cooper,Carlos Eduardo A. Barbosa +7 more
TL;DR: This work compared the phylogeographic structure across the geographic distribution of twoProtium(Burseraceae) species with different degrees of edaphic specialization to predict the structure of populations in these species in the Amazon.
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Studies in Neotropical Burseraceae. II. Generic limits in New World Protieae and Canarieae
TL;DR: The assumed “intermediate” genus Paraprotium is shown to be an unnatural assemblage and is here merged withProtium and this revised concept of generic limits in the Neotropical Protieae and Canarieae leads to the following new combinations.
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Character evolution in Anaxagorea (Annonaceae)
TL;DR: A detailed discussion of morphological characters used in a combined morphological and molecular phylogenetic analysis of Anaxagorea is presented, along with implications of the analysis for character evolution in the genus.
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A New Amazonian Section of Protium (Burseraceae) including Both Edaphic Specialist and Generalist Taxa. Studies in Neotropical Burseraceae XVI.
TL;DR: Protium section Papilloprotium and Protium alvarezianum are described and a key to the four species of the section provided and the role of edaphic heterogeneity as a driver in the diversification of the Amazon flora is highlighted.
New taxa and combinations in Protium Burm. f. Studies in neotropical Burseraceae VI
TL;DR: Sarcoprotium Daly is distinguished principally by the cucullate petals with clawed bases and usually with a dorsal thickening produced vertically as an appendage; staminate inflorescences with a few 3-merous flowers.
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