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Journal article
Monnina (Polygalaceae), a New World monophyletic genus full of contrasts.
Endemic to the Neotropics, Monnina is the second largest genus of Polygalaceae, yet little is known about its phylogenetic history, biogeography, and morphological character evolution. To address these knowledge gaps, we conducted Bayesian and maximum likelihood (ML) analyses of nuclear ITS and plastid trnL–F regions to test the monophyly of...Freire-Fierro, Alina ; Forest, Felix ; Devey, Dion S. ; Barea Pastore, José Floriano ; Horn, James W. …
Ancylotropis, Pteromonnina, Evolution, Biogeography, Monnina, Polygalaceae, and Neotropics
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Journal article
Forty years of research into Crassulacean Acid Metabolism in the genus Clusia : anatomy, ecophysiology and evolution.
Clusia is the only genus containing dicotyledonous trees with a capacity to perform Crassulacean acid metabolism (CAM). Since the discovery of CAM in Clusia, 40 years ago, several studies have highlighted the extraordinary plasticity and diversity of life forms, morphology, and photosynthetic physiology of this genus. In this review we...Luján, Manuel ; Leverett, Alistair ; Winter, Klaus
Neotropics, Clusia, Trees, CAM photosynthesis, Plasticity, Ecophysiology, Plant anatomy, Carbon, and Evolution
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Journal article
Diversification dynamics in the Neotropics through time, clades, and biogeographic regions.
The origins and evolution of the outstanding Neotropical biodiversity are a matter of intense debate. A comprehensive understanding is hindered by the lack of deep-time comparative data across wide phylogenetic and ecological contexts. Here, we quantify the prevailing diversification trajectories and drivers of Neotropical diversification in a sample of 150... -
Journal issue
Drivers of exceptional Neotropical biodiversity.
Linnean Society
Evolution, Biodiversity, and Neotropics
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Journal article
Evolutionary history of CAM photosynthesis in Neotropical Clusia : insights from genomics, anatomy, physiology and climate.
Clusia is a remarkable genus of Neotropical woody plants as its members engage in either C3 photosynthesis or employ, to varying degrees, crassulacean acid metabolism (CAM) photosynthesis. Information about the evolutionary history of CAM in Clusia is scarce. Restriction site-associated sequencing of 64 species (20% of the genus) provided strong...