Search Constraints
Search Results
-
Journal article
Certification of açaí agroforestry increases the conservation potential of the Amazonian tree flora.
The harvesting of açaí berries (palm fruits from the genus ) in Amazonia has increased over the last 20 years due to a high local and global market demand and triggered by their widely acclaimed health benefits as a ‘superfood’. Although such increase represents a financial boom for local communities,...Damasco, Gabriel ; Anhalt, Mandy ; Perdiz, Ricardo O. ; Wittmann, Florian ; de Assis, Rafael L. …
Açaí management, Amazonia, Biodiversity conservation, Euterpe, and Flooded forests
-
Journal article
Hybridization: a ‘double-edged sword’ for Neotropical plant diversity.
Hybridization can facilitate both evolutionary diversification and extinction and has had a critical role in plant evolution, with c. 25% of species known to hybridize in some temperate floras. However, in the species-rich Neotropical flora, the role of hybridization in the evolution of diversity remains unclear. Our review examines studies...Schley, Rowan J ; Twyford, Alex D ; Pennington, R Toby
Neotropics, Amazonia, ASpeciation, Andes, Amazonia, Genomics, Diversification, and Introgression
-
Journal article
Phylogenomics of the Palm Tribe Lepidocaryeae (Calamoideae: Arecaceae) and Description of a New Species of Mauritiella.
Torres Jiménez, Maria Fernanda ; Prata, Eduardo M. B. ; Zizka, Alexander ; Cohn-Haft, Mario ; de Oliveira, Ayslaner V. G. …
Amazonia, Phylogenomics, Palmae, Mauritiella, and Africa
-
Journal article
Taking the pulse of Earth’s tropical forests using networks of highly distributed plots.
ForestPlots.net
Ecology , AfriTRON , RAINFOR , Monitoring , Southeast Asia , Amazonia, Global change , Dynamics , Africa , Rainforest , Biodiversity , Species richness , Permanent sample plots , Carbon sink , and Forest plots
-
Journal article
Rapid diversification rates in Amazonian Chrysobalanaceae inferred from plastid genome phylogenetics
We studied the evolutionary history of Chrysobalanaceae with phylogenetic analyses of complete plastid genomes from 156 species to assess the tempo of diversification in the Neotropics and help to unravel the causes of Amazonian plant diversification. These plastid genomes had a mean length of 162 204 base pairs, and the...Chave, Jerome ; Sothers, Cynthia ; Iribar, Amaia ; Suescun, Uxue ; Chase, Mark W …
tropical forest, phylogenetic inference, Amazonia, Malpighiales, and molecular dating