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The use of phylogeny to interpret cross-cultural patterns in plant use and guide medicinal plant discovery: an example from Pterocarpus (Leguminosae)
The study of traditional knowledge of medicinal plants has led to discoveries that have helped combat diseases and improve healthcare. However, the development of quantitative measures that can assist our quest for new medicinal plants has not greatly advanced in recent years. Phylogenetic tools have entered many scientific fields in the last two decades to provide explanatory power, but have been overlooked in ethnomedicinal studies. Several studies show that medicinal properties are not randomly distributed in plant phylogenies, suggesting that phylogeny shapes ethnobotanical use. Nevertheless, empirical studies that explicitly combine ethnobotanical and phylogenetic information are scarce.In this study, we borrowed tools from community ecology phylogenetics to quantify significance of phylogenetic signal in medicinal properties in plants and identify nodes on phylogenies with high bioscreening potential. To do this, we produced an ethnomedicinal review from extensive literature research and a multi-locus phylogenetic hypothesis for the pantropical genus Pterocarpus (Leguminosae: Papilionoideae). We demonstrate that species used to treat a certain conditions, such as malaria, are significantly phylogenetically clumped and we highlight nodes in the phylogeny that are significantly overabundant in species used to treat certain conditions. These cross-cultural patterns in ethnomedicinal usage in Pterocarpus are interpreted in the light of phylogenetic relationships.This study provides techniques that enable the application of phylogenies in bioscreening, but also sheds light on the processes that shape cross-cultural ethnomedicinal patterns. This community phylogenetic approach demonstrates that similar ethnobotanical uses can arise in parallel in different areas where related plants are available. With a vast amount of ethnomedicinal and phylogenetic information available, we predict that this field, after further refinement of the techniques, will expand into similar research areas, such as pest management or the search for bioactive plant-based compounds
Phylogenetic relationships and phylogeography of relevant lineages within the complex Campanulaceae family in Macaronesia
Original ResearchMacaronesia has long been recognized as a natural model for studying evolutionary
processes in plant diversification. Several studies have attempted to focus on single
lineages, and few have covered the diversification of a family across all the archipelagos.
We used a comprehensive sample to clarify the phylogenetic relationships and
the biogeographic history of the Macaronesian Campanulaceae. Hypotheses related
to the colonization of these archipelagos will be used to examine the diversification
patterns of different lineages. We sequenced the ITS region and six cpDNA markers
(atpB, matK, petD, rbcL, trnL-F, and psbA-trnH) from 10 Campanulaceae species, including
seven endemic species in Macaronesia. The phylogeny of these taxa was reconstructed
using maximum parsimony, maximum likelihood, and Bayesian inference. To
study the relationships within each lineage, haplotype networks were calculated using
NeighborNet and TCS algorithms. Moreover, data were combined with fossil information
to construct time-calibrated
trees for the Macaronesian Campanulaceae species.
The phylogenetic analyses are largely congruent with current taxon circumscriptions,
and all the endemic genera formed monophyletic clades, namely Azorina in Azores;
Musschia in Madeira; and Campanula in Cape Verde. The Azorina clade and the Cape
Verde endemic Campanula may share a common ancestor in North Africa, and the divergence
was dated ca. 12.3 million years ago (Mya). The divergence of the Musschia
clade began in the Pliocene ca. 3.4 Mya. Moreover, several examples of intraspecific
variation were revealed among the native species with a clear geographic structured
patterns, suggesting that cryptic diversity might exist within the native Macaronesian
Campanulaceae when compared to the close mainland taxa (e.g., Campanula erinus,
Trachelium caeruleum), but additional studies are needed to support the molecular
data. This study highlights the power of combining data (e.g., phylogeny and divergence
times, with species distribution data) for testing diversification hypotheses
within the unique Macaronesian flora, providing useful information for future conservation
efforts.info:eu-repo/semantics/publishedVersio
Domestication Syndrome in Caimito (Chrysophyllum cainito L.): Fruit and Seed Characteristics
Domestication Syndrome in Caimito (Chrysophyllum cainitoL.): Fruit and Seed Characteristics: The process of domestication is understudied and poorly known for many tropical fruit tree crops. The star apple or caimito tree (Chrysophyllum cainito L., Sapotaceae) is cultivated throughout the New World tropics for its edible fruits. We studied this species in central Panama, where it grows wild in tropical moist forests and is also commonly cultivated in backyard gardens. Using fruits collected over two harvest seasons, we tested the hypothesis that cultivated individuals of C. cainito show distinctive fruit and seed characteristics associated with domestication relative to wild types. We found that cultivated fruits were significantly and substantially larger and allocated more to pulp and less to exocarp than wild fruits. The pulp of cultivated fruits was less acidic; also, the pulp had lower concentrations of phenolics and higher concentrations of sugar. The seeds were larger and more numerous and were less defended with phenolics in cultivated than in wild fruits. Discriminant Analysis showed that, among the many significant differences, fruit size and sugar concentration drove the great majority of the variance distinguishing wild from cultivated classes. Variance of pulp phenolics among individuals was significantly higher among wild trees than among cultivated trees, while variance of fruit mass and seed number was significantly higher among cultivated trees. Most traits showed strong correlations between years. Overall, we found a clear signature of a domestication syndrome in the fruits of cultivated caimito in Panama
Morphology of seeds and seedlings of four species of Vigna Savi (Leguminosae, Phaseolinae)
Phylogeny of the tropical tree family Dipterocarpaceae based on nucleotide sequences of the chloroplast RBCL gene
The Dipterocarpaceae, well-known trees of the Asian rain forests, have been variously assigned to Malvales and Theales. The family, if the Monotoideae of Africa (30 species) and South America and the Pakaraimoideae of South America (one species) are included, comprises over 500 species. Despite the high diversity and ecological dominance of the Dipterocarpaceae, phylogenetic relationships within the family as well as between dipterocarps and other angiosperm families remain poorly defined. We conducted parsimony analyses on rbcL sequences from 35 species to reconstruct the phylogeny of the Dipterocarpaceae. The consensus tree resulting from these analyses shows that the members of Dipterocarpaceae, including Monotes and Pakaraimaea, form a monophyletic group closely related to the family Sarcolaenaceae and are allied to Malvales. The present generic and higher taxon circumscriptions of Dipterocarpaceae are mostly in agreement with this molecular phylogeny with the exception of the genus Hopea, which forms a clade with Shorea sections Anthoshorea and Doona. Phylogenetic placement of Dipterocarpus and Dryobalanops remains unresolved. Further studies involving representative taxa from Cistaceae, Elaeocarpaceae, Hopea, Shorea, Dipterocarpus, and Dryobalanops will be necessary for a comprehensive understanding of the phylogeny and generic limits of the Dipterocarpaceae
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