Your search keyword '"Epidendrum"' showing total 4 results

1. Strong but permeable barriers to gene exchange between sister species of Epidendrum.

Author

Pinheiro, Fábio, Zanfra de Melo e Gouveia, Tiago Manuel, Cozzolino, Salvatore, Cafasso, Donata, Cardoso‐Gustavson, Poliana, Suzuki, Rogério Mamoru, and Palma‐Silva, Clarisse

Subjects

*EPIDENDRUM, *GENE flow in plants, *PLANT genomes, *MICROSATELLITE repeats in plants, REPRODUCTIVE isolation

Abstract

PREMISE OF THE STUDY: The investigation of reproductive barriers between sister species can provide insights into how new lineages arise, and how species integrity is maintained in the face of interspecific gene flow. Different pre- and postzygotic barriers can limit interspecific gene exchange in sympatric populations, and different sources of evidence are often required to investigate the role of multiple reproductive isolation (Rl) mechanisms. METHODS: We tested the hypothesis of hybridization and potential introgression between Epidendrum secundum and Epidendrum xanthinum, two Neotropical food-deceptive orchid species, using nuclear and plastid microsatellites, experimental crosses, pollen tube growth observations, and genome size estimates. KEY RESULTS: A large number of hybrids between E. secundum and E. xanthinum were detected, suggesting weak premating barriers. The low fertility of hybrid plants and the absence of haplotype sharing between parental species indicated strong postmating barriers, reducing interspecific gene exchange and the development of advanced generation hybrids. Despite the strength of reproductive barriers, fertile seeds were produced in some backcrossing experiments, and the existence of interspecific gene exchange could not be excluded. CONCLUSIONS: Strong but permeable barriers were found between E. secundum and E. xanthinum. Indeed, haplotype sharing was not detected between parental species, suggesting that introgression is limited by a combination of genic incompatibilities, including negative cytonuclear interactions. Most taxonomic uncertainties in this group were potentially influenced by incomplete Rl barriers between species, which mainly occurred sympatrically. [ABSTRACT FROM AUTHOR]

Published

2016

2. MYCORRHIZAL PREFERENCES AND FINE SPATIAL STRUCTURE OF THE EPIPHYTIC ORCHID EPIDENDRUM RHOPALOSTELE.

Author

Riofrío, María L., Cruz, Dario, Torres, Elena, Cruz, Marcelino, Iriondo, José M., and Suárez, Juan Pablo

Subjects

*DEAD trees, *EPIDENDRUM, *MYCORRHIZAS, *ORCHID diseases & pests, *HABITATS

Abstract

* Premise of the study: The presence of compatible fungi is necessary for epiphytic orchid recruitment. Thus, identifying associated mycorrhizal fungi at the population level is essential for orchid conservation. Recruitment patterns may also be conditioned by factors such as seed dispersal range and specific environmental characteristics. * Methods: In a forest plot, all trees with a diameter at breast height > 1 cm and all individuals of the epiphytic orchid Epidendrum rhopalostele were identified and mapped. Additionally, one flowering individual of E. rhopalostele per each host tree was randomly selected for root sampling and DNA extraction. * Key results: A total of 239 E. rhopalostele individuals were located in 25 of the 714 potential host trees. Light microscopy of sampled roots showed mycorrhizal fungi in 22 of the 25 sampled orchids. Phylogenetic analysis of ITS1-5.8S-ITS2 sequences yielded two Tulasnella clades. In four cases, plants were found to be associated with both clades. The difference between univariate and bivariate K functions was consistent with the random labeling null model at all spatial scales, indicating that trees hosting clades A and B of Tulasnella are not spatially segregated. The analysis of the inhomogenous K function showed that host trees are not clustered, suggesting no limitations to population-scale dispersal. χ²analysis of contingency tables showed that E. rhopalostele is more frequent on dead trees than expected. * Conclusions: Epidendrum rhopalostele establishes mycorrhizal associations with at least two different Tulasnella species. The analysis of the distribution patterns of this orchid suggests a microsite preference for dead trees and no seed dispersal limitation. [ABSTRACT FROM AUTHOR]

Published

2013

3. THE EVOLUTION OF ANTHER MORPHOLOGY IN ORCHIDS: INCUMBENT ANTHERS, SUPERPOSED POLLINIA, AND THE VANDOID COMPLEX.

Author

Freudenstein, John V., Harris, Elizabeth M., and Rasmussen, Finn N.

Subjects

*ANTHER, *ORCHIDS, *POLLINIA, *EPIDENDRUM

Abstract

The anther is the source of several of the principal characters traditionally used for classification in Orchidaceae, especially in Epidendroideae. In particular, anther and pollinium orientation am important, but little-studied characters; it is not known whether various instances of these states are achieved in the same way. We examined variation in anther and pollinium orientation in Epidendroideae and Vanilloideae using anatomical sections of columns at successive ontogenetic stages and related the observed changes to the final anther morphology to reexamine our homology hypotheses for these characters. Anther bending in vanilloids is achieved primarily by massive expansion of the connective. In nonvandoid epidendroids it is the result of column elongation and tipping of the mature anther, while in vandoids it is due to a redirection of growth in very early ontogenetic stages. Superposed pollinia result from a reorientation of developing thecae; those is Sobralia result from incurving of the thecae, while vandoids have thecae that are directed outward (latrorse). Contrasting ontogenetic and phylogenetic patterns suggest heterochronic changes in these characters, especially in vandoids. These observations allow us to further refine character states that are crucial to our understanding of orchid relationships. [ABSTRACT FROM AUTHOR]

Published

2002

4. ORCHID EMBRYOLOGY: MEGAGAMETOPHYTE OF EPIDENDRUM SCUTELLA FOLLOWING FERTILIZATION

Author

William A. Jensen and Alfredo Cocucci

Subjects

Human fertilization, food.ingredient, food, biology, Scutella, Embryology, Epidendrum, Botany, Genetics, Plant Science, biology.organism_classification, Ecology, Evolution, Behavior and Systematics

Published

1969