Your search keyword '"Kron, Kathleen"' showing total 6 results

1. Novel microsatellite markers for evaluation of genetic diversity in the tetraploid flame azalea, Rhododendron calendulaceum (Ericaceae).

Author

Thompson ML, Murrell ZE, Horn CN, Kron KA, and Gillespie EL

Subjects

Genetic Variation, Microsatellite Repeats, Rhododendron genetics, Tetraploidy

Abstract

Microsatellite markers have become a popular and useful tool for investigating evolutionary processes at shallow taxonomic scales such as within a species or between extremely closely related species. Rhododendron sect. Pentanthera is a closely related group of deciduous azaleas that demonstrate both naturally occurring and horticulturally derived hybridization. Two species, flame azalea and Cumberland azalea, represent a particularly recalcitrant evolutionary problem, which will benefit from the development of rapidly evolving molecular markers. Microsatellite markers were specifically developed for Rhododendron calendulaceum, the flame azalea, for use in studies of genetic structure and potential hybridization with its close relative Rhododendron cumberlandense, the Cumberland azalea. Forty-eight primer pairs designed from paired-end Illumina MiSeq data were screened for robust amplification. Sixteen of these pairs were PCR-amplified in the presence of fluorescently labeled primers and genotyped in 66 flame azalea individuals from three geographically dispersed populations. Fifteen primer pairs were both reliable and polymorphic and exhibit ample variability for use in downstream population-level investigations. Cross-amplification in all other members of Rhododendron sect. Pentanthera was highly successful, suggesting broad utility across the entire clade. The novel microsatellite markers presented here functioned well within the target species and amplified with high success in the remaining members of the clade. They represent a significant improvement to the genetic toolkit available for Rhododendron sect. Pentanthera, and particularly for the flame/Cumberland azalea evolutionary problem.

Published

2020

2. Age estimates for the buckwheat family Polygonaceae based on sequence data calibrated by fossils and with a focus on the amphi-Pacific Muehlenbeckia.

Author

Schuster TM, Setaro SD, and Kron KA

Subjects

Bayes Theorem, Chloroplasts genetics, Genes, Plant, Phylogeny, Polygonaceae classification, Evolution, Molecular, Fossils, Polygonaceae genetics

Abstract

The buckwheat family Polygonaceae is a diverse group of plants and is a good model for investigating biogeography, breeding systems, coevolution with symbionts such as ants and fungi, functional trait evolution, hybridization, invasiveness, morphological plasticity, pollen morphology and wood anatomy. The main goal of this study was to obtain age estimates for Polygonaceae by calibrating a Bayesian phylogenetic analysis, using a relaxed molecular clock with fossil data. Based on the age estimates, we also develop hypotheses about the historical biogeography of the Southern Hemisphere group Muehlenbeckia. We are interested in addressing whether vicariance or dispersal could account for the diversification of Muehlenbeckia, which has a "Gondwanan" distribution. Eighty-one species of Polygonaceae were analysed with MrBayes to infer species relationships. One nuclear (nrITS) and three chloroplast markers (the trnL-trnF spacer region, matK and ndhF genes) were used. The molecular data were also analysed with Beast to estimate divergence times. Seven calibration points including fossil pollen and a leaf fossil of Muehlenbeckia were used to infer node ages. Results of the Beast analyses indicate an age of 110.9 (exponential/lognormal priors)/118.7 (uniform priors) million years (Myr) with an uncertainty interval of (90.7-125.0) Myr for the stem age of Polygonaceae. This age is older than previously thought (Maastrichtian, approximately 65.5-70.6 Myr). The estimated divergence time for Muehlenbeckia is 41.0/41.6 (39.6-47.8) Myr and its crown clade is 20.5/22.3 (14.2-33.5) Myr old. Because the breakup of Gondwana occurred from 95-30 Myr ago, diversification of Muehlenbeckia is best explained by oceanic long-distance and maybe stepping-stone dispersal rather than vicariance. This study is the first to give age estimates for clades of Polygonaceae and functions as a jumping-off point for future studies on the historical biogeography of the family.

Published

2013

3. Neotropical and North American Vaccinioideae (Ericaceae) share their mycorrhizal Sebacinales - an indication for concerted migration?

Author

Setaro SD and Kron KA

Abstract

Neotropical Vaccinioideae (Ericaceae) are evolutionarily rather young and presumably of Northern Hemisphere origin. Vaccinioideae are highly dependent on their mycorrhizal symbionts and Sebacinales (basidiomycetes) were previously found to be the dominant mycobionts of Andean Clade Vaccinioideae (Neotropical Vaccinieae). We were interested to see whether the North American Vaccinioideae reached the Neotropics with their mycobionts or whether they acquired new, local Sebacinales.We investigated Sebacinales of 58 individuals of Vaccinioideae from Ecuador, Panama and North America to examine whether mycobionts of each region are distantly or closely related.We isolated the ITS of the ribosomal nuclear DNA in order to infer a molecular phylogeny of Sebacinales and to determine Molecular Operational Taxonomic Units (MOTUs). MOTU delimitation was based on a 3% threshold of ITS variability and conducted with complete linkage clustering. The analyses revealed that most Sebacinales from Ecuador, Panama and North America are closely related and that two MOTUs out of 33 have a distribution ranging from the Neotropics to the Pacific Northwest of North America. The data suggest that Neotropical and temperate Vaccinioideae of North America share their Sebacinales communities and that plants and fungi migrated together.

Published

2011

4. Placing the woody tropical genera of Polygonaceae: A hypothesis of character evolution and phylogeny.

Author

Burke JM, Sanchez A, Kron K, and Luckow M

Abstract

Premise of the Study: Taxonomic groups have often been recognized on the basis of geographic distinctions rather than accurately representing evolutionary relationships. This has been particularly true for temperate and tropical members from the same family. Polygonaceae exemplifies this problem, wherein the woody tropical genera were segregated from temperate members of the family and placed in the subfamily Polygonoideae as two tribes: Triplarideae and Coccolobeae. Modern phylogenetic studies, especially when inferred from many lines of evidence, can elucidate more probable hypotheses of relationships. This study builds on previous work in the family and aims to test the traditional classification of the tropical woody taxa, which have been understudied and undersampled compared to their temperate relatives. •, Methods: A phylogenetic study was undertaken with expanded sampling of the tropical genera with data from five plastid markers (psbA-trnH, psaI-accD, matK, ndhF, and rbcL), nuclear ribosomal DNA (ITS) and morphology. •, Key Results: Results support the placement of nine of 12 genera of the Triplarideae and Coccolobeae within Eriogonoideae, in which these genera form a paraphyletic assemblage giving rise to Eriogoneae. The remaining woody tropical genera excluded from Eriogonoideae occur in the paleotropics. •, Conclusions: Traditional characters used to delimit Coccolobeae and Triplarideae are not useful for defining monophyletic groups. The six-tepal condition is derived from the five-tepal condition, and unisexual flowers have arisen multiple times in different sexual systems. Ruminate endosperm has arisen multiple times in the family, suggesting this character is highly plastic.

Published

2010

5. Molecular phylogenetic relationships and a revised classification of the subfamily Ericoideae (Ericaceae).

Author

Gillespie E and Kron K

Subjects

Bayes Theorem, DNA, Chloroplast genetics, DNA, Plant genetics, Ericaceae genetics, Likelihood Functions, Sequence Analysis, DNA, Ericaceae classification, Evolution, Molecular, Phylogeny

Abstract

Subfamily Ericoideae (Ericaceae) includes 19 genera in five recognized tribes. Relationships involving the deepest nodes have been difficult to resolve, limiting the potential for further cladistic studies within the Ericoideae. The current study analyses six molecular markers using Bayesian, Maximum Likelihood and Maximum Parsimony methods to improve phylogenetic resolution within the Ericoideae. Two large clades were discovered. One clade includes the Phyllodoceae and Bejaria. The sister clade includes the Empetreae+Diplarche, Ericeae, Rhodoreae, and a clade comprised of Bryanthus and Ledothamnus. The current study improves upon the resolution of the phylogeny of the Ericoideae, particularly demonstrating support for the deepest nodes. Based on these results, we propose to retain the Ericeae, expand the Phyllodoceae to include Bejaria, expand the Empetreae to include Diplarche, retain the Rhodoreae (without Diplarche), dismantle the Bejarieae, and construct a new tribe, Bryantheae (Bryanthus and Ledothamnus)., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published

2010

6. Phylogenetic relationships within the blueberry tribe (Vaccinieae, Ericaceae) based on sequence data from MATK and nuclear ribosomal ITS regions, with comments on the placement of Satyria.

Author

Kron KA, Powell EA, and Luteyn JL

Abstract

The blueberry tribe (Vaccinieae) is a large and morphologically diverse group that is widespread in the temperate and tropical zones of most continents. The greatest species diversity is in the tropics, where Vaccinieae are a major component of montane cloud forests. Generic limits are poorly understood, and many of the characters traditionally used fail to adequately distinguish among taxa. This study analyzed sequence data from the chloroplast matK gene and the nrITS region for 93 species of Vaccinieae, representing 28 genera, and 16 sections (of the ∼33 currently recognized) of Vaccinium. Results indicated that, in general, traditional generic circumscriptions were not corroborated, but several well-supported clades were found: an Andean clade (including at least some members of 18 of the 23 Neotropical genera sampled), a Meso-American/Caribbean clade, an East Malesian clade (including the Old World taxa Paphia and Dimorphanthera), an Agapetes clade comprised of some Asian Vaccinium and Agapetes, and a Bracteata-Oarianthe clade (Vaccinium spp.). This study is the first to address phylogenetic relationships among members of Vaccinieae on a worldwide basis and the results indicate that the large genus Vaccinium is not monophyletic, but likely represents a grade group out of which several more specialized clades evolved.

Published

2002