Your search keyword '"Kay, Kathleen M."' showing total 20 results

1. Growth–defense trade‐offs promote habitat isolation between recently‐diverged species.

Author

Harenčár, Julia G., Salazar‐Amoretti, Diego, García‐Robledo, Carlos, and Kay, Kathleen M.

Subjects

FOREST biodiversity, PLANT species, TROPICAL forests, UNDERSTORY plants, PLANT maintenance, REPRODUCTIVE isolation

Abstract

Copyright of Ecology & Evolution (20457758) is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Climate and shared evolutionary history drive trait variation among species of Neotropical understory monocots.

Author

Ávila‐Lovera, Eleinis, Vargas, Oscar M., Funk, Jennifer L., Kay, Kathleen M., and Goldsmith, Gregory R.

Subjects

TRAFFIC violations, MONOCOTYLEDONS, SEASONAL temperature variations, SPECIES diversity, SPECIES, HERBACEOUS plants

Abstract

Environmental variation commonly drives functional trait diversity within species, among species, and across communities. Climate and shared evolutionary history can both influence trait–environment relationships. We studied variation in plant functional traits among closely related Costus species occurring across environmental gradients, the extent to which this variation occurs within single species, and how that variation may be influenced by shared evolutionary history. We measured leaf, aboveground stem, rhizome, and fine root traits of 17 species of Costus in eight sites in Costa Rica and Panama, which varied in elevation, temperature, and precipitation. We then assessed the relationships among traits and environmental variables and estimated the phylogenetic signal of the traits. We observed significant relationships between functional traits and climate. Stomatal conductance decreased, but stem density and rhizome dry matter content increased with decreasing mean annual temperature and precipitation seasonality in both cross‐species and single‐species analyses. This suggests that herbaceous species have a similar trade‐off between plant hydraulic efficiency and safety as found in woody plants. Mean annual temperature was a stronger driver of trait variation than mean annual precipitation. We also found phylogenetic signal in leaf and stem structural traits (i.e., closely related species are more similar than distantly related species), but not in physiological or belowground traits. Our results demonstrate significant trait variation within and among species of Costus, a widespread understory and herbaceous genus in the tropics, which is driven by both climate and shared evolutionary history. [ABSTRACT FROM AUTHOR]

Published

2024

3. An elevational gradient in floral traits and pollinator assemblages in the Neotropical species Costus guanaiensis var. tarmicus in Peru.

Author

Maguiña‐Conde, Rossana, Zuñiga‐Rivas, Dorali, and Kay, Kathleen M.

Subjects

POLLINATORS, PLANT populations, BIOLOGICAL fitness, NATURAL selection, PLANT selection, PLANT species, ORCHIDS

Abstract

Copyright of Ecology & Evolution (20457758) is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

4. Evolutionary convergence on hummingbird pollination in Neotropical Costus provides insight into the causes of pollinator shifts.

Author

Kay, Kathleen M. and Grossenbacher, Dena L.

Subjects

*POLLINATORS, *POLLINATION, *HUMMINGBIRDS, *POLLINATION by bees, *NECTAR

Abstract

Summary: The evolution of hummingbird pollination is common across angiosperms throughout the Americas, presenting an opportunity to examine convergence in both traits and environments to better understand how complex phenotypes arise. Here we examine independent shifts from bee to hummingbird pollination in the Neotropical spiral gingers (Costus) and address common explanations for the prevalence of transitions from bee to hummingbird pollination.We use floral traits of species with observed pollinators to predict pollinators of unobserved species and reconstruct ancestral pollination states on a well‐resolved phylogeny. We examine whether independent transitions evolve towards the same phenotypic optimum and whether shifts to hummingbird pollination correlate with elevation or climate.Traits predicting hummingbird pollination include small flower size, brightly colored floral bracts and the absence of nectar guides. We find many shifts to hummingbird pollination and no reversals, a single shared phenotypic optimum across hummingbird flowers, and no association between pollination and elevation or climate.Evolutionary shifts to hummingbird pollination in Costus are highly convergent and directional, involve a surprising set of traits when compared with other plants with analogous transitions and refute the generality of several common explanations for the prevalence of transitions from bee to hummingbird pollination. [ABSTRACT FROM AUTHOR]

Published

2022

5. The genetic basis of floral mechanical isolation between two hummingbird‐pollinated Neotropical understorey herbs.

Author

Kay, Kathleen M. and Surget‐Groba, Yann

Subjects

*POLLINATION, *LOCUS (Genetics), *POLLINATORS, *HERBS, *GENETICS, *SPECIES, *PHENOTYPES, REPRODUCTIVE isolation

Abstract

Floral divergence can contribute to reproductive isolation among plant lineages, and thus provides an opportunity to study the genetics of speciation, including the number, effect size, mode of action and interactions of quantitative trait loci (QTL). Moreover, flowers represent suites of functionally interrelated traits, but it is unclear to what extent the phenotypic integration of the flower is underlain by a shared genetic architecture, which could facilitate or constrain correlated evolution of floral traits. Here, we examine the genetic architecture of floral morphological traits involved in an evolutionary switch from bill to forehead pollen placement between two species of hummingbird‐pollinated Neotropical understorey herbs that are reproductively isolated by these floral differences. For the majority of traits, we find multiple QTL of relatively small effect spread throughout the genome. We also find substantial colocalization and alignment of effects of QTL underlying different floral traits that function together to promote outcrossing and reduce heterospecific pollen transfer. Our results are consistent with adaptive pleiotropy or linkage of many co‐adapted genes, either of which could have facilitated a response to correlated selection and helped to stabilize divergent phenotypes in the face of low levels of hybridization. Moreover, our results indicate that floral mechanical isolation can be consistent with an infinitesimal model of adaptation. see also the Perspective by Carolyn A. Wessinger [ABSTRACT FROM AUTHOR]

Published

2022

6. Flexible drought deciduousness in a neotropical understory herb.

Author

Harenčár, Julia G., Ávila‐Lovera, Eleinis, Goldsmith, Gregory R., Chen, Grace F., and Kay, Kathleen M.

Subjects

DROUGHTS, DROUGHT management, REPRODUCTIVE isolation, WATER efficiency, UNDERSTORY plants, PHOTOSYNTHETIC rates, HERBS

Abstract

Copyright of American Journal of Botany is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

7. A greenhouse experiment partially supports inferences of ecogeographic isolation from niche models of Clarkia sister species.

Author

Goff, Kaleb A., Martinez Del Rio, Cormac, and Kay, Kathleen M.

Subjects

SPECIES distribution, WATER supply, SPECIES, SOIL moisture, POLLINATORS, REPRODUCTIVE isolation, EXTREME environments

Abstract

Premise: Ecogeographic isolation, or geographic isolation caused by ecological divergence, is thought to be of primary importance in speciation, yet is difficult to demonstrate and quantify. To determine whether distributions are limited by divergent adaptation or historical contingency, the gold standard is to reciprocally transplant species between their geographic ranges. Alternatively, ecogeographic isolation is inferred from species distribution models and niche divergence tests using widely available environmental and occurrence data. Methods: We tested for ecogeographic isolation between two sister species of California annual wildflowers, Clarkia concinna and C. breweri, with a hybrid approach. We used niche models to predict water availability as the major axis of ecological divergence and then tested that with a greenhouse experiment. Specifically, we manipulated water availability in field soils for two populations of each species and predicted higher fitness in conditions representing home habitats to those representing the environment of each's sister species. Results: Water availability and soil representing C. concinna generally increased both species' fitness. Thus, water and soil may indeed limit C. concinna from colonizing the range of C. breweri, but not vice versa. We suggest that the competitive environment and pollinator availability, which are not directly captured with either approach, may be key biotic factors correlated with climate that contribute to unexplained ecogeographic isolation for C. breweri. Conclusions: Ours is a valuable approach to assessing ecogeographic isolation, in that it balances feasibility with model validation, and our results have implications for species distribution modeling efforts geared toward predicting climate change responses. [ABSTRACT FROM AUTHOR]

Published

2021

8. Prezygotic barriers effectively limit hybridization in a rapid evolutionary radiation.

Author

Uckele, Kathryn A., Vargas, Oscar M., and Kay, Kathleen M.

Subjects

*PLANT hybridization, *SPECIES hybridization, *UNDERSTORY plants, *GENETIC speciation, *TROPICAL plants, *POLLINATION, REPRODUCTIVE isolation

Abstract

Summary Hybridization is increasingly recognized as an important evolutionary process across the tree of life. In many clades, phylogenomic approaches have permitted unparalleled insight into the extent and frequency of hybridization. However, we continue to lack a deep understanding of the factors that limit and shape patterns of hybridization, especially in evolutionary radiations. In this study, we characterized patterns of introgression across Costus (Costaceae), a young evolutionary radiation of tropical understory plants that maintain widespread interfertility despite exhibiting strong prezygotic reproductive isolation. We analyzed a phylogenomic dataset of 756 genes from 54 Costus species using multiple complementary approaches – D‐statistics, gene‐tree‐based tests, and phylogenetic network analyses – to detect and characterize introgression events throughout the evolutionary history of the radiation. Our results identified a moderate number of introgression events, including a particularly ancient, well‐supported event spanning one of the deepest divergences in the clade. Most introgression events occurred between taxa or ancestral lineages that shared the same pollination syndrome (bee‐pollinated or hummingbird‐pollinated). These findings suggest that prezygotic barriers, including pollinator specialization, have been key to the balance between introgression and reproductive isolation in Costus. [ABSTRACT FROM AUTHOR]

Published

2024

9. Experimental migration upward in elevation is associated with strong selection on life history traits.

Author

Peterson, Megan L., Angert, Amy L., and Kay, Kathleen M.

Subjects

LIFE history theory, ALTITUDES, SEED dispersal, LOCAL history, CLIMATE change, DROUGHT forecasting, ANIMAL migration

Abstract

One of the strongest biological impacts of climate change has been the movement of species poleward and upward in elevation. Yet, what is not clear is the extent to which the spatial distribution of locally adapted lineages and ecologically important traits may also shift with continued climate change. Here, we take advantage of a transplant experiment mimicking up‐slope seed dispersal for a suite of ecologically diverse populations of yellow monkeyflower (Mimulus guttatus sensu lato) into a high‐elevation common garden during an extreme drought period in the Sierra Nevada mountains, California, USA. We use a demographic approach to quantify fitness and test for selection on life history traits in local versus lower‐elevation populations and in normal versus drought years to test the potential for up‐slope migration and phenotypic selection to alter the distribution of key life history traits in montane environments. We find that lower‐elevation populations tend to outperform local populations, confirming the potential for up‐slope migration. Although selection generally favored some local montane traits, including larger flowers and larger stem size at flowering, drought conditions tended to select for earlier flowering typical of lower‐elevation genotypes. Taken together, this suggests that monkeyflower lineages moving upward in elevation could experience selection for novel trait combinations, particularly under warmer and drier conditions that are predicted to occur with continued climate change. [ABSTRACT FROM AUTHOR]

Published

2020

10. The case for the continued use of the genus name Mimulus for all monkeyflowers.

Author

Lowry, David B., Sobel, James M., Angert, Amy L., Ashman, Tia‐Lynn, Baker, Robert L., Blackman, Benjamin K., Brandvain, Yaniv, Byers, Kelsey J.R.P., Cooley, Arielle M., Coughlan, Jennifer M., Dudash, Michele R., Fenster, Charles B., Ferris, Kathleen G., Fishman, Lila, Friedman, Jannice, Grossenbacher, Dena L., Holeski, Liza M., Ivey, Christopher T., Kay, Kathleen M., and Koelling, Vanessa A.

Subjects

CHLOROPLAST DNA, BOTANY, MOLECULAR phylogeny, SCIENTIFIC knowledge, CHROMOSOME inversions, ECOPHYSIOLOGY, LIFE sciences

Published

2019

11. Adaptation and divergence in edaphic specialists and generalists: serpentine soil endemics in the California flora occur in barer serpentine habitats with lower soil calcium levels than serpentine tolerators.

Author

Sianta, Shelley A. and Kay, Kathleen M.

Subjects

*BIODIVERSITY, *PLANT species, *PHYLOGENY

Abstract

Premise: Adaptation to harsh edaphic substrates has repeatedly led to the evolution of edaphic specialists and generalists. Yet, it is unclear what factors promote specialization versus generalization. Here, we search for habitat use patterns associated with serpentine endemics (specialists) and serpentine tolerators (generalists) to indirectly test the hypothesis that trade‐offs associated with serpentine adaptation promote specialization. We predict that (1) endemics have adapted to chemically harsher and more bare serpentine habitats than tolerators, and (2) edaphic endemics show more habitat divergence from their sister species than tolerators do among on‐ and off‐serpentine populations. Methods: We selected 8 serpentine endemic and 9 serpentine tolerator species representing independent adaptation to serpentine. We characterized soil chemistry and microhabitat bareness from one serpentine taxon of each species and from a paired nonserpentine sister taxon, resulting in 8 endemic and 9 tolerator sister‐taxa pairs. Results: We find endemic serpentine taxa occur in serpentine habitats averaging twice as much bare ground as tolerator serpentine taxa and 25% less soil calcium, a limiting macronutrient in serpentine soils. We do not find strong evidence that habitat divergence between sister taxa of endemic pairs is greater than between sister taxa of tolerator pairs. Conclusions: These results suggest serpentine endemism is associated with adaptation to chemically harsher and more bare serpentine habitats. It may be that this adaptation trades off with competitive ability, which would support the longstanding, but rarely tested, competitive trade‐off hypothesis. [ABSTRACT FROM AUTHOR]

Published

2019

12. Sympatric serpentine endemic <italic>Monardella</italic> (Lamiaceae) species maintain habitat differences despite hybridization.

Author

Kay, Kathleen M., Woolhouse, Suzie, Smith, Brett A., Pope, Nathaniel S., and Rajakaruna, Nishanta

Subjects

*LAMIACEAE, *HABITAT partitioning (Ecology), *SYMPATRIC speciation, *GENE flow, *SPECIES hybridization, REPRODUCTIVE isolation

Abstract

Abstract: Ecological differentiation and genetic isolation are thought to be critical in facilitating coexistence between related species, but the relative importance of these phenomena and the interactions between them are not well understood. Here, we examine divergence in abiotic habitat affinity and the extent of hybridization and introgression between two rare species of Monardella (Lamiaceae) that are both restricted to the same serpentine soil exposure in California. Although broadly sympatric, they are found in microhabitats that differ consistently in soil chemistry, slope, rockiness and vegetation. We identify one active hybrid zone at a site with intermediate soil and above‐ground characteristics, and we document admixture patterns indicative of extensive and asymmetric introgression from one species into the other. We find that genetic distance among heterospecific populations is related to geographic distance, such that the extent of apparent introgression is partly explained by the spatial proximity to the hybrid zone. Our work shows that plant species can maintain morphological and ecological integrity in the face of weak genetic isolation, intermediate habitats can facilitate the establishment of hybrids, and that the degree of apparent introgression a population experiences is related to its geographic location rather than its local habitat characteristics. [ABSTRACT FROM AUTHOR]

Published

2018

13. The scale of local adaptation in Mimulus guttatus: comparing life history races, ecotypes, and populations.

Author

Peterson, Megan L., Kay, Kathleen M., and Angert, Amy L.

Subjects

*COMMON monkeyflower, *TRANSPLANTING (Plant culture), *PLANT ecology, *PLANT adaptation, *GENOTYPES

Abstract

Fitness trade-offs between environments are central to the evolution of biodiversity. Although transplant studies often document fitness trade-offs consistent with local adaptation (LA), many have also found an advantage of foreign genotypes (foreign advantage (FA)). Understanding the mechanisms driving the magnitude and distribution of fitness variation requires comparative approaches that test the ecological scales at which these different patterns emerge., We used a common garden transplant experiment to compare the relative fitnesses of native vs foreign genotypes at three nested ecological scales within Mimulus guttatus: annual vs perennial life history races, perennial ecotypes across an elevational range, and populations within perennial elevational ecotypes. We integrated fitness across the life-cycle and decomposed LA vs FA into contributions from different fitness components., We found LA, measured as home-site advantage, between annual and perennial races and a trend towards LA among populations within montane habitats. Conversely, we found strong FA of low-elevation perennials in a montane environment., LA between life history races reflects the fitness advantages of adult survival and vegetative growth in a mesic environment. Within the perennial race, recent climate conditions or nonselective processes, such as dispersal limitation or mutational load, could explain FA of low-elevation perennials in a montane environment. [ABSTRACT FROM AUTHOR]

Published

2016

14. AN ULTRAVIOLET FLORAL POLYMORPHISM ASSOCIATED WITH LIFE HISTORY DRIVES POLLINATOR DISCRIMINATION IN MIMULUS GUTTATUS.

Author

Peterson, Megan L., Miller, Timothy J., and Kay, Kathleen M.

Subjects

POLLINATORS, PERENNIALS, BUMBLEBEES, COMMON monkeyflower, ULTRAVIOLET radiation

Abstract

* Premise of the study: Ultraviolet (UV) floral patterns are common in angiosperms and mediate pollinator attraction, efficiency, and constancy. UV patterns may vary within species, yet are cryptic to human observers. Thus, few studies have explicitly described the distribution or ecological significance of intraspecific variation in UV floral patterning. Here, we describe the geographic distribution and pattern of inheritance of a UV polymorphism in the model plant species Mimulus guttatus (Phrymaceae). We then test whether naturally occurring UV phenotypes influence pollinator interactions within M. guttatus. * Methods: We document UV patterns in 18 annual and 19 perennial populations and test whether UV pattern is associated with life history. To examine the pattern of inheritance, we conducted crosses within and between UV phenotypes. Finally, we tested whether bee pollinators discriminate among naturally occurring UV phenotypes in two settings: wild bee communities and captive Bombus impatiens. * Key results: Within M. guttatus, perennial populations exhibit a small bulls-eye pattern, whereas a bilaterally symmetric runway pattern occurs mainly in annual populations. Inheritance of UV patterning is consistent with a single-locus Mendelian model in which the runway phenotype is dominant. Bee pollinators discriminate against unfamiliar UV patterns in both natural and controlled settings. * Conclusions: We describe a widespread UV polymorphism associated with life history divergence within Mimulus guttatus. UV pattern influences pollinator visitation and should be considered when estimating reproductive barriers between life history ecotypes. This work develops a new system to investigate the ecology and evolution of UV floral patterning in a species with extensive genomic resources. [ABSTRACT FROM AUTHOR]

Published

2015

15. Restricted gene flow within and between rapidly diverging Neotropical plant species.

Author

Surget‐Groba, Yann and Kay, Kathleen M.

Subjects

*GENE flow in plants, *PLANT populations, *PLANT species, *RAIN forests, *GENETIC speciation, *PLANT hybridization

Abstract

Speciation involves the evolution of traits and genetic differences that contribute to reproductive isolation and the cessation of gene flow, and studying closely related species and divergent populations gives insight into how these phenomena proceed. Here, we document patterns of gene flow within and between two members of a rapid Neotropical species radiation, Costus pulverulentus and Costus scaber ( Costaceae). These species co-occur in the tropical rainforest and share pollinators, but are reproductively isolated by a series of prezygotic barriers, some of which show evidence of reinforcement at sympatric sites. Here, we genotype microsatellite markers in plants from eight sites that span the geographical range of both species, including four sympatric sites. We also genotype putative hybrids found at two sympatric sites. We find high levels of genetic isolation among populations within each species and low but detectable levels of introgression between species at sympatric sites. Putative hybrids identified by morphology are consistent with F1 or more advanced hybrids. Our results highlight the effectiveness of prezygotic isolating mechanisms at maintaining species boundaries in young radiations and provide empirical data on levels of gene flow consistent with reinforcement. [ABSTRACT FROM AUTHOR]

Published

2013

16. EDAPHIC ADAPTATION MAINTAINS THE COEXISTENCE OF TWO CRYPTIC SPECIES ON SERPENTINE SOILS.

Author

Yost, Jenn M., Barry, Teri, Kay, Kathleen M., and Rajakaruna, Nishanta

Subjects

PLANT-soil relationships, SOIL composition, SOIL moisture, PLANT adaptation, PLANT habitats

Abstract

Premise of the study: Divergent edaphic adaptation can contribute to reproductive isolation and coexistence between closely related species, yet we know little about how small-scale continuous edaphic gradients contribute to this phenomenon. We investigated edaphic adaptation between two cryptic species of California wildflower, Lasthenia californica and L. gracilis (Asteraceae), which grow in close parapatry on serpentine soil. Methods: We reciprocally transplanted both species into the center of each species' habitat and the transition zone between species. We quantified multiple components of fitness and used aster models to predict fitness based on environmental variables. We sampled soil across the ridge throughout the growing season to document edaphic changes through time. We sampled naturally germinating seedlings to determine whether there was dispersal into the adjacent habitat and to help pinpoint the timing of any selection against migrants. Key results: We documented within-serpentine adaptation contributing to habitat isolation between close relatives. Both species were adapted to the edaphic conditions in their native region and suffered fitness trade-offs when moved outside that region. However, observed fitness values did not perfectly match those predicted by edaphic variables alone, indicating that other factors, such as competition, also contributed to plant fitness. Soil water content and concentrations of calcium, magnesium, sodium, and potassium were likely drivers of differential fitness. Plants either had limited dispersal ability or migrants experienced early-season mortality outside their native region. Conclusions: Demonstrating that continuous habitats can support differently adapted, yet closely related, taxa is important to a broader understanding of how species are generated and maintained in nature. [ABSTRACT FROM AUTHOR]

Published

2012

17. RAPID SPECIATION AND THE EVOLUTION OF HUMMINGBIRD POLLINATION IN NEOTROPICAL COSTUS SUBGENUS COSTUS (COSTACEAE): EVIDENCE FROM NRDNA ITS AND ETS SEQUENCES.

Author

Kay, Kathleen M., Reeves, Patrick A., Olmstead, Richard G., and Schemske, Douglas W.

Subjects

*COSTUS, *SPECIES, *HUMMINGBIRDS, *POLLINATION, *PLANT genetics

Abstract

We estimate phylogenetic relationships and the biogeographic and pollination history of Costus subgenus Costus (Costaceae) using sequence data from the internal and external transcribed spacer (ITS and ETS) regions of 18S-26S nuclear ribosomal DNA. The African members of the subgenus form a series of lineages basal to a monophyletic neotropical species radiation. The neotropical species have large, showy flowers visited by either euglossine bees or hummingbirds. The hummingbird pollination syndrome is supported as a derived character state from the bee pollination syndrome, and we estimate that it has evolved independently seven or more times in the neotropics. A molecular clock approach suggests that diversification of the neotropical clade has been recent and rapid and that it coincides with dramatic climatic and geologic changes, Andean orogeny, and the closing of the Panama isthmus that occurred in the Pliocene and Pleistocene epochs. We propose a scenario for the diversification of Costus, in which rapid floral adaptation in geographic isolation and range shifts in response to environmental changes contribute to reproductive isolation among close relatives. We suggest that these processes may be common in other recently diversified plant lineages centered in Central America or the Northern Andean phytogeographic region. [ABSTRACT FROM AUTHOR]

Published

2005

18. GEOGRAPHIC PATTERNS IN PLANT-POLLINTOR MUTUALISTIC NETWORKS: COMMENT.

Author

Kay, Kathleen M. and Schemske, Douglas W.

Subjects

*POLLINATION, *PLANT fertilization, *POLLINATION by insects, *FLOWERS, *POLLINATORS, *PLANTS

Abstract

Throughout the history of the field of pollination biology, biologists have disagreed over the extent of adaptation between flowers and pollinators and in recent years, specialization in plant-pollinator interactions has been the focus of much discussion and debate. There are well-documented examples of both highly specialized and highly generalized plant-pollinator interactions. However, the distribution of these interactions along the generalization-specialization spectrum is much less understood.

Published

2004

19. Pollinator Assemblages and Visitation Rates for 11 Species of Neotropical Costus (Costaceae).

Author

Kay, Kathleen M. and Schemske, Douglas W.

Published

2003

20. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 October 2011 - 30 November 2011.

Author

Primer Development Consortium, Molecular Ecology Resources, ABREU, ALUANA G., ALBAINA, A., ALPERMANN, TILMAN J., APKENAS, VANESSA E., BANKHEAD-DRONNET, S., BERGEK, SARA, BERUMEN, MICHAEL L., CHO, CHANG-HUNG, CLOBERT, JEAN, COULON, AURÉLIE, DE FERAUDY, D., ESTONBA, A., HANKELN, THOMAS, HOCHKIRCH, AXEL, HSU, TSAI-WEN, HUANG, TSURNG-JUHN, IRIGOIEN, X., IRIONDO, M., and KAY, KATHLEEN M.

Subjects

MICROSATELLITE repeats, BIOMARKERS, SINGLE nucleotide polymorphisms, NUCLEOTIDE sequence, COSTUS

Abstract

This article documents the addition of 139 microsatellite marker loci and 90 pairs of single-nucleotide polymorphism sequencing primers to the Molecular Ecology Resources Database. Loci were developed for the following species: Aglaoctenus lagotis, Costus pulverulentus, Costus scaber, Culex pipiens, Dascyllus marginatus, Lupinus nanus Benth, Phloeomyzus passerini, Podarcis muralis, Rhododendron rubropilosum Hayata var. taiwanalpinum and Zoarces viviparus. These loci were cross-tested on the following species: Culex quinquefasciatus, Rhododendron pseudochrysanthum Hay. ssp. morii (Hay.) Yamazaki and R. pseudochrysanthum Hayata. This article also documents the addition of 48 sequencing primer pairs and 90 allele-specific primers for Engraulis encrasicolus. [ABSTRACT FROM AUTHOR]

Published

2012