Your search keyword '"Van Etten, Megan L."' showing total 12 results

1. Quality matters. A commentary on: Pollen limitation and xenia effects in a cultivated mass-flowering tree, Macadamia integrifolia (Proteaceae).

Author

Van Etten ML

Subjects

Pollen, Trees, Macadamia, Proteaceae

Published

2022

2. Variable inbreeding depression may explain associations between the mating system and herbicide resistance in the common morning glory.

Author

Van Etten ML, Soble A, and Baucom RS

Subjects

Herbicide Resistance genetics, Inbreeding, Reproduction, Herbicides toxicity, Inbreeding Depression genetics, Ipomoea

Abstract

Inbreeding depression is a central parameter underlying mating system variation in nature and one that can be altered by environmental stress. Although a variety of systems show that inbreeding depression tends to increase under stressful conditions, we have very little understanding across most organisms how the level of inbreeding depression may change as a result of adaptation to stressors. In this work we examined the potential that inbreeding depression varied among lineages of Ipomoea purpurea artificially evolved to exhibit divergent levels of herbicide resistance. We examined inbreeding depression in a variety of fitness-related traits in both the growth chamber and in the field, and paired this work with an examination of gene expression changes. We found that, while inbreeding depression was present across many of the traits, lineages artificially selected for increased herbicide resistance often showed no evidence of inbreeding depression in the presence of herbicide, and in fact, showed evidence of outbreeding depression in some traits compared to nonselected control lines and lineages selected for increased herbicide susceptibility. Further, at the transcriptome level, the resistant selection lines had differing patterns of gene expression according to breeding type (inbred vs. outcrossed) compared to the control and susceptible selection lines. Our data together indicate that inbreeding depression may be lessened in populations that are adapting to regimes of strong selection., (© 2021 John Wiley & Sons Ltd.)

Published

2021

3. Adaptive and maladaptive expression plasticity underlying herbicide resistance in an agricultural weed.

Author

Josephs EB, Van Etten ML, Harkess A, Platts A, and Baucom RS

Abstract

Plastic phenotypic responses to environmental change are common, yet we lack a clear understanding of the fitness consequences of these plastic responses. Here, we use the evolution of herbicide resistance in the common morning glory ( Ipomoea purpurea ) as a model for understanding the relative importance of adaptive and maladaptive gene expression responses to herbicide. Specifically, we compare leaf gene expression changes caused by herbicide to the expression changes that evolve in response to artificial selection for herbicide resistance. We identify a number of genes that show plastic and evolved responses to herbicide and find that for the majority of genes with both plastic and evolved responses, plastic responses appear to be adaptive. We also find that selection for herbicide response increases gene expression plasticity. Overall, these results show the importance of adaptive plasticity for herbicide resistance in a common weed and that expression changes in response to strong environmental change can be adaptive., Competing Interests: The authors declare no conflict of interest., (© 2021 The Authors. Evolution Letters published by Wiley Periodicals LLC on behalf of Society for the Study of Evolution (SSE) and European Society for Evolutionary Biology (ESEB).)

Published

2021

4. The relative contribution of natural landscapes and human-mediated factors on the connectivity of a noxious invasive weed.

Author

Alvarado-Serrano DF, Van Etten ML, Chang SM, and Baucom RS

Subjects

Agriculture, Ecosystem, Gene Flow genetics, Genetic Drift, Genetic Variation genetics, Genetics, Population, Humans, Introduced Species, Population Density, Adaptation, Physiological genetics, Ipomoea genetics, Plant Weeds genetics, Selection, Genetic genetics

Abstract

Examining how the landscape may influence gene flow is at the forefront of understanding population differentiation and adaptation. Such understanding is crucial in light of ongoing environmental changes and the elevated risk of ecosystems alteration. In particular, knowledge of how humans may influence population structure is imperative to allow for informed decisions in management and conservation as well as to gain a better understanding of anthropogenic impacts on the interplay between gene flow, genetic drift, and selection. Here, we use genome-wide molecular markers to characterize the population genetic structure and connectivity of Ipomoea purpurea (Convolvulaceae), a noxious invasive weed. We, likewise, assess the interaction between natural and human-driven influences on genetic differentiation among populations. Our analyses find that human population density is an important predictor of pairwise population differentiation, suggesting that the agricultural and/or horticultural trade may be involved in maintaining some level of connectivity across distant agricultural fields. Climatic variation appears as an additional predictor of genetic connectivity in this species. We discuss the implications of these results and highlight future research needed to disentangle the mechanistic processes underlying population connectivity of weeds.

Published

2019

5. Microsatellite markers for Corybas (Orchidaceae) species in New Zealand.

Author

Van Etten ML, Lehnebach CA, Pearson SM, Robertson AW, and Tate JA

Abstract

Premise of the Study: Microsatellite markers were developed for New Zealand species of Corybas (Orchidaceae) to investigate population genetics and species delimitation., Methods and Results: From sequencing a total genomic DNA library (using Illumina MiSeq), we developed 22 microsatellite markers for C. obscurus . The di- and trinucleotide repeat loci were initially trialed on individuals representing seven Corybas taxa ( C . "rimutaka," C. confusus , C. hypogaeus , C. macranthus , C. obscurus , C. trilobus , and C. walliae ) and had one to eight alleles per locus. Twelve polymorphic markers were further tested on six Corybas populations from three of the seven taxa ( C. obscurus , C . "rimutaka," and C. trilobus ). Observed and expected heterozygosities ranged from 0-1 and 0-0.859, respectively. The utility of these 12 loci was further validated in five related Corybas species ( C. hypogaeus , C. obscurus , C. vitreus , C. walliae , and C . "rimutaka"; 38 individuals) representing populations from across the North and South Islands. The average value for genetic diversity among populations ( F ST ) of 0.439 shows differentiation among species., Conclusions: These markers will be useful for future studies aimed at delimiting species boundaries and examining the genetic diversity of the New Zealand Corybas species.

Published

2018

6. Not all weeds are created equal: A database approach uncovers differences in the sexual system of native and introduced weeds.

Author

Van Etten ML, Conner JK, Chang SM, and Baucom RS

Abstract

Weedy species provide excellent opportunities to examine the process of successful colonization of novel environments. Despite the influence of the sexual system on a variety of processes from reproduction to genetic structure, how the sexual system of species influences weediness has received only limited consideration. We examined the hypothesis that weedy plants have an increased likelihood of being self-compatible compared with nonweedy plants; this hypothesis is derived from Baker's law, which states that species that can reproduce uniparentally are more likely to successfully establish in a new habitat where mates are lacking. We combined a database of the weed (weedy/nonweedy) and introduction status (introduced/native) of plant species found in the USA with a database of plant sexual systems and determined whether native and introduced weeds varied in their sexual systems compared with native and introduced nonweeds. We found that introduced weeds are overrepresented by species with both male and female functions present within a single flower (hermaphrodites) whereas weeds native to the USA are overrepresented by species with male and female flowers present on a single plant (monoecious species). Overall, our results show that Baker's law is supported at the level of the sexual system, thus providing further evidence that uniparental reproduction is an important component of being either a native or introduced weed.

Published

2017

7. Fitness costs of herbicide resistance across natural populations of the common morning glory, Ipomoea purpurea.

Author

Van Etten ML, Kuester A, Chang SM, and Baucom RS

Subjects

Germination drug effects, Germination genetics, Ipomoea drug effects, Ipomoea growth & development, Life History Traits, Genetic Fitness, Herbicide Resistance genetics, Ipomoea genetics

Abstract

Although fitness costs associated with plant defensive traits are widely expected, they are not universally detected, calling into question their generality. Here, we examine the potential for life-history trade-offs associated with herbicide resistance by examining seed germination, root growth, and above-ground growth across 43 naturally occurring populations of Ipomoea purpurea that vary in their resistance to RoundUp®, the most commonly used herbicide worldwide. We find evidence for life-history trade-offs associated with all three traits; highly resistant populations had lower germination, shorter roots, and smaller above-ground size. A visual exploration of the data indicated that the type of trade-off may differ among populations. Our results demonstrate that costs of adaptation may be present at stages other than simply the production of progeny in this agricultural weed. Additionally, the cumulative effect of costs at multiple life cycle stages can result in severe consequences to fitness when adapting to novel environments., (© 2016 The Author(s). Evolution © 2016 The Society for the Study of Evolution.)

Published

2016

8. The compounding effects of high pollen limitation, selfing rates and inbreeding depression leave a New Zealand tree with few viable offspring.

Author

Van Etten ML, Tate JA, Anderson SH, Kelly D, Ladley JJ, Merrett MF, Peterson PG, and Robertson AW

Subjects

New Zealand, Population Dynamics, Self-Fertilization, Sophora genetics, Inbreeding, Pollination, Sophora physiology

Abstract

Background and Aims: Interactions between species are especially sensitive to environmental changes. The interaction between plants and pollinators is of particular interest given the potential current global decline in pollinators. Reduced pollinator services can be compensated for in some plant species by self-pollination. However, if inbreeding depression is high, selfed progeny could die prior to reaching adulthood, leading to cryptic recruitment failure., Methods: To examine this scenario, pollinator abundance, pollen limitation, selfing rates and inbreeding depression were examined in 12 populations of varying disturbance levels in Sophora microphylla (Fabaceae), an endemic New Zealand tree species., Key Results: High pollen limitation was found in all populations (average of 58 % reduction in seed production, nine populations), together with high selfing rates (61 % of offspring selfed, six populations) and high inbreeding depression (selfed offspring 86 % less fit, six populations). Pollen limitation was associated with lower visitation rates by the two endemic bird pollinators., Conclusions: The results suggest that for these populations, over half of the seeds produced are genetically doomed. This reduction in the fitness of progeny due to reduced pollinator service is probably important to population dynamics of other New Zealand species. More broadly, the results suggest that measures of seed production or seedling densities may be a gross overestimate of the effective offspring production. This could lead to cryptic recruitment failure, i.e. a decline in successful reproduction despite high progeny production. Given the global extent of pollinator declines, cryptic recruitment failure may be widespread., (© The Author 2015. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2015

9. Frequency-dependent pollinator discrimination acts against female plants in the gynodioecious Geranium maculatum.

Author

Van Etten ML and Chang SM

Subjects

Animals, Geranium anatomy & histology, Ovule anatomy & histology, Pollen physiology, Reproduction, Sex Ratio, Bees physiology, Geranium physiology, Ovule physiology, Pollination physiology

Abstract

Background and Aims: Gynodioecy, the co-occurrence of female and hermaphroditic individuals, is thought to be an intermediate step between hermaphroditism and separate sexes, a major transition in flowering plants. Because retaining females in a population requires that they have increased seed fitness (to compensate for the lack of pollen fitness), factors that affect seed fitness are of great importance to the evolution of this mating system and have often been studied. However, factors negatively affecting female fitness are equally important and have been largely neglected. One such factor stems from female flowers being less attractive to insects than hermaphrodite flowers, thereby decreasing their relative fitness., Methods: To test the severity and consequences of this type of pollinator discrimination in Geranium maculatum, experimental populations with the range of sex ratios observed in nature were created, ranging from 13 % to 42 % females. Pollinators were observed in order to measure the strength of discrimination, and pollen deposition and seed production of both sexes were measured to determine the fitness consequences of this discrimination. Additionally a comparison was made across the sex ratios to determine whether discrimination was frequency-dependent., Key Results: It was found that female flowers, on average, were visited at half of the rate of hermaphrodite flowers, which decreased their pollen receipt and seed production. Additionally, females were most discriminated against when rare, due to both changes in the pollinators' behaviour and a shift in pollinator composition., Conclusions: The results suggest that pollinator discrimination negatively affects females' relative fitness when they are rare. Thus, the initial spread of females in a population, the first step in the evolution of gynodioecy, may be made more difficult due to pollinator discrimination., (© The Author 2014. Published by Oxford University Press on behalf of the Annals of Botany Company. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2014

10. Sophora microphylla (Fabaceae) microsatellite markers and their utility across the genus.

Author

Van Etten ML, Houliston GJ, Mitchell CM, Heenan PB, Robertson AW, and Tate JA

Abstract

Premise of the Study: Genus-specific microsatellite markers were developed for Sophora for population genetic and systematic studies of the group in New Zealand, and potentially elsewhere in the geographic range. •, Methods and Results: From sequencing a total genomic DNA library (using Roche 454), we identified and developed 29 polymorphic microsatellite markers for S. microphylla and S. chathamica. We tested 12 of these markers on 14 S. chathamica individuals and four S. microphylla populations. All loci amplified in both species and species-specific alleles occurred at seven loci. In S. microphylla populations, the observed and expected heterozygosities ranged from 0.000-0.960 and 0.000-0.908, respectively, with alleles per locus ranging from seven to 23. •, Conclusions: The developed markers will be valuable in studies of phylogenetics, population structure, mating system, and selection of provenances for restoration projects.

Published

2014

11. Microsatellite markers for the New Zealand endemic tree Fuchsia excorticata (Onagraceae).

Author

Van Etten ML, Robertson AW, and Tate JA

Abstract

Premise of the Study: Microsatellite markers were developed from a New Zealand endemic understory tree, Fuchsia excorticata, to investigate factors affecting the mating system. •, Methods and Results: Using 454 pyrosequencing, 48 microsatellite markers were developed and tested for polymorphism within populations. Twelve of these microsatellite loci were identified as being polymorphic within at least three populations and consistently amplified in the four populations tested. These primers amplified di-, tri-, and tetranucleotide repeats with 1-10 alleles per population. •, Conclusions: These results indicate the utility of microsatellite loci for future mating system and population genetic studies in F. excorticata.

Published

2013

12. Effects of environmental heterogeneity on the distribution of sexes within and among populations in a gynodioecious species, Geranium maculatum.

Author

Van Etten ML and Chang SM

Subjects

Flowers physiology, Light, Models, Biological, Population Dynamics, Regression Analysis, Seasons, Seeds growth & development, Soil, Environment, Geranium physiology, Sex Characteristics

Abstract

Populations containing both females and hermaphrodites (dimorphic) are generally found in drier sites than those with only hermaphrodites (monomorphic). The sex-differential plasticity hypothesis (SDP) suggests that this is caused by hermaphrodites reducing allocation to seeds in harsh environments, allowing female establishment. We proposed that a similar process could explain sex distribution within populations. We compared light availability and soil moisture between sites of three monomorphic and three dimorphic populations of Geranium maculatum and between microsites occupied by females and hermaphrodites within populations. We also correlated seed production in dimorphic populations with environmental measures. We found that dimorphic and monomorphic populations occurred in sites with similar soil moisture but within two dimorphic populations females occurred in drier microsites than hermaphrodites, as predicted by the SDP hypothesis. Contrary to the predictions, hermaphrodites' seed production was not influenced by the environment. Rather, females' seed production was correlated with environmental conditions in two populations, although the direction of the correlation differed between populations. Our results suggest that in this species, the SDP hypothesis does not explain sex distribution among or within populations. However, microsite environments may influence the distribution of sexes within a population and potentially aid in maintaining gynodioecy.

Published

2009