Eleanor E. Dormontt scite author profile

Many emerging invasive species display evidence of rapid adaptation. Contemporary genetic studies demonstrate that adaptation to novel environments can occur within 20 generations or less, indicating that evolutionary processes can influence invasiveness. However, the source of genetic or epigenetic variation underlying these changes remains uncharacterised. Here, we review the potential for rapid adaptation from standing genetic variation and from new mutations, and examine four types of evolutionary change that might promote or constrain rapid adaptation during the invasion process. Understanding the source of variation that contributes to adaptive evolution in invasive plants is important for predicting future invasion scenarios, identifying candidate genes involved in invasiveness, and, more generally, for understanding how populations can evolve rapidly in response to novel and changing environments.

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Something in the way you move: dispersal pathways affect invasion success

Wilson

Dormontt

Prentis

et al. 2009

Trends in Ecology & Evolution

706

684

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Biological invasions are caused by human-mediated extra-range dispersal and, unlike natural extra-range dispersal, are often the result of multiple introductions from multiple sources to multiple locations. The processes and opportunities that result in propagules moving from one area to another can be used more broadly to differentiate all types of extra-range dispersal. By examining key properties of dispersal pathways (notably propagule pressure, genetic diversity and the potential for simultaneous movement of coevolved species), the establishment and evolutionary trajectories of extra-range dispersal can be better understood. Moreover, elucidation of the mechanistic properties of dispersal pathways is crucial for scientists and managers who wish to assist, minimise or prevent future movements of organisms.

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Forensic timber identification: It's time to integrate disciplines to combat illegal logging

Dormontt

Boner²,

Braun³

et al. 2015

Biological Conservation

179

137

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Mating patterns and pollinator mobility are critical traits in forest fragmentation genetics

et al. 2013

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Most woody plants are animal-pollinated, but the global problem of habitat fragmentation is changing the pollination dynamics. Consequently, the genetic diversity and fitness of the progeny of animal-pollinated woody plants sired in fragmented landscapes tend to decline due to shifts in plant-mating patterns (for example, reduced outcrossing rate, pollen diversity). However, the magnitude of this mating-pattern shift should theoretically be a function of pollinator mobility. We first test this hypothesis by exploring the mating patterns of three ecologically divergent eucalypts sampled across a habitat fragmentation gradient in southern Australia. We demonstrate increased selfing and decreased pollen diversity with increased fragmentation for two smallinsect-pollinated eucalypts, but no such relationship for the mobile-bird-pollinated eucalypt. In a meta-analysis, we then show that fragmentation generally does increase selfing rates and decrease pollen diversity, and that more mobile pollinators tended to dampen these mating-pattern shifts. Together, our findings support the premise that variation in pollinator form contributes to the diversity of mating-pattern responses to habitat fragmentation.

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Advancing DNA Barcoding and Metabarcoding Applications for Plants Requires Systematic Analysis of Herbarium Collections—An Australian Perspective

et al. 2018

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Opportunities for Improved Transparency in the Timber Trade through Scientific Verification

Lowe

Dormontt

Bowie

et al. 2016

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In May 2014, the Member States of the United Nations adopted Resolution 23/1 on "strengthening a targeted crime prevention and criminal justice response to combat illicit trafficking in forest products, including timber. " The resolution promotes the development of tools and technologies that can be used to combat the illicit trafficking of timber. Stopping illegal logging worldwide could substantially increase revenue from the legal trade in timber and halt the associated environmental degradation, but law enforcement and timber traders themselves are hampered by the lack of available tools to verify timber legality. Here, we outline how scientific methods can be used to verify global timber supply chains. We advocate that scientific methods are capable of supporting both enforcement and compliance with respect to timber laws but that work is required to expand the applicability of these methods and provide the certification, policy, and enforcement frameworks needed for effective routine implementation.

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Testing Putative African Tropical Forest Refugia Using Chloroplast and Nuclear DNA Phylogeography

Lowe

Harris

Dormontt

et al. 2010

Tropical Plant Biol.

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The location and definition of Pleistocene refugia for tropical forest assemblages remains controversial. Phylogeographic methods have been used successfully in temperate ecosystems to locate past forest refugia using genetic data that coincide with pollen core evidence, and in some cases provide the sole basis for their location. Here we present molecular phylogeographic data from nuclear and chloroplast loci for the forest tree Irvingia gabonensis, across the majority of its natural range, in Nigeria, Cameroon and Gabon. It is the first detailed phylogeographic study to posit the location of tropical forest refugia across this region of Africa. Using the same method of restriction fragment length polymorphism screening, 17 alleles were identified across five anonymous nuclear loci and two haplotypes at a single chloroplast locus. Analysis based on nuclear variation identified two genetically diverse, differentiated allelic clusters within the species range, one in southern Nigeria/western Cameroon and the other in southwestern Cameroon. Molecular data are consistent with a historical genetic contraction and bottleneck into these regions in the Pleistocene and/or Holocene, which has been followed by subsequent expansion. Both genetic refugia are located within areas previously suggested as forest refugia from biogeographic studies, supported by available pollen core data, and occur either side of the Sanaga River, a notable biogeographic divide for mammals (particularly primates). Other putative refugia in Gabon do not appear to have acted as genetic refugia for I. gabonensis, and Gabon was most likely recolonised from the SW Cameroon refugial source. In this study, nuclear loci were able to highlight significant phylogeographic structure across the range of a tropical African tree, whereas chloroplast analysis gave a much more limited picture. With the increased availability of sequence data for nonmodel species, the de novo development and further application of nuclear loci is strongly recommended for phylogeographic studies of plants.

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Biogeographic concepts define invasion biology

Wilson

Dormontt

Prentis

et al. 2009

Trends in Ecology & Evolution

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This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research and education use, including for instruction at the authors institution and sharing with colleagues.Other uses, including reproduction and distribution, or selling or licensing copies, or posting to personal, institutional or third party websites are prohibited.In most cases authors are permitted to post their version of the article (e.g. in Word or Tex form) to their personal website or institutional repository. Authors requiring further information regarding Elsevier's archiving and manuscript policies are encouraged to visit: http://www.elsevier.com/copyright

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