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"Invasive plants"
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Predicting invasiveness of exotic woody species using a traits-based framework
Identifying potentially invasive species and preventing their introduction and establishment are of critical importance in invasion ecology and land management. Although an extensive body of research has been dedicated to identifying traits that confer invasiveness, our current knowledge is still often inconclusive due to limitations in geographic extent and/or scope of traits analyzed. Here, using a comprehensive set of 45 traits, we performed a case study of invasive traits displayed by exotic woody plants in the United States (U.S.) by comparing 63 invasive and 794 non-invasive exotic woody plant species naturalized across the country. We found that invasive woody species often bear the following two key traits: vegetative reproduction and long-distance seed dispersal (via water, birds or mammals). Boosted classification tree models based on these traits accurately predicted species invasiveness (86% accuracy on average). Presented findings provide a generalized understanding of the relative importance of functional traits in identifying potentially invasive woody species in the U.S. The knowledge generated in this study can be used to improve current classification systems of non-native woody plants used by various U.S. governmental agencies and land managers.
Journal Article
Herbicide usage for invasive non-native plant management in wildland areas of North America
1. In North America, herbicides are commonly used to control non-native invasive plants on public wildlands. Little is known about the magnitude, efficacy and financial costs of this practice, although this information is crucial for policymakers, researchers, land managers, pesticide producers and the general public. 2. In Canada and Mexico, herbicide usage data have not been tracked by agencies. In the USA, data archiving has been implemented by federal land managing agencies. However, while area sprayed and amounts of herbicides have been documented to varying degrees, efficacy and financial costs have not been recorded in a standardized and consistent manner and data publication has been insufficient. 3. Based on requested data, we estimate that in the USA, half a million hectares of public wildlands were sprayed with herbicides in 2010, representing 201 tonnes. Although nonselective, glyphosate was the most commonly used active ingredient. 4. Synthesis and applications. Increasing efforts by land management agencies to collect and share herbicide usage data is a key step towards narrowing the knowledge gap on herbicide usage in invasive non-native plant management on public wildlands. Land managers and policymakers in particular would benefit from an enhanced flow of information on efficacy, costs and effects of herbicides.
Journal Article
Dispersals : on plants, borders and belonging
A seed slips beyond a garden wall. A seaweed drifts through an ocean. A tree is planted on a shifting border. A shrub is uprooted from its culture and its land. What happens when these plants leave their original homes and put down roots elsewhere? Born in Canada to a Taiwanese mother and a Welsh father, steeped in both literary and scientific traditions, Jessica J. Lee is a perfectly placed observer of our world in motion. In this vibrant book of linked essays she explores the entanglements of the plant and human worlds, and the echoes and counterpoints she detects in the migration of plants and people - and the language we use to describe them. Each of the plants considered in this collection are somehow perceived as being 'out of place'- whether weeds, samples collected through imperial science, or crops introduced and transformed by our hand.
BOOK
Invasive non-native species in Brazil: an updated overview
Invasive non-native species (invasive species, henceforth) across all taxonomic groups are spreading globally, with numbers projected to continue growing in the future. It is difficult for governments and managers to handle this issue when the identity of invasive species or the areas of occurrence of biological invasions are not known. Here, we provide an updated list of invasive animals, plants and algae in Brazil that is fully integrated and based on the same criteria and lexicon to define invasive species across all plant and animal taxa and habitats. We list 444 invasive non-native species: 254 animals, 188 plants and 2 algae. Some of the invasive species have been present in Brazil since the beginning of the European colonization in the 1500 s, but the majority of first records in Brazil were made in the last century, with copious first records after the year 2000. The list of invasive species presented here represents the most comprehensive attempt thus far to catalog all invasive non-native species at a continental-scale for a megadiverse country. Brazil has published a national strategy with the objective of improving mechanisms and partnerships for invasive non-native species prevention, early detection and rapid response. We believe that the current list of invasive species will provide technical and scientific support for the implementation of effective measures in the management of biological invasions.
Journal Article
From introduction to nuisance growth: a review of traits of alien aquatic plants which contribute to their invasiveness
Invasive alien aquatic plant species (IAAPs) cause serious ecological and economic impact and are a major driver of changes in aquatic plant communities. Their invasive success is influenced by both abiotic and biotic factors. Here, we summarize the existing knowledge on the biology of 21 IAAPs (four free-floating species, eight sediment-rooted, emerged or floating-leaved species, and nine sediment-rooted, submerged species) to highlight traits that are linked to their invasive success. We focus on those traits which were documented as closely linked to plant invasions, including dispersal and growth patterns, allelopathy and herbivore defence. The traits are generally specific to the different growth forms of IAAPs. In general, the species show effective dispersal and spread mechanisms, even though sexual and vegetative spread differs strongly between species. Moreover, IAAPs show varying strategies to cope with the environment. The presented overview of traits of IAAPs will help to identify potential invasive alien aquatic plants. Further, the information provided is of interest for developing species-specific management strategies and effective prevention measures.
Journal Article
Plant functional group identity and diversity determine biotic resistance to invasion by an exotic grass
1. Biotic resistance, the ability of species in a community to limit invasion, is central to our understanding of how communities at risk of invasion assemble after disturbances, but it has yet to translate into guiding principles for the restoration of invasion-resistant plant communities. We combined experimental, functional, and modelling approaches to investigate processes of community assembly contributing to biotic resistance to an introduced lineage of Phragmites australis, a model invasive species in North America. We hypothesized that (i) functional group identity would be a good predictor of biotic resistance to P. australis, while species identity effect would be redundant within functional group (ii) mixtures of species would be more invasion resistant than monocultures. 2. We classified 36 resident wetland plants into four functional groups based on eight functional traits. We conducted two competition experiments based on the additive competition design with P. australis and monocultures or mixtures of wetland plants. As an indicator of biotic resistance, we calculated a relative competition index (RCI avg ) based on the average performance of P. australis in competition treatment compared with control. To explain diversity effect further, we partitioned it into selection effect and complementarity effect and tested several diversity—interaction models. 3. In monoculture treatments, RCI avg of wetland plants was significantly different among functional groups, but not within each functional group. We found the highest RCI avg for fast-growing annuals, suggesting priority effect. 4. RCI avg of wetland plants was significantly greater in mixture than in monoculture mainly due to complementarity-diversity effect among functional groups. In diversity—interaction models, species interaction patterns in mixtures were described best by interactions between functional groups when fitted to RCI avg or biomass, implying niche partitioning. 5. Synthesis. Functional group identity and diversity of resident plant communities are good indicators of biotic resistance to invasion by introduced Phragmites australis, suggesting niche preemption (priority effect) and niche partitioning (diversity effect) as underlying mechanisms. Guiding principles to understand and/or manage biological invasion could emerge from advances in community theory and the use of a functional framework. Targeting widely distributed invasive plants in different contexts and scaling up to field situations will facilitate generalization.
Journal Article