Your search keyword '"invasion biology"' showing total 1,317 results

1. Is the biofouling community of a subtropical estuary resistant to the recruitment of an exotic hydroid?

Author

Bettim, Ariane Lima, Marochi, Murilo Zanetti, and Haddad, Maria Angélica

Published

2025

2. Ecosystem links: Anthropogenic activities, environmental variables, and macrophytes structure snail preferences in man-made waterbodies

Author

Mudavanhu, Aspire, Goossens, Emilie, Schols, Ruben, Manyangadze, Tawanda, Nhiwatiwa, Tamuka, Lemmens, Pieter, Huyse, Tine, and Brendonck, Luc

Published

2024

3. Moving north under the eye of the public: The dispersal ecology of the Nosferatu spider, documented by citizen scientists

Author

Pernat, Nadja, Buchholz, Sascha, Kriegs, Jan Ole, Steen, Jan, and Hollens-Kuhr, Hilke

Published

2025

4. Ninety years of alien plant species accumulation across regional and local scales in central European fields

Author

Colling, Gilles, Glaser, Michael, Buholzer, Serge, Bürger, Jana, Chytrý, Milan, Fanfarillo, Emanuele, Follak, Swen, Jansen, Florian, Kolářová, Michaela, Küzmič, Filip, Lososová, Zdeňka, Schumacher, Matthias, Šilc, Urban, Wietzke, Alexander, Dullinger, Stefan, and Essl, Franz

Published

2025

5. Elevational differentiation occurs alongside high plasticity in a general‐purpose genotype invasive plant.

Author

Millar, Aaron and Chapman, Hazel

Subjects

*PHOTOSYNTHETIC rates, *INVASIVE plants, *UPLANDS, *FLOWERING of plants, *INTRODUCED species

Abstract

Highly plastic general‐purpose genotypes are a frequent occurrence among invasive plants. Yet it remains uncertain to what extent genetic differentiation can co‐occur with such elevated levels of plasticity. Understanding the interplay between these two evolutionary strategies is essential to understand potential invasive success and future climate change responses. We investigated the potential for genetic shifts between upland and lowland populations of the highly plastic invasive herb Erythranthe guttata in New Zealand. We aimed to determine (a) the presence of genetic differentiation between upland and lowland origin E. guttata populations; (b) whether any differences aligned with established adaptive patterns; and (c) whether genetic differentiation was occurring alongside the high plasticity of E. guttata populations in response to varying elevations. We grew cuttings from 38 E. guttata populations from upland and lowland Canterbury in a lowland and an upland common garden, where we measured a wide range of growth and reproductive traits. We found significant differentiation between upland and lowland origin populations over most measured traits. Plants sourced from upland populations flowered earlier and produced more flowers than plants originating from lowland populations. Lowland origin plants were taller, had larger leaves and higher photosynthetic rates than upland plants. These differences occurred alongside high levels of unspecialised plasticity to the growing environment. Synthesis: We found that over a period of less than 150 years, distinct lowland and upland phenotypes of E. guttata have emerged. These differences are consistent with known selective patterns to elevation that favour reproductive security at higher elevations and competitive ability at lower elevations. This rapid genetic differentiation occurred alongside high plasticity to growing environment, suggesting that highly plastic invasive species still retain the capacity to genetically adapt to novel environments. [ABSTRACT FROM AUTHOR]

Published

2024

6. Invasion away from roadsides was not driven by adaptation to grassland habitats in Dittrichia graveolens (stinkwort).

Author

Melen, Miranda, Snyder, Emma, Fernandez, Michael, Lopez, Andrew, Lustenhouwer, Nicky, and Parker, Ingrid

Subjects

Adaptation, Asteraceae, Evolution, Invasion biology, Plant, Population spread

Abstract

UNLABELLED: Invasive plants along transportation corridors can significantly threaten ecosystems and biodiversity if they spread beyond anthropogenic environments. Rapid evolution may increase the ability of invading plant populations to establish in resident plant communities over time, posing a challenge to invasion risk assessment. We tested for adaptive differentiation in Dittrichia graveolens (stinkwort), an invasive species of ruderal habitat in California that is increasingly spreading away from roadsides into more established vegetation. We collected seeds from eight pairs of vegetated sites and their nearest (presumed progenitor) roadside population. We assessed differentiation between populations in roadside and vegetated habitat for germination behavior and for response to competition in a greenhouse experiment. We also tested for increased performance in vegetated habitat with a grassland field experiment including a neighbor removal treatment. Germination rates were slightly reduced in seeds from vegetated sites, which may indicate lower seed viability. Otherwise, plants did not show consistent differences between the two habitat types. Competition strongly reduced performance of D. graveolens in both the greenhouse and in the field, but plants originating from vegetated sites did not show enhanced competitive ability. Our findings show no evidence of adaptive differentiation between D. graveolens populations from roadside and vegetated habitats to date, suggesting that invasiveness in grasslands has not been enhanced by rapid evolution in the 40 + years since this species was introduced to California. Evolutionary constraints or potentially high levels of gene flow at this small scale may limit adaptation to novel habitats along roadsides. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s10530-024-03359-6.

Published

2024

7. On the brink of explosion? Identifying the source and potential spread of introduced Zosterops white-eyes in North America

Author

DeRaad, Devon A, Cobos, Marlon E, Hofmeister, Natalie R, DeCicco, Lucas H, Venkatraman, Madhvi X, Nishiumi, Isao, McKay, Bailey, Zou, Fa-Sheng, Kawakami, Kazuto, Kim, Chang-Hoe, Lin, Ruey-Shing, Yao, Cheng-Te, Garrett, Kimball L, Aguillon, Stepfanie M, McCormack, John E, Mays, Herman L, Peterson, A Townsend, Moyle, Robert G, and Shultz, Allison J

Subjects

Biological Sciences, Ecology, Genetics, Life on Land, Invasion biology, Introduced population, Genomics, Evolution, Phylogeography, Zosterops, Environmental Sciences, Biological sciences, Environmental sciences

Abstract

Understanding the source of non-native introduced populations is crucial for forecasting geographic invasion potential and understanding the ecological consequences of potential establishment. Here we use genomics to identify the source populations and invasion dynamics of two non-native introduced populations from the iconic avian lineage of ‘great speciators’ known as white-eyes (genus Zosterops). We established confidently for the first time that introduced Zosterops populations in Hawaii and southern California are completely unrelated and derived from independent introductions of the species Z. japonicus and Z. simplex, respectively. We used descriptive population genetic statistics to identify a reduction in genetic diversity and increase in private alleles in the southern California population supporting a recent, potentially ongoing, genetic bottleneck in this population. In contrast, the introduced population in Hawaii showed no such characteristics, likely due to a larger founding population size and repeated introductions in this intentionally introduced population. Ecological niche modeling indicated that there is little environmentally suitable habitat for Z. simplex across the continent of North America, suggesting limited invasion potential, assuming niche conservatism. Yet, portions of the introduced Z. simplex population have already surpassed areas projected as suitable, likely because the urbanized environment of southern California offers biotic resources and microhabitats not captured by our model. Because Z. simplex appears to have overcome both the ‘invasion paradox’ of low founding genetic diversity and relatively unfamiliar environmental conditions in southern California, we suggest that this population may continue expanding beyond our environmental niche model projections in other temperate, urban regions.

Published

2024

8. Lost in translation: The need for updated messaging strategies in invasion biology communication.

Author

Reeb, Rachel A. and Heberling, J. Mason

Subjects

*SCIENCE education, *COMMUNICATION barriers, *TRUST, *INTRODUCED species, *SUSPICION

Abstract

Societal Impact Statement Summary As with any complex environmental challenge, information about the “invasive species problem” must be communicated effectively to generate widespread public trust, understanding, and engagement in solutions. However, there is growing recognition that conventional messaging strategies can be ineffective or even detrimental at activating the broader public. Flawed communication practices can have harmful societal impacts by perpetuating misinformation, propagating feelings of panic and fatalism, and disaffecting audience members within historically marginalized communities. In this article, we draw attention to existing communication barriers in invasion biology and attempt to address the flawed messaging strategies which perpetuate negative societal outcomes.Effective communication about introduced, invasive species is necessary for the public to engage in productive dialogue and participate in solutions. Best practices in communication are more essential than ever before, as the harmful environmental and societal impacts of invasive species are exacerbated by globalization and anthropogenic disturbance. In this article, we review how public misunderstanding and mistrust present persistent barriers to invasion biology communication. We then describe three flawed messaging strategies that underlie these barriers. These strategies include fear appeals, simplified invasion metaphors, and militaristic and xenophobic language. Though intended to inspire a public sense of urgency and action, these strategies more often stoke sentiments of confusion and mistrust when employed in practice. Efforts to develop new best practices in communication are already underway. However, there is a great need for efficacy testing and wider adoption among science and education professionals alike. We draw from the interdisciplinary literature to recommend specific forms of value appeals, metaphors, and language that are a promising foundation for improvement. [ABSTRACT FROM AUTHOR]

Published

2024

9. A review of the reported and future potential ecological impacts of the invasive freshwater snail Tarebia granifera in South Africa.

Author

Pearson, JJ, Gerber, R, Malherbe, W, Smit, NJ, and de Necker, L

Subjects

*ECOLOGICAL disturbances, *ECOLOGICAL impact, *NATIVE species, *FRESHWATER snails, *NUTRIENT cycles, *AQUATIC biodiversity

Abstract

The Southeast Asian gastropod Tarebia granifera is an invasive freshwater snail across several continents. Our review summarises the impacts of this invasive snail on invaded aquatic ecosystems. The most important impacts are those related to their ability to reproduce quickly and reach high densities within invaded ecosystems. The snail has reportedly caused declines and local extinctions in native snail populations globally. They can further significantly reduce algal standing stocks and may have severe impacts on benthic biomass, resulting in decreased benthic biodiversity and disturbances in aquatic ecosystem function. These invasive snails also cause bioturbation that can lead to changes in the nutrient cycles of invaded aquatic ecosystems and affect food web dynamics, with unknown implications for ecosystem function. Furthermore, T. granifera is well known to harbour a diverse range of parasitic species of medical and veterinary importance both within and outside their native ranges. The effective control of invasive T. granifera remains challenging as they are not easily preyed upon, and potential control methods may have unintentional side effects on native biota. This review provides evidence that there is a need to control this invader to avoid further degradation of freshwater habitats and aquatic biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

10. Eurasian tree sparrows are more food neophobic and habituate to novel objects more slowly than house sparrows.

Author

Krajcir, Kevin J., Kelly, Tosha R., Kimball, Melanie G., Cochran, Ella B., Stansberry, Keegan R., Dusang, Blake A., Patel, Ayushi, Masri, Danna F., Lipshutz, Sara E., and Lattin, Christine R.

Abstract

Copyright of Biological Invasions is the property of Springer Nature 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

11. Signals of selection and ancestry in independently feral Gallus gallus populations.

Author

Gering, E., Johnsson, M., Theunissen, D., Martin Cerezo, M. L., Steep, A., Getty, T., Henriksen, R., and Wright, D.

Subjects

*BIOLOGICAL evolution, *CHICKENS, *BONE metabolism, *GENOMICS, *POPULATION biology

Abstract

Recent work indicates that feralisation is not a simple reversal of domestication, and therefore raises questions about the predictability of evolution across replicated feral populations. In the present study we compare genes and traits of two independently established feral populations of chickens (Gallus gallus) that inhabit archipelagos within the Pacific and Atlantic regions to test for evolutionary parallelism and/or divergence. We find that feral populations from each region are genetically closer to one another than other domestic breeds, despite their geographical isolation and divergent colonisation histories. Next, we used genome scans to identify genomic regions selected during feralisation (selective sweeps) in two independently feral populations from Bermuda and Hawaii. Three selective sweep regions (each identified by multiple detection methods) were shared between feral populations, and this overlap is inconsistent with a null model in which selection targets are randomly distributed throughout the genome. In the case of the Bermudian population, many of the genes present within the selective sweeps were either not annotated or of unknown function. Of the nine genes that were identifiable, five were related to behaviour, with the remaining genes involved in bone metabolism, eye development and the immune system. Our findings suggest that a subset of feralisation loci (i.e. genomic targets of recent selection in feral populations) are shared across independently established populations, raising the possibility that feralisation involves some degree of parallelism or convergence and the potential for a shared feralisation 'syndrome'. [ABSTRACT FROM AUTHOR]

Published

2024

12. Waif to Invasive: the Transatlantic Migration and Establishment of Grasses Introduced to North America with Pre-Twentieth-Century Ship Ballast.

Author

Schmidt, Ryan J., Johnston, Jacquelyn M., and Struwe, Lena

Subjects

*INTRODUCED plants, *INTRODUCED species, *BOTANICAL specimens, *PALEARCTIC, *HERBARIA

Abstract

Premise of research. Little is known about the establishment success of grasses after their introduction into new areas. Using herbarium data, we investigated temporospatial patterns in the survival, establishment, and spread of grasses introduced to eastern North America through solid ballast deposition from the pre-twentieth-century shipping trade. Methodology. We identified 95 grass species introduced to New Jersey via ballast deposition and used 2729 digitized and georeferenced plant specimens from 63 herbaria to quantify their establishment and dispersion. Anselin Local Moran's I measure of local spatial autocorrelation revealed the earliest and most recent areas of invasion by ballast grasses irrespective of collection intensity. Species' native ranges were used to evaluate the differential establishment and dispersion of species from different biogeographic realms. Pivotal results. Of all the species (95), 51% did not survive after ballast deposition ended (waifs), 8% died out shortly thereafter (short-term), and 41% became established in New Jersey. Of the established species, 41% are widespread (established-widespread), and 59% are still primarily found near shipping ports and railroads (established–limited spread). These species are mostly native to the Palearctic (77%; 44% to the Mediterranean and 33% to northern Europe), followed by the Neotropics (11%), the Afrotropics (10%), and the southeastern United States (4%). The establishment proportion for species native to more than one biogeographic region (72%) was four times greater than that for species native to a single region (18%). Additionally, 95% of established species, including all established-widespread species, are native to the Eastern Hemisphere. Conclusions. We present the first analysis of the establishment proportion for a large set of grasses introduced through a single vector to a single area. We show the impact of biogeographic origin on the establishment proportion of introduced grasses and highlight the utility of herbarium collections for studying nonnative species' history. [ABSTRACT FROM AUTHOR]

Published

2024

13. Global patterns of genomic and phenotypic variation in the invasive harlequin ladybird.

Author

Li, Hongran, Peng, Yan, Wang, Yansong, Summerhays, Bryce, Shu, Xiaohan, Vasquez, Yumary, Vansant, Hannah, Grenier, Christy, Gonzalez, Nicolette, Kansagra, Khyati, Cartmill, Ryan, Sujii, Edison, Meng, Ling, Zhou, Xuguo, Lövei, Gábor, Obrycki, John, Sethuraman, Arun, and Li, Baoping

Subjects

Adaptation, Evolutionary history, Invasion biology, Life history, Population genomics, mtCOI, Animals, Coleoptera, Haplotypes, Phenotype, Genomics, Biological Variation, Population

Abstract

BACKGROUND: The harlequin ladybird Harmonia axyridis (Coleoptera: Coccinellidae), native to Asia, has been introduced to other major continents where it has caused serious negative impacts on local biodiversity. Though notable advances to understand its invasion success have been made during the past decade, especially with then newer molecular tools, the conclusions reached remain to be confirmed with more advanced genomic analyses and especially using more samples from larger geographical regions across the native range. Furthermore, although H. axyridis is one of the best studied invasive insect species with respect to life history traits (often comparing invasive and native populations), the traits responsible for its colonization success in non-native areas warrant more research. RESULTS: Our analyses of genome-wide nuclear population structure indicated that an eastern Chinese population could be the source of all non-native populations and revealed several putatively adaptive candidate genomic loci involved in body color variation, visual perception, and hemolymph synthesis. Our estimates of evolutionary history indicate (1) asymmetric migration with varying population sizes across its native and non-native range, (2) a recent admixture between eastern Chinese and American populations in Europe, (3) signatures of a large progressive, historical bottleneck in the common ancestors of both populations and smaller effective sizes of the non-native population, and (4) the southwest origin and subsequent dispersal routes within its native range in China. In addition, we found that while two mitochondrial haplotypes-Hap1 and Hap2 were dominant in the native range, Hap1 was the only dominant haplotype in the non-native range. Our laboratory observations in both China and USA found statistical yet slight differences between Hap1 and Hap2 in some of life history traits. CONCLUSIONS: Our study on H. axyridis provides new insights into its invasion processes into other major continents from its native Asian range, reconstructs a geographic range evolution across its native region China, and tentatively suggests that its invasiveness may differ between mitochondrial haplotypes.

Published

2023

14. Genome Assembly and Population Sequencing Reveal Three Populations and Signatures of Insecticide Resistance of Tuta absoluta in Latin America

Author

Lewald, Kyle M, Tabuloc, Christine A, Godfrey, Kristine E, Arnó, Judit, Perini, Clérison R, Guedes, Jerson C, and Chiu, Joanna C

Subjects

Vaccine Related, Human Genome, Genetics, Prevention, Infection, Animals, Moths, Insecticide Resistance, Latin America, Sequence Analysis, DNA, Africa, Larva, invasion biology, population history, insecticide resistance, Tuta absoluta, tomato, Phthorimaea absoluta, Phthorimaea absoluta, Tuta absoluta, Biochemistry and Cell Biology, Evolutionary Biology, Developmental Biology

Abstract

Tuta absoluta is one of the largest threats to tomato agriculture worldwide. Native to South America, it has rapidly spread throughout Europe, Africa, and Asia over the past two decades. To understand how T. absoluta has been so successful and to improve containment strategies, high-quality genomic resources and an understanding of population history are critical. Here, we describe a highly contiguous annotated genome assembly, as well as a genome-wide population analysis of samples collected across Latin America. The new genome assembly has an L50 of 17 with only 132 contigs. Based on hundreds of thousands of single nucleotide polymorphisms, we detect three major population clusters in Latin America with some evidence of admixture along the Andes Mountain range. Based on coalescent simulations, we find these clusters diverged from each other tens of thousands of generations ago prior to domestication of tomatoes. We further identify several genomic loci with patterns consistent with positive selection and that are related to insecticide resistance, immunity, and metabolism. This data will further future research toward genetic control strategies and inform future containment policies.

Published

2023

15. Words matter: how ecologists discuss managed and non-managed bees and birds

Author

Argueta-Guzmán, Magda, West, Mari, Gaiarsa, Marilia P, Allen, Christopher W, Cecala, Jacob M, Gedlinske, Lauren, McFrederick, Quinn S, Murillo, Amy C, Sankovitz, Madison, and Rankin, Erin E Wilson

Subjects

Applied Mathematics, Information and Computing Sciences, Mathematical Sciences, Library and Information Studies, Life on Land, Invasion biology, Sentiment analysis, Wild, Native, Introduced, Bibliometric analysis, Policy and Administration, Science Studies, Library and information studies, Applied mathematics

Abstract

Abstract: Effectively promoting the stability and quality of ecosystem services involves the successful management of domesticated species and the control of introduced species. In the pollinator literature, interest and concern regarding pollinator species and pollinator health dramatically increased in recent years. Concurrently, the use of loaded terms when discussing domesticated and non-native species may have increased. As a result, pollinator ecology has inherited both the confusion associated with invasion biology’s lack of a standardized terminology to describe native, managed, or introduced species as well as loaded terms with very strong positive or negative connotations. The recent explosion of research on native bees and alternative pollinators, coupled with the use of loaded language, has led to a perceived divide between native bee and managed bee researchers. In comparison, the bird literature discusses the study of managed (poultry) and non-managed (all other birds) species without an apparent conflict with regard to the use of terms with strong connotations or sentiment. Here, we analyze word usage when discussing non-managed and managed bee and bird species in 3614 ecological and evolutionary biology papers published between 1990 and 2019. Using time series analyses, we demonstrate how the use of specific descriptor terms (such as wild, introduced, and exotic) changed over time. We then conducted co-citation network analyses to determine whether papers that share references have similar terminology and sentiment. We predicted a negative language bias towards introduced species and positive language bias towards native species. We found an association between the term invasive and bumble bees and we observed significant increases in the usage of more ambiguous terms to describe non-managed species, such as wild. We detected a negative sentiment associated with the research area of pathogen spillover in bumble bees, which corroborates the subjectivity that language carries. We recommend using terms that acknowledge the role of human activities on pathogen spillover and biological invasions. Avoiding the usage of loaded terms when discussing managed and non-managed species will advance our understanding and promote effective and productive communication across scientists, general public, policy makers and other stake holders in our society.

Published

2023

16. Extracting secondary data from citizen science images reveals host flower preferences of the Mexican grass‐carrying wasp Isodontia mexicana in its native and introduced ranges.

Author

Pernat, Nadja, Memedemin, Daniyar, August, Tom, Preda, Cristina, Reyserhove, Lien, Schirmel, Jens, and Groom, Quentin

Subjects

*CITIZEN science, *SECONDARY analysis, *WASPS, *PLANT species, *PLANT identification

Abstract

We investigated the plant‐pollinator interactions of the Mexican grass‐carrying wasp Isodontia mexicana—native to North America and introduced in Europe in the 1960s—through the use of secondary data from citizen science observations. We applied a novel data exchange workflow from two global citizen science platforms, iNaturalist and Pl@ntNet. Images from iNaturalist of the wasp were used to query the Pl@ntNet application to identify possible plant species present in the pictures. Simultaneously, botanists manually identified the plants at family, genus and species levels and additionally documented flower color and biotic interactions. The goals were to calibrate Pl@ntNet's accuracy in relation to this workflow, update the list of plant species that I. mexicana visits as well as its flower color preferences in its native and introduced ranges. In addition, we investigated the types and corresponding frequencies of other biotic interactions incidentally captured on the citizen scientists' images. Although the list of known host plants could be expanded, identifying the flora from images that predominantly show an insect proved difficult for both experts and the Pl@ntNet app. The workflow performs with a 75% probability of correct identification of the plant at the species level from a score of 0.8, and with over 90% chance of correct family and genus identification from a score of 0.5. Although the number of images above these scores may be limited due to the flower parts present on the pictures, our approach can help to get an overview into species interactions and generate more specific research questions. It could be used as a triaging method to select images for further investigation. Additionally, the manual analysis of the images has shown that the information they contain offers great potential for learning more about the ecology of an introduced species in its new range. [ABSTRACT FROM AUTHOR]

Published

2024

17. No evidence for pronounced mate-finding Allee effects in the emerald ash borer (Agrilus planipennis Fairmaire).

Author

Caouette, Alexandre P., Rutledge, Claire E., Heard, Stephen B., and Pureswaran, Deepa S.

Subjects

*EMERALD ash borer, *ALLEE effect, *POPULATION ecology, *GENITALIA, *BEETLES

Abstract

Allee effects are density-dependent barriers that can impact species establishment and population growth, such as through reduced mating success at low population densities. The emerald ash borer, Agrilus planipennis Fairmaire, has been extremely successful at rapidly expanding its North American range. The impact of mate-finding Allee effects (an important type of component Allee effect) early in the invasion period of the emerald ash borer remains unknown. We measured mating success in females as a function of beetle abundance in Halifax, Canada, where the emerald ash borer was recently discovered, and in Connecticut USA, where it has been established for over a decade. We measured relative population abundance and sampled beetles using different strategies. In Halifax, we placed clusters of prism traps along an invasion gradient of emerald ash borer abundance, and in Connecticut, we collected beetles from foraging Cerceris fumipennis females. We dissected female reproductive tracts to measure mating success. We fit a linear regression to the mating success of females as a function of beetle abundance. We found that emerald ash borer did not present a pronounced mate-finding Allee effect as there was no positive relationship between female mating success and abundance. Lack of pronounced component Allee effects that impede population growth may explain rapid range expansion in species that are highly invasive, such as the emerald ash borer. [ABSTRACT FROM AUTHOR]

Published

2024

18. Idiosyncratic invasion trajectories of human bacterial pathogens facing temperature disturbances in soil microbial communities.

Author

Eliette, Ascensio-Schultz, Elodie, Barbier, Arnaud, Mounier, Tiffany, Raynaud, Aymé, Spor, and Pascal, Piveteau

Subjects

*MICROBIAL communities, *ECOLOGICAL disturbances, *SOIL temperature, *MICROBIAL diversity, *MICROBIAL invasiveness, *SOIL microbial ecology

Abstract

Current knowledge about effects of disturbance on the fate of invaders in complex microbial ecosystems is still in its infancy. In order to investigate this issue, we compared the fate of Klebsiella pneumoniae (Kp) and Listeria monocytogenes (Lm) in soil microcosms. We then used environmental disturbances (freeze–thaw or heat cycles) to compare the fate of both invaders and manipulate soil microbial diversity. Population dynamics of the two pathogens was assessed over 50 days of invasion while microbial diversity was measured at times 0, 20 and 40 days. The outcome of invasion was strain-dependent and the response of the two invaders to disturbance differed. Resistance to Kp invasion was higher under the conditions where resident microbial diversity was the highest while a significant drop of diversity was linked to a higher persistence. In contrast, Lm faced stronger resistance to invasion in heat-treated microcosms where diversity was the lowest. Our results show that diversity is not a universal proxy of resistance to microbial invasion, indicating the need to properly assess other intrinsic properties of the invader, such as its metabolic repertoire, or the array of interactions between the invader and resident communities. [ABSTRACT FROM AUTHOR]

Published

2024

19. Analysis of Morphological Change during a Co-invading Assemblage of Lizards in the Hawaiian Islands.

Author

Phillips, John G., Hagey, Travis J., Hagemann, Molly, and Gering, Eben

Abstract

Phenotypic change plays diverse roles in species' colonization, but most invasion studies target single species. To compare ecomorphological changes among co-invading species with overlapping niches, we examined three lizards on the island of O'ahu (Anolis carolinensis, A. sagrei, Phelsuma laticauda). Using specimens from three decades of unfolding invasions obtained through museum collections and contemporary field work, we quantified shifts in three traits: snout vent length (SVL), forelimb-, and hindlimb-length (limb lengths relative to SVL). We hypothesized that competition among these three species has led to ecological shifts that will be detectable through morphological change. Overall, we found that unique patterns of phenotypic change were both species-specific and sex-specific within species: (1) male A. sagrei, female A. carolinensis, and male P. laticauda increased in SVL and (2) relative hindlimb length increased in female A. carolinensis since the 1980s. The observed changes involve traits that may be consequential to invasion dynamics. This study illustrates how museum- and field-based research can be integrated to document nuanced temporal patterns in the phenotypes of co-invading species that share similar niches in native ranges, raising questions about the underlying process(es) driving species- and sex-specific change in co-invaded systems. [ABSTRACT FROM AUTHOR]

Published

2024

20. Natural Language Hypotheses in Scientific Papers and How to Tame Them : Suggested Steps for Formalizing Complex Scientific Claims

Author

Heger, Tina, Algergawy, Alsayed, Brinner, Marc, Jeschke, Jonathan M., König-Ries, Birgitta, Mietchen, Daniel, Zarrieß, Sina, Hartmanis, Juris, Founding Editor, van Leeuwen, Jan, Series Editor, Hutchison, David, Editorial Board Member, Kanade, Takeo, Editorial Board Member, Kittler, Josef, Editorial Board Member, Kleinberg, Jon M., Editorial Board Member, Kobsa, Alfred, Series Editor, Mattern, Friedemann, Editorial Board Member, Mitchell, John C., Editorial Board Member, Naor, Moni, Editorial Board Member, Nierstrasz, Oscar, Series Editor, Pandu Rangan, C., Editorial Board Member, Sudan, Madhu, Series Editor, Terzopoulos, Demetri, Editorial Board Member, Tygar, Doug, Editorial Board Member, Weikum, Gerhard, Series Editor, Vardi, Moshe Y, Series Editor, Goos, Gerhard, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Cimiano, Philipp, editor, Frank, Anette, editor, Kohlhase, Michael, editor, and Stein, Benno, editor

Published

2024

21. Cecelia Stokes.

Subjects

*HISTORY of biology, *BIOTIC communities, *REWARD (Psychology), *BOTANY, *NATURAL history

Abstract

The document profiles Cecelia Stokes, a first-generation queer PhD student in fungal ecology and evolution at the University of Wisconsin-Madison. Stokes was inspired by the southern Appalachian Mountains to pursue plant science and later shifted her focus to fungi. She aims to demystify fungal ecology and contribute to conservation efforts. Stokes is motivated by curiosity, a quest for knowledge, and a desire to create an inclusive science community. She credits her mentors and advisors for shaping her scientific journey and looks up to them as role models. The document also highlights Stokes' favorite New Phytologist papers on ectomycorrhizal fungi and her favorite fungus, Pseudoboletus parasiticus. [Extracted from the article]

Published

2024

22. The Future of Invasion Science Needs Physiology

Author

Boardman, Leigh, Lockwood, Julie L, Angilletta, Michael J, Krause, Jesse S, Lau, Jennifer A, Loik, Michael E, Simberloff, Daniel, Thawley, Christopher J, and Meyerson, Laura A

Subjects

Environmental Sciences, Ecological Applications, Ecology, Biological Sciences, Life on Land, invasion biology, prediction, mechanism, modeling, demography, Biological sciences, Environmental sciences

Abstract

Abstract: Incorporating physiology into models of population dynamics will improve our understanding of how and why invasions succeed and cause ecological impacts, whereas others fail or remain innocuous. Targeting both organismal physiologists and invasion scientists, we detail how physiological processes affect every invasion stage, for both plants and animals, and how physiological data can be better used for studying the spatial dynamics and ecological effects of invasive species. We suggest six steps to quantify the physiological functions related to demography of nonnative species: justifying physiological traits of interest, determining ecologically appropriate time frames, identifying relevant abiotic variables, designing experimental treatments that capture covariation between abiotic variables, measuring physiological responses to these abiotic variables, and fitting statistical models to the data. We also provide brief guidance on approaches to modeling invasions. Finally, we emphasize the benefits of integrating research between communities of physiologists and invasion scientists.

Published

2022

23. Host Identity Matters-Up to a Point: The Community Context of Batrachochytrium dendrobatidis Transmission.

Author

Daversa, David R, Bosch, Jaime, Manica, Andrea, Garner, Trenton WJ, and Fenton, Andy

Subjects

Zoology, Biological Sciences, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Life Below Water, Animals, Anura, Batrachochytrium, Bufonidae, Chytridiomycota, Larva, Urodela, disease ecology, multihost transmission, community ecology, chytridiomycosis, invasion biology, Ecology, Biological sciences

Abstract

AbstractThe level of detail on host communities needed to understand multihost parasite invasions is an unresolved issue in disease ecology. Coarse community metrics that ignore functional differences between hosts, such as host species richness, can be good predictors of invasion outcomes. Yet if host species vary in the extent to which they maintain and transmit infections, then explicitly accounting for those differences may be important. Through controlled mesocosm experiments and modeling, we show that interspecific differences between host species are important for community-wide infection dynamics of the multihost fungal parasite of amphibians (Batrachochytrium dendrobatidis [Bd]), but only up to a point. The most abundant host species in our system, fire salamander larvae (Salamandra salamandra), did not maintain or transmit infections. Rather, two less abundant "auxiliary" host species, Iberian tree frog (Hyla molleri) and spiny toad (Bufo spinosus) larvae, maintained and transmitted Bd. Frogs had the highest mean rates of Bd shedding, giving them the highest contributions to the basic reproduction number, R0. Toad contributions to R0 were substantial, however, and when examining community-level patterns of infection and transmission, the effects of frogs and toads were similar. Specifying more than just host species richness to distinguish salamanders from auxiliary host species was critical for predicting community-level Bd prevalence and transmission. Distinguishing frogs from toads, however, did not improve predictions. These findings demonstrate limitations to the importance of host species identities in multihost infection dynamics. Host species that exhibit different functional traits, such as susceptibility and infectiousness, may play similar epidemiological roles in the broader community.

Published

2022

24. Death caps (Amanita phalloides) frequently establish from sexual spores, but individuals can grow large and live for more than a decade in invaded forests.

Author

Golan, Jacob, Wang, Yen‐Wen, Adams, Catharine A., Cross, Hugh, Elmore, Holly, Gardes, Monique, Gonçalves, Susana C., Hess, Jaqueline, Richard, Franck, Wolfe, Benjamin, and Pringle, Anne

Subjects

*LIFE history theory, *SPORES, *ECTOMYCORRHIZAL fungi, *POPULATION genetics

Abstract

Summary: Global change is reshaping Earth's biodiversity, but the changing distributions of nonpathogenic fungi remain largely undocumented, as do mechanisms enabling invasions. The ectomycorrhizal Amanita phalloides is native to Europe and invasive in North America. Using population genetics and genomics, we sought to describe the life history traits of this successfully invading symbiotic fungus.To test whether death caps spread underground using hyphae, or aboveground using sexual spores, we mapped and genotyped mushrooms from European and US sites. Larger genetic individuals (genets) would suggest spread mediated by vegetative growth, while many small genets would suggest dispersal mediated by spores. To test whether genets are ephemeral or persistent, we also sampled from populations over time.At nearly every site and across all time points, mushrooms resolve into small genets. Individuals frequently establish from sexual spores. But at one Californian site, a single individual measuring nearly 10 m across dominated. At two Californian sites, the same genetic individuals were discovered in 2004, 2014, and 2015, suggesting single individuals (both large and small) can reproduce repeatedly over relatively long timescales.A flexible life history strategy combining both mycelial growth and spore dispersal appears to underpin the invasion of this deadly perennial ectomycorrhizal fungus. [ABSTRACT FROM AUTHOR]

Published

2024

25. Teacher toads: Buffering apex predators from toxic invaders in a remote tropical landscape.

Author

Ward‐Fear, Georgia, Rangers, Bunuba, Bruny, Miles, Everitt, Corrin, and Shine, Richard

Subjects

*RHINELLA marina, *TOP predators, *TOADS, *WILDLIFE management, *TADPOLES, *POISONS, *PREDATION

Abstract

Even after research identifies new approaches for wildlife management, translating those methods for delivery can be logistically challenging. In tropical Australia, invasive cane toads (Rhinella marina) fatally poison many anuran‐eating native predators. Small‐scale trials show that vulnerable predators exposed to small (nonlethal) toads can learn to delete toads from their diets, increasing survival of those predators after toads invade. We deployed this method in the remote Kimberley region of tropical Australia, with >200,000 eggs, tadpoles, or metamorph toads released in advance of the expanding toad invasion front. Remote camera surveys before and after "teacher toad" deployment showed that large monitor lizards (Varanus panoptes) were almost extirpated from control plots but remained abundant in treatment plots, indicating broad‐scale success of this novel intervention. [ABSTRACT FROM AUTHOR]

Published

2024

26. Invasion of an Afrotemperate forest complex by the polyphagous shot hole borer beetle.

Author

Townsend, G., van Rooyen, E., Hill, M., De Beer, W., and Roets, F.

Subjects

*NATIVE species, *ANTHROPOGENIC effects on nature, *BEETLES, *COLONIES (Biology), *EMERALD ash borer, *URBAN trees, *SPECIES diversity

Abstract

The polyphagous shot hole borer (PSHB), Euwallacea fornicatus Eichhoff (Coleoptera: Curculionidae, Scolytinae), is a significant tree‐killing pest recently introduced into South Africa. Many native trees in urban settings are susceptible to infestation, but the presence of PSHB in natural ecosystems is unstudied. The presence and drivers of PSHB colonization in 1682 trees of 68 species were evaluated in 51 plots across a native Afrotemperate forest complex in South Africa. Breeding colonies of PSHB were found in six native species (breeding hosts). An additional 11 species did not contain PSHB colonies but hosted its mutualistic fungus Fusarium euwallaceae Freeman et al. (Hypocreales: Nectriaceae). Invasibility increased when plots were closer to the urban infestation border, further away from surface water, and when containing a larger number of breeding hosts. Invasibility decreased with an increase in tree species richness. Polyphagous shot hole borers were found in climax forest distant to urban areas at sites frequented by tourists. The severity of infestation of trees increased with an increase in host diameter, breeding host abundance, and infested tree abundance. Probability of infestation increased with an increase in the number of infested trees. Infested trees were not spatially clumped. Instead, PSHB preferentially selected eight of the 17 native host species. And the data suggest that larger trees of these species may be more susceptible to PSHB. Eight species were infested at random and two were infested seemingly accidentally. Infestations increased more rapidly on larger trees and on those surrounded by a high abundance of breeding hosts. This study confirms that Afrotemperate forests are highly susceptible to invasion by PSHB. Direct anthropogenic impact had no discernible effect on infestations, but humans aided spread of PSHB to distant sites. Halting movement of contaminated wood is important. Management of PSHB should focus on highly infested areas and trees as these increase the likelihood of further and more severe infestations. [ABSTRACT FROM AUTHOR]

Published

2024

27. Achieving the impossible: prevention and eradication of invasive plants in Mediterranean-type ecosystems.

Author

Munné-Bosch, Sergi

Subjects

*INVASIVE plant prevention, *INVASIVE plants, *PLANT invasions, *ECOSYSTEM management, *ECOSYSTEMS, *FRAGMENTED landscapes, *ENVIRONMENTAL management, *PLANT adaptation

Abstract

A combination of ecophysiological features makes some invasive plants difficult to eradicate in Mediterranean-type ecosystems. The human footprint in these ecosystems increases propagule pressure, helps habitat fragmentation, and facilitates adaptation of these invasive plants. Citizen science is as important as fundamental science and environmental management by public authorities to prevent new invasions. An in-depth analysis of the mechanistic processes underlying the evolution and ecophysiology of typical invasive plants such as Carpobrotus spp., Acacia spp., Agave spp., and Opuntia spp. in Mediterranean-type ecosystems shows very sophisticated, complex, and efficient strategies for invasion success, particularly in fragmented habitats. Propagule pressure at both geographical and temporal scales and the establishment of long-term seed banks are determinant for invasion success. A two-sword strategy based on long-term prevention and eradication is proposed for the management of Mediterranean-type ecosystems. Eradication of invasive plants in Mediterranean-type ecosystems appears to be extremely difficult nowadays and, at least for some invaders like Carpobrotus spp., long-term approaches that ultimately culminate in the elimination of seed banks is the only path for success. [ABSTRACT FROM AUTHOR]

Published

2024

28. Drivers of Hymenoscyphus fraxineus Infections in the Inner-Alpine Valleys of Northwestern Italy.

Author

Lione, Guglielmo, Ongaro, Silvia, Prencipe, Simona, Giraudo, Marianna, and Gonthier, Paolo

Subjects

EUROPEAN ash, VALLEYS, RAINFALL, DIEBACK, BISMUTH, INFECTION

Abstract

Fraxinus excelsior L. (ash) is a key forest tree species challenged by Hymenoscyphus fraxineus (T. Kowalski) Baral, Queloz, Hosoya, the causal agent of ash dieback. The goals of this study were (I) to assess the presence, spatial distribution, and incidence of H. fraxineus in the inner-alpine valleys of northwestern Italy, along with the severity of ash dieback; (II) to model the probability of infection by H. fraxineus based on environmental variables; (III) to reconstruct the direction of provenance of the front of invasion of the pathogen; and (IV) to test whether H. fraxineus has replaced the native relative Hymenoscyphus albidus (Gillet) W. Phillips, a saprobe of ash litter. By combining phytosanitary monitoring and samplings in 20 forest stands, laboratory analyses, and statistical modelling, this study showed that H. fraxineus was present in 65% of stands with an average incidence of 27%, reaching peaks of 80%. Rainfalls were the most relevant drivers of the probability of infection by H. fraxineus, rising up to 80% with the increased precipitation in April and July. Other drivers included elevation, maximal temperatures, latitude, and longitude. The front of invasion likely moved from Italy and/or Switzerland, rather than from France, while the replacement of H. albidus is uncertain. [ABSTRACT FROM AUTHOR]

Published

2024

29. Whole‐mitogenome analysis unveils previously undescribed genetic diversity in cane toads across their invasion trajectory.

Author

Cheung, Kelton, Amos, Timothy G., Shine, Rick, DeVore, Jayna L., Ducatez, Simon, Edwards, Richard J., and Rollins, Lee Ann

Subjects

*GENETIC variation, *RHINELLA marina, *MITOCHONDRIAL DNA, *GENOMICS, *NADH dehydrogenase

Abstract

Invasive species offer insights into rapid adaptation to novel environments. The iconic cane toad (Rhinella marina) is an excellent model for studying rapid adaptation during invasion. Previous research using the mitochondrial NADH dehydrogenase 3 (ND3) gene in Hawai'ian and Australian invasive populations found a single haplotype, indicating an extreme genetic bottleneck following introduction. Nuclear genetic diversity also exhibited reductions across the genome in these two populations. Here, we investigated the mitochondrial genomics of cane toads across this invasion trajectory. We created the first reference mitochondrial genome for this species using long‐read sequence data. We combined whole‐genome resequencing data of 15 toads with published transcriptomic data of 125 individuals to construct nearly complete mitochondrial genomes from the native (French Guiana) and introduced (Hawai'i and Australia) ranges for population genomic analyses. In agreement with previous investigations of these populations, we identified genetic bottlenecks in both Hawai'ian and Australian introduced populations, alongside evidence of population expansion in the invasive ranges. Although mitochondrial genetic diversity in introduced populations was reduced, our results revealed that it had been underestimated: we identified 45 mitochondrial haplotypes in Hawai'ian and Australian samples, none of which were found in the native range. Additionally, we identified two distinct groups of haplotypes from the native range, separated by a minimum of 110 base pairs (0.6%). These findings enhance our understanding of how invasion has shaped the genetic landscape of this species. [ABSTRACT FROM AUTHOR]

Published

2024

30. Invasion of farmland hedgerows by non-native small mammals is associated with lower soil surface invertebrate diversity, abundance, body size and biomass.

Author

Montgomery, W. Ian, Montgomery, Sally S. J., O'Neill, James, and Reid, Neil

Abstract

Small mammals in farmland hedgerows feed on soil surface invertebrates with non-native invasive species potentially affecting prey species and populations. We investigated terrestrial invertebrates using pitfall traps and leaf litter samples across four zones of invasion in Ireland: (1) native species only (wood mouse Apodemus sylvaticus and pygmy shrew Sorex minutus), (2) natives plus the non-native bank vole (Myodes glareolus), (3) natives plus the non-native greater white-toothed shrew (Crocidura russula) and (4) natives plus both. After accounting for regional and local environmental variation, small mammal invasion was associated with lower invertebrate species richness (9–39% lower than uninvaded zones), reduced abundance (18–56% lower), shorter arthropod body length (24–52% shorter) and lower arthropod biomass (63–89% lower). Negative effects were observed on a wide range of disparate functional groups spanning phytophagous, detritivorus, zoophagous and omnivorous taxa including: the Staphylinidae, Carabidae and Coleoptera larvae, Isopoda, Diplopoda, Diptera, Hymenoptera, Pulmonata and Acari. The greater white-toothed shrew had greater negative effects than the bank vole with presence of both having greater effects than either alone though the majority of their combined effects were largely attributable to the former. The bank vole may mitigate some of the negative effects of the greater white-toothed shrew on invertebrate abundance perhaps indicating of some form of trophic interaction. Predation of detritivores and large invertebrate predators may impact farmland ecosystem service delivery i.e. nutrient cycling and pest biocontrol. Hedgerow biodiversity loss may induce indirect trophic cascades negatively impacting other taxa including farmland birds. [ABSTRACT FROM AUTHOR]

Published

2024

31. Climate Change and Jump Dispersal Drive Invasion of the Rosy Wolfsnail (Euglandina rosea) in the United States.

Author

Mills, Dana H. and McKinney, Michael L.

Abstract

The rosy wolfsnail (Euglandina rosea) is a carnivorous, highly detrimental invader in many parts of the world. Although its negative impact on endemic island mollusk populations has been well documented, little is known about its range expansion in North America, where populations are not constrained by oceanic barriers. In this study, we present three compelling lines of evidence indicating significant ongoing and projected geographic range expansion of E. rosea: (1) We analyze the current range using data from iNaturalist; (2) we report on the demographics and persistence of an isolated extra-limital satellite population in Nashville, Tennessee, since its discovery in 2006; and (3) we employ a predictive ecological model that incorporates environmental variables indicating that the range expansion will continue into the central U.S. well beyond its present range. The findings of this study shed light on the underlying mechanisms behind the invasion of this species. First, the invasion is frequently associated with jump dispersal events, which are often linked to horticultural and landscaping activities. Second, the establishment and proliferation of satellite populations are facilitated by common landscape management practices, such as irrigation, as well as the urban heat island effect (UHI). Third, there is a possible synergistic interplay between the UHI effect and climate change that accelerates the range expansion via global warming. [ABSTRACT FROM AUTHOR]

Published

2024

32. Hypothesis Description: Enemy Release Hypothesis

Author

Tina Heger, Jonathan Jeschke, Maud Bernard-Verdier, Camille Musseau, and Daniel Mietchen

Subjects

formalized hypotheses, invasion biology, enemy pre, Science

Abstract

This paper provides a brief overview of a major hypothesis in invasion biology: the enemy release hypothesis. Building on a summary of different previous definitions, we provide the following revised definition: “A reduced pressure by enemies in the non-native range contributes to invasion success.” Further, we suggest formalizing the hypothesis in the basic form ‘subject - relationship - object’ to allow for disambiguating the different existing meanings and enhancing their usability by machines.

Published

2024

33. A biological invasion modifies the dynamics of a host–parasite arms race.

Author

Brown, Gregory P., Shine, Richard, and Rollins, Lee A.

Subjects

*BIOLOGICAL invasions, *ARMS race, *RHINELLA marina, *SPATIAL ability, *GENETIC variation, *INTRODUCED species

Abstract

By imposing novel selection pressures on both participants, biological invasions can modify evolutionary 'arms races' between hosts and parasites. A spatially replicated cross-infection experiment reveals strong spatial divergence in the ability of lungworms (Rhabdias pseudosphaerocephala) to infect invasive cane toads (Rhinella marina) in Australia. In areas colonized for longer than 20 years, toads are more resistant to infection by local strains of parasites than by allopatric strains. The situation reverses at the invasion front, where super-infective parasites have evolved. Invasion-induced shifts in genetic diversity and selective pressures may explain why hosts gain advantage over parasites in long-colonized areas, whereas parasites gain advantage at the invasion front. [ABSTRACT FROM AUTHOR]

Published

2024

34. The cumulative niche approach: A framework to assess the performance of ecological niche model projections.

Author

Arlé, Eduardo, Knight, Tiffany Marie, Jiménez‐Muñoz, Marina, Biancolini, Dino, Belmaker, Jonathan, and Meyer, Carsten

Subjects

*ECOLOGICAL models, *ECOLOGICAL niche, *SPECIES distribution, *ASYMPTOTES, *AMPHIBIANS

Abstract

Ecological Niche Models (ENMs) are often used to project species distributions within alien ranges and in future climatic scenarios. However, ENMs depend on species‐environment equilibrium, which may be absent for actively expanding species. We present a novel framework to estimate whether species have reached environmental equilibrium in their native and alien ranges. The method is based on the estimation of niche breadth with the accumulation of species occurrences. An asymptote will indicate exhaustive knowledge of the realised niches. We demonstrate the CNA framework for 26 species of mammals, amphibians, and birds. Possible outcomes of the framework include: (1) There is enough data to quantify the native and alien realised niches, allowing us to calculate niche expansion between the native and alien ranges, also indicating that ENMs can be reliably projected to new environmental conditions. (2) The data in the native range is not adequate but an asymptote is reached in the alien realised niche, indicating low confidence in our ability to evaluate niche expansion in the alien range but high confidence in model projections to new environmental conditions within the alien range. (3) There is enough data to quantify the native realised niche, but not enough knowledge about the alien realised niche, hindering the reliability of projections beyond sampled conditions. (4) Both the native and alien ranges do not reach an asymptote, and thus few robust conclusions about the species' niche or future projections can be made. Our framework can be used to detect species' environmental equilibrium in both the native and alien ranges, to quantify changes in the realised niche during the invasion processes, and to estimate the likely accuracy of model projections to new environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2024

35. Hypothesis Description: Enemy Release Hypothesis.

Author

Heger, Tina, Jeschke, Jonathan M., Bernard-Verdier, Maud, Musseau, Camille L., and Mietchen, Daniel

Subjects

STATISTICAL hypothesis testing, BIOLOGY, MACHINERY, LIFE sciences, BIOETHICS

Abstract

This paper provides a brief overview of a major hypothesis in invasion biology: the enemy release hypothesis. Building on a summary of different previous definitions, we provide the following revised definition: "A reduced pressure by enemies in the non-native range contributes to invasion success." Further, we suggest formalizing the hypothesis in the basic form 'subject - relationship - object' to allow for disambiguating the different existing meanings and enhancing their usability by machines. [ABSTRACT FROM AUTHOR]

Published

2024

36. The alien Chinese windmill palm (Trachycarpus fortunei) impacts forest vegetation and regeneration on the southern slope of the European Alps.

Author

Fehr, Vincent, Conedera, Marco, Fratte, Michele Dalle, Cerabolini, Bruno, Benedetti, Chiara, Buitenwerf, Robert, Svenning, Jens‐Christian, Maspoli, Guido, and Pezzatti, Gianni Boris

Subjects

*FOREST regeneration, *FOREST plants, *WOODY plants, *NATURE conservation, *PALMS, *FOREST management, *DECIDUOUS forests

Abstract

Questions: Does the non‐native evergreen Chinese windmill palm (Trachycarpus fortunei) affect native plant community and forest regeneration in deciduous forests? Are effects modulated by soil moisture? What are the implications for forest management and nature conservation? Location: Broadleaved deciduous low‐elevation forests on the southern slope of the Alps across the Swiss–Italian border region. Methods: We compared the native herbaceous and woody plant composition, species richness, Shannon diversity and abundance at ten deciduous forest sites on two moisture conditions (six mesic–moist sites and four mesic–dry sites). Each site consisted of three plots measuring 400 m2 along a gradient of T. fortunei presence, ranging from "dominant", to "present but not dominant" to "absent". Results: In mesic–moist forests with high densities of T. fortunei, species richness and Shannon diversity of native plants and recruiting woody species in the herb and shrub layers were significantly reduced compared to similar sites where T. fortunei is absent or not dominant. However, in mesic–dry forests these variables did not differ between palm‐invaded and uninvaded plots. The abundance of recruiting woody individuals did not differ between plots invaded by palms and uninvaded control plots in either forest type. Conclusions: We expect detrimental consequences for plant diversity in mesic–moist alluvial forests with high T. fortunei densities and few detrimental consequences in the more widespread non‐alluvial forests. We recommend multifaceted management, including targeted eradication in alluvial forests identified as hotspots of native plant diversity, accompanied by hands‐off management of T. fortunei in non‐alluvial forests, recognizing the ongoing and inevitable "laurophyllisation"; a biome shift toward mixed‐evergreen forest that may increase ecosystem climate resilience under ongoing climatic warming. [ABSTRACT FROM AUTHOR]

Published

2024

37. Seasonal growth rates of gooseneck barnacles (Lepas spp.): Proxies for floating time of rafts in marine ecosystems.

Author

Goehlich, Henry, Luna-Jorquera, Guillermo, Drapeau Picard, André-Philippe, Pantoja, José, Tala, Fadia, and Thiel, Martin

Subjects

*MARINE ecology, *BARNACLES, *CRUSTACEAN growth, PERU Current

Abstract

Gooseneck barnacles of the genus Lepas are sessile crustaceans settling and growing on free-floating substrata. They can be used as indicators for floating time of objects such as plastic, algae, airplane wrecks or human corpses. Precise estimates of floating time are only possible when accurate growth rates of Lepas are known. However, many factors modulate the growth of these crustaceans, making floating time estimates difficult. In this study, we measured growth rates of L. australis and L. anatifera in the Central Humboldt Current System over two consecutive summer and winter seasons. Growth patterns were best described by a logistic growth curve. Using the asymptotic value (maximum size) for each species and each season, we selected the linear phase of growth to fit simple predictive linear models to estimate floating time. Growth rates of L. anatifera were almost twice as high in the warmer summer months compared to the winter season suggesting that growth rates are strongly associated with temperature. Consequently, seasonal or regional growth rates are required to precisely estimate floating time of objects at sea. [ABSTRACT FROM AUTHOR]

Published

2024

38. DNA metabarcoding reveals diet composition of invasive rats and mice in Hawaiian forests.

Author

Gabrielson, Sara M. E., Mau, Rebecca L., Dittmar, Erika, Kelley, J. Patrick, Tarwater, Corey E., Drake, Donald R., Sperry, Jinelle H., and Foster, Jeffrey T.

Abstract

Rodents are among the most widespread and problematic invasive animals on islands worldwide contributing to declining endemic island biota through predation and disruption of mutualisms. Identifying what rodents eat is critically important to understanding their effects on ecosystems. We used DNA metabarcoding to identify the diets of three invasive rodents in Hawaiian forests: house mouse (Mus musculus), black rat (Rattus rattus), and Pacific rat (Rattus exulans). These rodents primarily eat invertebrates and plants, but previous diet studies have provided only a limited understanding of the diet breadth by relying on morphological identification methods. We opportunistically collected fecal samples from rodents trapped at seven forest sites across Oʻahu, Hawaiʻi for two years. Plant and invertebrate diet items were identified from DNA extracted from fecal samples using rbcL and COI primers, respectively. Intact seeds were identified using a dissecting microscope to quantify potential contributions to seed dispersal. All rodent species ate primarily plants and invertebrates of introduced species. However, some native taxa of conservation importance were identified. Neither the rodent species nor the sites drove patterns of diet composition, suggesting that diet variation may be determined by opportunistic foraging or intraspecific variation. Black rat fecal samples contained intact seeds more frequently than house mouse samples, but surprisingly, when samples contained seeds, black rats and house mice both defecated hundreds of introduced seeds, likely contributing to seed dispersal. Conservation efforts targeting invasive rodent control should specifically include house mice and should monitor introduced prey items to prevent predation release of unwanted introduced species. [ABSTRACT FROM AUTHOR]

Published

2024

39. Lizards on the borders: source and patterns of colonization of an opportunistic reptile, Podarcis siculus, on the remote island of Pantelleria (Italy) depicted by mtDNA phylogeography and dorsal pattern.

Author

Antinucci, Carlotta, Gallozzi, Francesco, Ancillotto, Leonardo, Mori, Emiliano, and Castiglia, Riccardo

Subjects

*COLONIZATION (Ecology), *PHYLOGEOGRAPHY, *LIZARDS, *CYTOCHROME b, *MITOCHONDRIAL DNA, *ISLANDS, *CHLOROPLAST DNA

Abstract

Understanding patterns and modalities of species' colonization in insular ecosystems is a major goal of biogeography and may be key to decision makers, in terms of e.g., management and conservation. In this paper, we assess source and patterns of colonization of an opportunistic reptile, Podarcis siculus, on the remote island of Pantelleria (Italy), following a multidisciplinary approach combining molecular phylogeography and dorsal pattern analyses. We analyzed the mitochondrial gene cytochrome b (cytb) from 13 lizards and we assessed the frequency of the dorsal pattern phenotypes observing 188 basking lizards from eight localities throughout the island. The parsimony network revealed that haplotypes from Pantelleria belong to a haplogroup characteristic of western Sicily with the most common haplotype from Pantelleria being also found in three Sicilian localities. Unlike other Italian island populations, the dorsal pattern is highly conserved on Pantelleria, as a high percent of the observed individuals show the pattern also found in the hypothesized source area in western Sicily. In conclusion, our results are compatible with an allochthonous origin of the P. siculus population of Pantelleria Island. Thus, the species would need no population monitoring programme for its conservation on the island. [ABSTRACT FROM AUTHOR]

Published

2023

40. From Invasive to Iconic: A New Cultural Typology of Introduced Species.

Author

Fordahl, Clayton

Subjects

*INTRODUCED species, *SOCIAL scientists, *ANIMAL societies

Abstract

Recent years have seen a shift in the social scientific study of introduced species. Social scientists have shown that popular interpretations vary beyond the critical, invasive frameworks and include more celebratory or welcoming responses. Yet this research has taken the form of case studies. This has limited comparative inquiry. In response, this article develops a typology of sociocultural responses to introduced species by nonspecialists. The article then discusses major forms of collective meaning-making that go into creating these different cultural types. [ABSTRACT FROM AUTHOR]

Published

2023

41. Winter residency and foraging of non‐native round goby populations in Great Lakes tributary streams.

Author

Glenn, K. R. and Pennuto, C. M.

Subjects

*GOBIIDAE, *PREY availability, *FORAGE fishes, *MIGRATORY animals, *LAKES, *WINTER, *RARE fishes

Abstract

Investigations of winter diets and foraging in fish are rare, and less so for migratory species in the temperate zone. In the Great Lakes, the round goby (Neogobius melanostomus) is known to out‐migrate from nearshore habitats to offshore depths in the winter months. However, in Great Lake tributaries, populations of this fish were found up to 25 km upstream during winter months. Distance upstream was a predictor of out‐migration behavior with populations farthest upstream remaining as winter residents, whereas populations nearest the lakes out‐migrated. Distance inland was also a predictor of fish total length, but not Fulton's condition index. Seasonal resources and local prey availability shaped the diets of these fish, but resource use remained unchanged over time since invasion. Total length and body condition also remained unchanged over time since the invasion. Plasticity in both diet and migration behavior seems to be beneficial traits for the inland invasion success of this fish. [ABSTRACT FROM AUTHOR]

Published

2023

42. Interspecific behavioural interference and range dynamics: current insights and future directions.

Author

Patterson, Christophe W. and Drury, Jonathan P.

Subjects

*FOOD chains, *SPECIES distribution, *PREDICTION theory, *COMPETITION (Biology), *EMPIRICAL research, *HABITATS

Abstract

Novel biotic interactions in shifting communities play a key role in determining the ability of species' ranges to track suitable habitat. To date, the impact of biotic interactions on range dynamics have predominantly been studied in the context of interactions between different trophic levels or, to a lesser extent, exploitative competition between species of the same trophic level. Yet, both theory and a growing number of empirical studies show that interspecific behavioural interference, such as interspecific territorial and mating interactions, can slow down range expansions, preclude coexistence, or drive local extinction, even in the absence of resource competition. We conducted a systematic review of the current empirical research into the consequences of interspecific behavioural interference on range dynamics. Our findings demonstrate there is abundant evidence that behavioural interference by one species can impact the spatial distribution of another. Furthermore, we identify several gaps where more empirical work is needed to test predictions from theory robustly. Finally, we outline several avenues for future research, providing suggestions for how interspecific behavioural interference could be incorporated into existing scientific frameworks for understanding how biotic interactions influence range expansions, such as species distribution models, to build a stronger understanding of the potential consequences of behavioural interference on the outcome of future range dynamics. [ABSTRACT FROM AUTHOR]

Published

2023

43. Phylogenetic analyses reveal multiple new stem-boring Tetramesa taxa (Hymenoptera: Eurytomidae): implications for the biological control of invasive African grasses.

Author

van Steenderen, Clarke J. M., Sutton, Guy F., Yell, Liam D., Canavan, Kim, McConnachie, Andrew J., Day, Michael D., and Paterson, Iain D.

Abstract

Many native South African grass species have become invasive elsewhere in the world. The application of biological control to invasive grasses has been approached with trepidation in the past, primarily due to concerns of a perceived lack of host specific herbivores. This has changed in recent times, and grasses are now considered suitable candidates. The Tetramesa Walker genus (Hymenoptera: Eurytomidae) has been found to contain species that are largely host specific to a particular grass species, or complex of closely related congeners. Very little taxonomic work exists for Tetramesa in the southern hemisphere, and the lack of morphological variability between many Tetramesa species has made identification difficult. This limits the ability to assess the genus for potential biological control agents. Species delimitation analyses indicated 16 putative novel southern African Tetramesa taxa. Ten of these were putative Tetramesa associated with Eragrostis curvula (Schrad.) Nees and Sporobolus pyramidalis Beauv. and S. natalensis Steud., which are alien invasive weeds in Australia. Of these ten Tetramesa taxa, eight were only found on a single host plant, while two taxa were associated with multiple species in a single grass genus. The Tetramesa spp. on S. pyramidalis and S. africanus were deemed suitably host-specific to be used as biological control agents. Field host range data for the Tetramesa species on E. curvula revealed that the wasp may not be suitably host specific for use as a biological control agent. However, further host specificity testing on non-target native Australian species is required. [ABSTRACT FROM AUTHOR]

Published

2023

44. Citizen scientists significantly improve our knowledge on the non-native longhorn beetle Chlorophorus annularis (Fabricius, 1787) (Coleoptera, Cerambycidae) in Europe

Author

Seidel, Matthias, Lüttke, Maren, Cocquempot, Christian, Potts, Katy, Heeney, Wil J., Husemann, Martin, and Pensoft Publishers

Subjects

Bamboo, Cerambycidae, Coleoptera, Hamburg, Insect, Invasion biology, neozoa, pest organism

Published

2021

45. Global patterns of genomic and phenotypic variation in the invasive harlequin ladybird

Author

Hongran Li, Yan Peng, Yansong Wang, Bryce Summerhays, Xiaohan Shu, Yumary Vasquez, Hannah Vansant, Christy Grenier, Nicolette Gonzalez, Khyati Kansagra, Ryan Cartmill, Edison Ryoiti Sujii, Ling Meng, Xuguo Zhou, Gábor L. Lövei, John J. Obrycki, Arun Sethuraman, and Baoping Li

Subjects

Invasion biology, mtCOI, Evolutionary history, Adaptation, Life history, Population genomics, Biology (General), QH301-705.5

Abstract

Abstract Background The harlequin ladybird Harmonia axyridis (Coleoptera: Coccinellidae), native to Asia, has been introduced to other major continents where it has caused serious negative impacts on local biodiversity. Though notable advances to understand its invasion success have been made during the past decade, especially with then newer molecular tools, the conclusions reached remain to be confirmed with more advanced genomic analyses and especially using more samples from larger geographical regions across the native range. Furthermore, although H. axyridis is one of the best studied invasive insect species with respect to life history traits (often comparing invasive and native populations), the traits responsible for its colonization success in non-native areas warrant more research. Results Our analyses of genome-wide nuclear population structure indicated that an eastern Chinese population could be the source of all non-native populations and revealed several putatively adaptive candidate genomic loci involved in body color variation, visual perception, and hemolymph synthesis. Our estimates of evolutionary history indicate (1) asymmetric migration with varying population sizes across its native and non-native range, (2) a recent admixture between eastern Chinese and American populations in Europe, (3) signatures of a large progressive, historical bottleneck in the common ancestors of both populations and smaller effective sizes of the non-native population, and (4) the southwest origin and subsequent dispersal routes within its native range in China. In addition, we found that while two mitochondrial haplotypes-Hap1 and Hap2 were dominant in the native range, Hap1 was the only dominant haplotype in the non-native range. Our laboratory observations in both China and USA found statistical yet slight differences between Hap1 and Hap2 in some of life history traits. Conclusions Our study on H. axyridis provides new insights into its invasion processes into other major continents from its native Asian range, reconstructs a geographic range evolution across its native region China, and tentatively suggests that its invasiveness may differ between mitochondrial haplotypes.

Published

2023

46. Patterns of Non-Native Species Introduction, Spread, and Ecological Impact in South Florida, the World's Most Invaded Continental Ecoregion.

Author

Searcy, Christopher A., Howell, Hunter J., David, Aaron S., Rumelt, Reid B., and Clements, Stephanie L.

Abstract

Invasive species are a chief threat to native biodiversity and are only becoming more common with human globalization. This creates a need to understand the patterns in invasion biology, including where invasions are most likely to occur, which species are most likely to establish and spread, and what are likely to be the most influential ecological consequences. We examine these questions through the lens of South Florida, the continental region with the most invasive species across the globe. First, understanding why South Florida has so many invasives and how they are distributed across South Florida helps us to understand where we can expect similar levels of invasion to occur. Second, understanding which species are most likely to establish, spread, and have the greatest ecological impact informs which invasions we should be most concerned about. Finally, the history of control efforts and their relative success can help guide future management practices. [ABSTRACT FROM AUTHOR]

Published

2023

47. Generalist Predators Shape Biotic Resistance along a Tropical Island Chain.

Author

Wyckhuys, Kris A. G., Leatemia, Johanna Audrey, Fanani, Muhammad Zainal, Furlong, Michael J., Gu, Baogen, Hadi, Buyung Asmara Ratna, Hasinu, Jeffij Virgowat, Melo, Maria C., Noya, Saartje Helena, Rauf, Aunu, Taribuka, Johanna, and Gc, Yubak Dhoj

Subjects

FALL armyworm, MEALYBUGS, PREDATORY animals, INTRODUCED species, PLANT canopies, ENVIRONMENTAL degradation, BIOLOGICAL extinction, ISLANDS, ARCHIPELAGOES

Abstract

Islands offer exclusive prisms for an experimental investigation of biodiversity x ecosystem function interplay. Given that species in upper trophic layers, e.g., arthropod predators, experience a comparative disadvantage on small, isolated islands, such settings can help to clarify how predation features within biotic resistance equations. Here, we use observational and manipulative studies on a chain of nine Indonesian islands to quantify predator-mediated biotic resistance against the cassava mealybug Phenacoccus manihoti (Homoptera: Pseudococcidae) and the fall armyworm Spodoptera frugiperda (Lepidoptera: Noctuidae). Across island settings, a diverse set of generalist lacewing, spider and ladybeetle predators aggregates on P. manihoti infested plants, attaining max. (field-level) abundance levels of 1.0, 8.0 and 3.2 individuals per plant, respectively. Though biotic resistance—as imperfectly defined by a predator/prey ratio index—exhibits no inter-island differences, P. manihoti population regulation is primarily provided through an introduced monophagous parasitoid. Meanwhile, resident predators, such as soil-dwelling ants, inflict apparent mortality rates up to 100% for various S. frugiperda life stages, which translates into a 13- to 800-fold lower S. frugiperda survivorship on small versus large islands. While biotic resistance against S. frugiperda is ubiquitous along the island chain, its magnitude differs between island contexts, seasons and ecological realms, i.e., plant canopy vs. soil surface. Hence, under our experimental context, generalist predators determine biotic resistance and exert important levels of mortality even in biodiversity-poor settings. Given the rapid pace of biodiversity loss and alien species accumulation globally, their active conservation in farmland settings (e.g., through pesticide phasedown) is pivotal to ensuring the overall resilience of production ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

48. The Patterns of Intraspecific Variations in Mass of Nectar Sugar along a Phylogeny Distinguish Native from Non-Native Plants in Urban Greenspaces in Southern England.

Author

Yessoufou, Kowiyou

Subjects

NECTAR, SUGAR, POLLINATORS, POLLINATION, INTRODUCED species, PHYLOGENY, NATIVE plants

Abstract

To serve human needs, non-native species are selected based on an array of functional traits, which generally confer competitive advantages to these species in their recipient environments. Identifying non-obvious functional traits that indirectly inform human selection of non-natives to introduce into urban greenspaces is not yet part of common discussions in invasion biology. We tested whether functional traits integrated within a phylogenetic framework, may reveal those subtle criteria underlying the introduction of non-native plants into urban greenspaces. We found no differences in terms of functional traits between natives and non-natives. We also found no evidence that functional traits predict nectar production, irrespective of how nectar production was measured. Finally, we found that the mean sugar concentration of nectar per flower is evolutionarily shared both within closely related non-native plants as well as within close native plants. However, phylogenetically close species share similar intraspecific variation in mass of nectar sugar per flower, but this is true only for non-native plants, thus revealing a non-obvious selection criteria of non-native plants for urban greenspaces. Our results indicate that the phylogenetic patterns of intraspecific variation in mass of nectar sugar per flower is the major criterion distinguishing non-natives from native plants in urban greenspaces in Southern England. [ABSTRACT FROM AUTHOR]

Published

2023

49. Hidden cargo: The impact of historical shipping trade on the recent‐past and contemporary non‐native flora of northeastern United States.

Author

Schmidt, Ryan J., King, Megan R., Aronson, Myla F. J., and Struwe, Lena

Subjects

*BOTANY, *BOTANICAL specimens, *FREIGHT & freightage, *PLANT species, *BALLAST water, *NINETEENTH century

Abstract

Premise: Understanding establishment and spread of non‐native plants is important in the face of a homogenizing global flora. While many studies focus on successful, invasive species, fewer have studied failed plant introductions. Until the early 1900s, large quantities of ship ballast, often containing foreign plant propagules, were deposited in New Jersey (USA). The resulting ballast flora is documented in extensive herbarium records, providing us a unique opportunity to analyze successes and failures of novel plant species introductions. Methods: We used digitized specimens from 75 herbaria to study 264 non‐native species introduced into New Jersey through 19th century ballast deposition. We used spatial (density‐based clustering; HDBSCAN) and temporal analyses of species retention and geographic spread to quantify disappearance rate, survival, and dispersion through time and define trajectory groups. Results: Four distinct trajectory groups were identified: waif (only present during import; 32% of species), short‐term (disappeared quickly; 20%), established–limited spread (survives locally, 30%), and established–widespread (widespread, 18%). Species disappearance rate was highest during ballast deposition and decreased soon after deposition stopped around 1900. Spatial patterns showed a strong association with 19th century railroads for inland dispersal from ports. The disappearance rate and spatial analyses are robust to herbarium collection bias. Conclusions: This study using New Jersey as a model is one of the few documenting multispecies successes and failures in inadvertent plant introductions. Results reveal distinct trends in species establishment and geographic spread and highlight the utility of herbarium specimens in answering questions that span large time scales. [ABSTRACT FROM AUTHOR]

Published

2023

50. Ecological and Evolutionary Drivers of Local and Regional Spread in Dittrichia Graveolens, an Invasive Annual Plant

Author

Melen, Miranda Kathleen

Subjects

Ecology, Conservation biology, Evolution & development, Asteraceae, Dittrichia graveolens, Ecology, Evolution, Invasion biology, Stinkwort

Abstract

Invasive plants significantly threaten ecosystems, especially when they expand away from anthropogenic environments into natural habitats. This dissertation investigates the ecological and evolutionary drivers of invasion in Dittrichia graveolens (stinkwort), a recent California invader primarily associated with roadsides but showing signs of spread into adjacent vegetated areas. Chapter 1 examines whether adaptive differentiation facilitates this shift. We found no evidence that D. graveolens populations have evolved traits favoring performance in grassland habitats, suggesting that roadside populations are not yet adapted to compete in established vegetation. Chapter 2 reveals that the roadside association of D. graveolens is likely due to its poor competitive ability. Resident grassland species severely limited D. graveolens growth in both greenhouse and field experiments. This highlights the interacting roles of competition and disturbance in driving invasion patterns in this species. Chapter 3 explores the dormancy and germination traits of D. graveolens, seeking evidence for the evolution of reduced dormancy in edge populations. Contrary to prediction, seed bank behavior was similar between core and edge populations. Most seeds germinated in the first year immediately after the first rain, but burial strongly affected germination. Together, these chapters deepen our understanding of the constraints and drivers of D. graveolens invasion. Effective management practices should prioritize limiting soil disturbance, promoting competition to restrict D. graveolens spread, and strategically manipulating seed burial in conjunction with control efforts.

Published

2024