Your search keyword '"Range-expansion"' showing total 14 results

1. Invasion and spread of the neotropical leafhopper Curtara insularis (Hemiptera, Cicadellidae) in Africa and North America and the role of high-altitude windborne migration in invasive insects.

Author

Nartey, Rita, Chamorro, Lourdes, Buffington, Matt, Afrane, Yaw A., Mohammed, Abdul Rahim, Owusu-Asenso, Christopher M., Akosah-Brempong, Gabriel, Pambit-Zong, Cosmos M., Hendrix, Solomon V., Dao, Adama, Yaro, Alpha S., Diallo, Moussa, Sanogo, Zana L., Djibril, Samake, Halbert, Susan E., Bamou, Roland, Nance, Catherine E., Bartlett, Charles R., Reynolds, Don R., and Chapman, Jason W.

Subjects

*INTRODUCED insects, *HARBORS, *INTRODUCED species, *INSECT collection & preservation, *LEAFHOPPERS

Abstract

Invasive insects threaten ecosystem stability, public health, and food security. Documenting newly invasive species and understanding how they reach into new territories, establish populations, and interact with other species remain vitally important. Here, we report on the invasion of the South American leafhopper, Curtara insularis into Africa, where it has established populations in Ghana, encroaching inland at least 350 km off the coast. Importantly, 80% of the specimens collected were intercepted between 160 and 190 m above ground. Further, the fraction of this species among all insects collected was also higher at altitude, demonstrating its propensity to engage in high-altitude windborne dispersal. Its aerial densities at altitude translate into millions of migrants/km over a year, representing massive propagule pressure. Given the predominant south-westerly winds, these sightings suggest an introduction of C. insularis into at least one of the Gulf of Guinea ports. To assess the contribution of windborne dispersal to its spread in a new territory, we examine records of C. insularis range-expansion in the USA. Reported first in 2004 from central Florida, it reached north Florida (Panhandle) by 2008–2011 and subsequently spread across the southeastern and south-central US. Its expansion fits a "diffusion-like" process with 200—300 km long "annual displacement steps"—a pattern consistent with autonomous dispersal rather than vehicular transport. Most "steps" are consistent with common wind trajectories from the nearest documented population, assuming 2—8 hours of wind-assisted flight at altitude. Curtara insularis has been intercepted at US ports and on trucks. Thus, it uses multiple dispersal modalities, yet its rapid overland spread is better explained by its massive propagule pressure linked with its high-altitude windborne dispersal. We propose that high-altitude windborne dispersal is common yet under-appreciated in invasive insect species. [ABSTRACT FROM AUTHOR]

Published

2024

2. Host–enemy interactions provide limited biotic resistance for a range‐expanding species via reduced apparent competition.

Author

Prior, Kirsten M., Jones, Dylan G., Meadley‐Dunphy, Shannon A., Lee, Susan, Milks, Alyson K., Daughton, Sage, Forbes, Andrew A., and Powell, Thomas H. Q.

Subjects

*GALL wasps, *SPECIES, *INSECT communities, *GALL midges, *PHENOLOGY, *COMPETITION (Biology)

Abstract

Aim: As species' ranges shift poleward in response to anthropogenic change, they may lose antagonistic interactions if they move into less diverse communities, fail to interact with novel populations or species effectively, or if ancestral interacting populations or species fail to shift synchronously. We leveraged a poleward range expansion in a tractable insect host–enemy community to uncover mechanisms by which altered antagonistic interactions between native and recipient communities contributed to 'high niche opportunities' (limited biotic resistance) for a range‐expanding insect. Location: North America, Pacific Northwest. Methods: We created quantitative insect host–enemy interaction networks by sampling oak gall wasps on 400 trees of a dominant oak species in the native and expanded range of a range‐expanding gall wasp species. We compared host–enemy network structure between regions. We measured traits (phenology, morphology) of galls and interacting parasitoids, predicting greater trait divergence in the expanded range. We measured function relating to host control and explored if altered interactions and traits contributed to reduced function, or biotic resistance. Results: Interaction networks had fewer species in the expanded range and lower complementarity of parasitoid assemblages among host species. While networks were more generalized, interactions with the range‐expanding species were more specialized in the expanded range. Specialist enemies effectively tracked the range‐expanding host, and there was reduced apparent competition with co‐occurring hosts by shared generalist enemies. Phenological divergence of enemy assemblages interacting with the range‐expanding and co‐occurring hosts was greater in the expanded range, potentially contributing to weak apparent competition. Biotic resistance was lower in the expanded range, where fewer parasitoids emerged from galls of the range‐expanding host. Main Conclusions: Changes in interactions with generalist enemies created high niche opportunities, and limited biotic resistance, suggesting weak apparent competition may be a mechanism of enemy release for range‐expanding insects embedded within generalist enemy networks. [ABSTRACT FROM AUTHOR]

Published

2023

3. Soil legacy effects of plants and drought on aboveground insects in native and range‐expanding plant communities.

Author

Li, Keli, Veen, G. F., ten Hooven, Freddy C., Harvey, Jeffrey A., and van der Putten, Wim H.

Subjects

*PLANT communities, *NATIVE plants, *PLANT biomass, *DROUGHTS, *GROWING season, *INSECTS, *SOILS

Abstract

Soils contain biotic and abiotic legacies of previous conditions that may influence plant community biomass and associated aboveground biodiversity. However, little is known about the relative strengths and interactions of the various belowground legacies on aboveground plant–insect interactions. We used an outdoor mesocosm experiment to investigate the belowground legacy effects of range‐expanding versus native plants, extreme drought and their interactions on plants, aphids and pollinators. We show that plant biomass was influenced more strongly by the previous plant community than by the previous summer drought. Plant communities consisted of four congeneric pairs of natives and range expanders, and their responses were not unanimous. Legacy effects affected the abundance of aphids more strongly than pollinators. We conclude that legacies can be contained as soil 'memories' that influence aboveground plant community interactions in the next growing season. These soil‐borne 'memories' can be altered by climate warming‐induced plant range shifts and extreme drought. [ABSTRACT FROM AUTHOR]

Published

2023

4. Far from home....the first documented capture of the genus Elops (Actinopterygii, Elopidae) from the Mediterranean.

Author

Deidun, Alan and Zava, Bruno

Subjects

ACTINOPTERYGII, FISHERS, HANDBAGS, PHOTOGRAPHS, FISHES

Abstract

The tenpounder fish genus Elops Linnaeus, 1766 was recorded for the first time from the Mediterranean in October 2019, as a single individual was caught in Maltese waters. The genus has a disparate global distribution consisting of west Atlantic and west Pacific tropical and sub-tropical areas. A single individual was caught, but not retained, during artificial lighting-assisted purse seining, and the identification of the genus was determined based upon photographs submitted by the fisherman. The mechanisms of range expansion of the genus from the Atlantic into the Mediterranean are discussed. [ABSTRACT FROM AUTHOR]

Published

2020

5. How and where do disturbances promote the establishment of nonnative mycorrhizal plants at high elevations?

Author

Bueno, C. Guillermo, Hiiesalu, Inga, and Koorem, Kadri

Subjects

*INTRODUCED plants, *MYCORRHIZAL plants, *ALTITUDES, *MOUNTAIN plants, *PLANT dispersal

Abstract

This article is a Commentary on Clavel et al. (2021), 230: 1156–1168. [ABSTRACT FROM AUTHOR]

Published

2021

6. The impact of climate change on disease in wild plant populations and communities

Author

Michael J. Jeger

Subjects

DYNAMICS, LIFE-HISTORY, GRASSLAND, SOIL FEEDBACK, CROP PESTS, interconnected landscapes, Plant Biology & Botany, Biome, 0607 Plant Biology, 0703 Crop and Pasture Production, Climate change, plant-soil-microbe interactions, Plant Science, Disease, Horticulture, Biology, Invasive species, biomes, Genetics, invasive plants, GLOBAL CHANGE, wild plant communities, PATHOGENS, Science & Technology, Ecology, fungi, Plant Sciences, food and beverages, forested areas, Agriculture, RANGE-EXPANSION, Agronomy, PERONOSPORA-AQUILEGIICOLA, PHYTOPHTHORA-CINNAMOMI, Life Sciences & Biomedicine, Agronomy and Crop Science, 0605 Microbiology

Abstract

Disease in wild plant populations has received less attention from plant pathologists than diseases of managed plants in agriculture, horticulture, and plantation forestry. Plant ecologists, however, have contributed much to an understanding of how pathogens, other plant–microbe interactions, and arthropods affect population structure and community assemblages of wild plants. Consequentially, this lack of attention has meant that the potential impacts of climate change on disease in wild plant populations are less appreciated than on major food crops, where modelling of such impacts is now well established. However, plant ecologists and soil microbiologists have long studied long-term climatic effects through a combination of observational studies and manipulative field experiments. Here, strategies are discussed to bring together these different perspectives into an integrated approach to address the future impacts of climate change on plant, environmental, and ecosystem health. The approach taken will be first to note the temporal and spatial scales that can be considered, ranging from microhabitats to whole biomes, review what is known about climate change impacts on natural vegetation, referring briefly to climate change impacts on crop diseases, and then what is known about impacts in wild populations at both the individual species and also the ecosystem level. The more general area of plant–soil–microbe–pathogen interactions is covered as one of the more important areas where climate change may have much impact on plant health through indirect rather than direct effects. The special cases of introduced invasive plants and the connectedness of agricultural systems with the wider landscape are discussed.

Published

2021

7. Soil legacy effects of plants and drought on aboveground insects in native and range-expanding plant communities

Author

Keli Li, G. F. (Ciska) Veen, Freddy C. ten Hooven, Jeffrey A. Harvey, Wim H. van der Putten, Terrestrial Ecology (TE), and Ecology & Evolution

Subjects

soil legacy effect, drought, PE&RC, herbivores, range-expansion, plant–soil feedback, climate change, aboveground–belowground interactions, SDG 13 - Climate Action, pollinators, Laboratory of Nematology, Laboratorium voor Nematologie, Ecology, Evolution, Behavior and Systematics

Abstract

Soils contain biotic and abiotic legacies of previous conditions that may influence plant community biomass and associated aboveground biodiversity. However, little is known about the relative strengths and interactions of the various belowground legacies on aboveground plant–insect interactions. We used an outdoor mesocosm experiment to investigate the belowground legacy effects of range-expanding versus native plants, extreme drought and their interactions on plants, aphids and pollinators. We show that plant biomass was influenced more strongly by the previous plant community than by the previous summer drought. Plant communities consisted of four congeneric pairs of natives and range expanders, and their responses were not unanimous. Legacy effects affected the abundance of aphids more strongly than pollinators. We conclude that legacies can be contained as soil ‘memories’ that influence aboveground plant community interactions in the next growing season. These soil-borne ‘memories’ can be altered by climate warming-induced plant range shifts and extreme drought.

Published

2022

8. Soil predator loss alters aboveground stoichiometry in a native but not in a related range-expanding plant when exposed to periodic heat waves

Author

Quist, Casper W., van der Putten, Wim H., Thakur, Madhav P., Quist, Casper W., van der Putten, Wim H., and Thakur, Madhav P.

Abstract

Increasing frequency and magnitude of climatic extremes, such as heat waves are expected to enhance abiotic stresses on ecological communities. It has been proposed that ecological communities in disturbed habitats may be most sensitive to climatic extremes, as disturbance may reduce density and diversity of higher trophic level organisms like predators. However, there is little experimental evidence that climatic extremes indeed have stronger impact on functioning of such trophically downgraded ecosystems. Here, we experimentally examine how removal of predators from soil communities affects plant performance under periodic heat waves. We used a native plant species, and a congeneric native that is currently expanding its range because of climate change. We used soil nematode communities as the model system, as these are most abundant soil animals and their communities are trophically diverse. Predatory nematodes were manually removed from intact soil nematode communities (mainly the adults as some juveniles are impossible to manually remove) to create a trophically downgraded soil. Intact nematode communities and communities with reduced predatory nematodes were added separately to soils that were planted with either the native Centaurea jacea or the range-expanding congener Centaurea stoebe. Half the experimental units were exposed periodically to experimental heat waves of 10 °C above the control temperature. Our results show that the C: N and C: N: P ratio of plant shoots in predator-reduced soils became lower when exposed to periodic heat waves, however, only in the native plant C. jacea. The decrease in C: N ratio corresponded with increase of an herbivorous nematode in trophically intact soils of C. jacea independent of warming, whereas this relationships disappeared in warmed and predator-reduced soils. Our results accordingly highlight that periodic heat waves may affect stoichiometry of certain plant species by altering trophic interactions in predator-re

Published

2020

9. Response of native parasitoids to a range-expanding host.

Author

CHRIS GRÖBLER, B. and LEWIS, OWEN T.

Subjects

*PARASITISM, *PARASITOLOGY, *PARASITOIDS, *PREDATION, *PARASITES, *HOST plants, *PLANT parasites

Abstract

1. As species shift their geographic distributions, new feeding interactions with natural enemies such as parasitoids, and resources such as host plants, may be established, and existing interactions may be severed. 2. The leaf mining moth Phyllonorycter leucographella (Zeller, 1850) (Lep.: Gracillariidae) first colonised the southern United Kingdom in the mid 1980s associated with its ancestral host plant Pyracantha coccinea M. Roem. (Rosaceae), which is widely cultivated in the U.K. The moth has since spread northwards to central Scotland and has been recorded feeding on a novel host plant, Crataegus monogyna L. 3. The combined effects of latitude and time since colonisation on parasitoid community responses to the arrival of this novel host were investigated across its U.K. range. The response of parasitoids to colonisation of C. monogyna was also investigated. 4. Both the observed richness of parasitoid species associated with P. leucographella, and the proportion of P. leucographella parasitised declined with latitude and towards the current range margin. A combination of a latitudinal gradient in parasitoid and alternative host species richness is likely to lead to the trends in species richness and parasitism observed. 5. Experimental host patches exposed to parasitism beyond the current range margin of P. leucographella experienced low levels of parasitism consistent with range-margin populations, indicating an instantaneous response by native parasitoids to availability of the novel host. Parasitism levels and numbers of associated species in the U.K. were similar to those observed in the species’ native range in Turkey. 6. The host plant switch to C. monogyna was not associated with an altered parasitoid assemblage, but rates of parasitism were significantly higher on the novel host plant. 7. Alterations in the incidence and frequency of victim-enemy interactions as species shift their geographic ranges may be key in determining rates of range expansion and the impact invading species have on ecological communities. [ABSTRACT FROM AUTHOR]

Published

2008

10. Soil predator loss alters aboveground stoichiometry in a native but not in a related range-expanding plant when exposed to periodic heat waves

Author

Casper W. Quist, Wim H. van der Putten, Madhav P. Thakur, and Terrestrial Ecology (TE)

Subjects

P ratio, Soil Science, Microbiology, NIOO, Centaurea jacea, Ecosystem, Range-expansion, Laboratorium voor Nematologie, Plan_S-Compliant_TA, Trophic level, Abiotic component, Herbivore, Plant-soil interactions, biology, Ecology, Soil nematodes, 04 agricultural and veterinary sciences, Native plant, PE&RC, biology.organism_classification, Trophic downgrading, Biosystematiek, Climate extremes, Soil water, 040103 agronomy & agriculture, 570 Life sciences, Biosystematics, 0401 agriculture, forestry, and fisheries, Laboratory of Nematology, Centaurea stoebe

Abstract

Increasing frequency and magnitude of climatic extremes, such as heat waves are expected to enhance abiotic stresses on ecological communities. It has been proposed that ecological communities in disturbed habitats may be most sensitive to climatic extremes, as disturbance may reduce density and diversity of higher trophic level organisms like predators. However, there is little experimental evidence that climatic extremes indeed have stronger impact on functioning of such trophically downgraded ecosystems. Here, we experimentally examine how removal of predators from soil communities affects plant performance under periodic heat waves. We used a native plant species, and a congeneric native that is currently expanding its range because of climate change. We used soil nematode communities as the model system, as these are most abundant soil animals and their communities are trophically diverse. Predatory nematodes were manually removed from intact soil nematode communities (mainly the adults as some juveniles are impossible to manually remove) to create a trophically downgraded soil. Intact nematode communities and communities with reduced predatory nematodes were added separately to soils that were planted with either the native Centaurea jacea or the range-expanding congener Centaurea stoebe. Half the experimental units were exposed periodically to experimental heat waves of 10 °C above the control temperature. Our results show that the C: N and C: N: P ratio of plant shoots in predator-reduced soils became lower when exposed to periodic heat waves, however, only in the native plant C. jacea. The decrease in C: N ratio corresponded with increase of an herbivorous nematode in trophically intact soils of C. jacea independent of warming, whereas this relationships disappeared in warmed and predator-reduced soils. Our results accordingly highlight that periodic heat waves may affect stoichiometry of certain plant species by altering trophic interactions in predator-reduced soils.

Published

2020

11. Modelling the Distribution of Forest-Dependent Species in Human-Dominated Landscapes: Patterns for the Pine Marten in Intensively Cultivated Lowlands

Author

Stefano Costa, Alessandro Balestrieri, Aritz Ruiz-González, Nicola Saino, Giuseppe Bogliani, Giovanni Boano, and Pietro Milanesi

Subjects

0106 biological sciences, Species distribution, Invasive Species, Marine and Aquatic Sciences, lcsh:Medicine, habitat selection, Plant Science, Forests, 01 natural sciences, California, Trees, Geographical Locations, Mathematical and Statistical Techniques, lcsh:Science, Marten, Multidisciplinary, geography.geographical_feature_category, predict, Ecology, biology, Plant Anatomy, Agriculture, Plants, Wood, Terrestrial Environments, range-expansion, Europe, Italy, Habitat, Physical Sciences, climate-change, Statistics (Mathematics), Research Article, Freshwater Environments, Woody plant, Computer and Information Sciences, Conservation of Natural Resources, carnivores, Floodplain, riparian, shifts, Mustelidae, Research and Analysis Methods, 010603 evolutionary biology, Ecosystems, Species Colonization, Rivers, Artificial Intelligence, invasions, biology.animal, evolution, Animals, Humans, Ecosystem, Statistical Methods, Artificial Neural Networks, Riparian zone, Computational Neuroscience, geography, Models, Statistical, 010604 marine biology & hydrobiology, Ecology and Environmental Sciences, lcsh:R, Organisms, Biology and Life Sciences, Computational Biology, Aquatic Environments, Bodies of Water, Pinus, biology.organism_classification, People and Places, Earth Sciences, Cognitive Science, lcsh:Q, Pines, Mathematics, Neuroscience, Forecasting

Abstract

In recent years, the "forest-specialist" pine marten Martes martes has been reported to also occur also in largely fragmented, lowland landscapes of north-western Italy. The colonization of such an apparently unsuitable area provided the opportunity for investigating pine marten ecological requirements and predicting its potential south-and eastwards expansion. We collected available pine marten occurrence data in the flood plain of the River Po (N Italy) and relate them to 11 environmental variables by developing nine Species Distribution Models. To account for inter-model variability we used average ensemble predictions (EP). EP predicted a total of 482 suitable patches (8.31% of the total study area) for the pine marten. The main factors driving pine marten occurrence in the western River Po plain were the distance from watercourses and the distance from woods. EP suggested that the pine marten may further expand in the western lowland, whilst the negligible residual wood cover of large areas in the central and eastern plain makes the habitat unsuitable for the pine marten, except for some riparian corridors and the pine wood patches bordering the Adriatic coast. Based on our results, conservation strategies should seek to preserve remnant forest patches and enhance the functional connectivity provided by riparian corridors. A. Balestrieri was supported by a Ph.D. fellowship awarded by the Dept. of Biosciences of the University of Milan. P. Milanesi was supported by the Dept. of Earth and Environmental Sciences, University of Pavia. This study has been partially funded by the Basque Government through the Research group on 'Systematics, Biogeography and Population Dynamics' (Ref. IT317-10; GIC10/76; IT575/13), the SAIOTEK research programme (Ref: S-PE11UN028). A. Ruiz-Gonzalez (Ref. DKR-2012-64) was supported by a Ph.D. and Post-doctoral fellowships awarded by the Dept. of Education, Universities and Research of the Basque Government.

Published

2016

12. Modelling the Distribution of Forest-Dependent Species in Human-Dominated Landscapes: Patterns for the Pine Marten in Intensively Cultivated Lowlands

Author

Zoología y biología celular animal, Zoologia eta animalia zelulen biologia, Balestrieri, Alessandro, Bogliani, Giuseppe, Boano, Giovanni, Ruiz González, Aritz, Saino, Nicola, Costa, Stefano, Milanesi, Pietro, Zoología y biología celular animal, Zoologia eta animalia zelulen biologia, Balestrieri, Alessandro, Bogliani, Giuseppe, Boano, Giovanni, Ruiz González, Aritz, Saino, Nicola, Costa, Stefano, and Milanesi, Pietro

Abstract

In recent years, the "forest-specialist" pine marten Martes martes has been reported to also occur also in largely fragmented, lowland landscapes of north-western Italy. The colonization of such an apparently unsuitable area provided the opportunity for investigating pine marten ecological requirements and predicting its potential south-and eastwards expansion. We collected available pine marten occurrence data in the flood plain of the River Po (N Italy) and relate them to 11 environmental variables by developing nine Species Distribution Models. To account for inter-model variability we used average ensemble predictions (EP). EP predicted a total of 482 suitable patches (8.31% of the total study area) for the pine marten. The main factors driving pine marten occurrence in the western River Po plain were the distance from watercourses and the distance from woods. EP suggested that the pine marten may further expand in the western lowland, whilst the negligible residual wood cover of large areas in the central and eastern plain makes the habitat unsuitable for the pine marten, except for some riparian corridors and the pine wood patches bordering the Adriatic coast. Based on our results, conservation strategies should seek to preserve remnant forest patches and enhance the functional connectivity provided by riparian corridors.

Published

2016

13. Gradual Adaptation Toward a Range-Expansion Phenotype Initiated the Global Radiation of Toads

Author

Ines Van Bocxlaer, Simon P. Loader, S. D. Biju, Kim Roelants, Franky Bossuyt, Michele Menegon, Biology, Amphibian Evolution Lab, and Ecology and Systematics

Subjects

0106 biological sciences, Asia, Genetic Speciation, Range (biology), Molecular Sequence Data, Population Dynamics, Adaptation, Biological, 010607 zoology, 010603 evolutionary biology, 01 natural sciences, Cane toad, Amphibians, Species Specificity, Adaptive radiation, Genetic algorithm, Animals, Colonization, Adaptation, Phylogeny, Likelihood Functions, Multidisciplinary, Geography, biology, Ecology, Reproduction, Australia, Range-Expansion, Bayes Theorem, South America, biology.organism_classification, Biological Evolution, Phenotype, Bufonidae, Taxon, Africa, Toad

Abstract

Evolutionary Hops In order for animals to colonize new environments and disperse, specific traits may be required. Toads form a large and ecologically diverse group and have achieved extremely wide distribution in a very short time frame. To test what traits may be associated with species range in modern toads, Van Bocxlaer et al. (p. 679 ; see the news story by Pennisi ) phylogenetically reconstructed the evolutionary history of morphological and physiological traits linked to the toads' geographic ranges. Toads have evolved an optimal dispersal phenotype comprising many traits, including those affecting reproductive choices and water retention, which preceded their expansion and radiation.

Published

2010

14. A Single Range-Expanding Species Reshapes Alpine Ecosystems and Their Belowground Diversity

Subjects

novel-ecosystems, Range-expansion, species-invasion, community-assembly, biodiversity