Ecological Archives E096-231-A1
Qinfeng Guo, Songlin Fei, Jeffrey S. Dukes, Christopher M. Oswalt, Basil V. Iannone Iii, and Kevin M. Potter. 2015. A unified approach for quantifying invasibility and degree of invasion. Ecology 96:2613–2621. http://dx.doi.org/10.1890/14-2172.1
Appendix A. A review of all articles indexed by Web of Science in 2013 (119 total) that listed invasibility as the keywords reveals that although most researchers seem to agree about what invasibility (Ie) and DI mean in general, neither has a consistent measure.
Citation |
Invasibility Defined |
Measured |
Taxonomic |
Abella, S. R. and A. Tendick (2013). "Distribution of exotic plant species and relationship to vegetation type at Bryce Canyon National Park, USA." Landscape and Urban Planning 120: 48-58. |
the susceptibility of an environment to invasion and establishment by exotic species |
cover class |
plants |
Aguiar, F. C. F. and M. T. Ferreira (2013). "Plant invasions in the rivers of the Iberian Peninsula, south-western Europe: A review." Plant Biosystems 147(4): 1107-1119. |
the susceptibility of river and riparian ecosystems to invasion and establishment by exotic plant species |
spatial/temporal patterns of invasion, species invasiveness, species traits of invasive weeds, relationships between human disturbance and surrounding areas |
plants |
Alofs, K. M. and N. L. Fowler (2013). "Loss of native herbaceous species due to woody plant encroachment facilitates the establishment of an invasive grass." Ecology 94(3): 751-760. |
likelihood invasives can invade a neighborhood or community |
cover classes and species richness |
plants |
Bai, F., R. Chisholm, et al. (2013). "Spatial Risk Assessment of Alien Invasive Plants in China." Environmental Science & Technology 47(14): 7624-7632. |
risk of invasion by nonnative species |
total number of invasives and richness of invasives as proportion of total species richness |
plants |
Bennett, J. R., M. Vellend, et al. (2013). "Abundance, rarity and invasion debt among exotic species in a patchy ecosystem." Biological Invasions 15(3): 707-716. |
N/A |
N/A |
N/A |
Berglund, H., J. Jaremo, et al. (2013). "Associations of invasive alien species and other threats to IUCN Red List species (Chordata: vertebrates)." Biological Invasions 15(5): 1169-1180. |
N/A |
N/A |
N/A |
Brenner, J. C. and L. L. Kanda (2013). "Buffelgrass (Pennisetum ciliare) Invades Lands Surrounding Cultivated Pastures in Sonora, Mexico." Invasive Plant Science and Management 6(1): 187-195. |
N/A |
N/A |
N/A |
Brooks, W. R. and R. C. Jordan (2013). "Propagule pressure and native species richness effects drive invasibility in tropical dry forest seedling layers." Perspectives in Plant Ecology Evolution and Systematics 15(3): 162-170. |
susceptibility of a community to invasion and establishment by invasive species |
native species richnnes, native density, invader propagule pressure |
plants |
Brooks, W. R., J. L. Lockwood, et al. (2013). "Tropical paradox: a multi-scale analysis of the invasion paradox within Miami Rock Ridge tropical hardwood hammocks." Biological Invasions 15(4): 921-930 |
N/A |
N/A |
N/A |
Burfeind, D. D., K. A. Pitt, et al. (2013). "Performance of non-native species within marine reserves." Biological Invasions 15(1): 17-28. |
N/A |
N/A |
N/A |
Burns, C. W. (2013). "Predictors of invasion success by Daphnia species: influence of food, temperature and species identity." Biological Invasions 15(4): 859-869. |
invasion susceptibility |
reproductive response and fitness of natives and invasives |
plankton |
Byun, C., S. de Blois, et al. (2013). "Plant functional group identity and diversity determine biotic resistance to invasion by an exotic grass." Journal of Ecology 101(1): 128-139. |
ability of species in community to limit invasion |
relative competition index |
plants |
Cacabelos, E., C. Olabarria, et al. (2013). "Invasion of Sargassum muticum in intertidal rockpools: Patterns along the Atlantic Iberian Peninsula." Marine Environmental Research 90: 18-26. |
susceptibility to invasion |
native richness in relation to invasion success |
plants |
Calvino-Cancela, M. and M. Rubido-Bara (2013). "Invasive potential of Eucalyptus globulus: Seed dispersal, seedling recruitment and survival in habitats surrounding plantations." Forest Ecology and Management 305: 129-137. |
susceptibility to invasion |
amount of seeds of E. globulus reaching distances from the edge of plantations, seedling emergence and survival in the three types of habitats |
plants |
Carniatto, N., S. M. Thomaz, et al. (2013). "Effects of an Invasive Alien Poaceae on Aquatic Macrophytes and Fish Communities in a Neotropical Reservoir." Biotropica 45(6): 747-754. |
N/A |
N/A |
N/A |
Chen, L. Y., S. L. Peng, et al. (2013). "Competitive Control of an Exotic Mangrove Species: Restoration of Native Mangrove Forests by Altering Light Availability." Restoration Ecology 21(2): 215-223. |
N/A |
N/A |
N/A |
Claeson, S. M. and P. A. Bisson (2013). "Passive Reestablishment of Riparian Vegetation Following Removal of Invasive Knotweed (Polygonum)." Invasive Plant Science and Management 6(2): 208-218. |
N/A |
N/A |
N/A |
Clark, G. F. (2013). "Biodiversity-invasibility mechanisms are mediated by niche dimensionality." Functional Ecology 27(1): 5-6. |
|||
Clark, G. F., E. L. Johnston, et al. (2013). "Intrinsic time dependence in the diversity-invasibility relationship." Ecology 94(1): 25-31. |
probability of invaders colonizing an area |
simulation model |
N/A |
Cleland, E. E., L. Larios, et al. (2013). "Strengthening Invasion Filters to Reassemble Native Plant Communities: Soil Resources and Phenological Overlap." Restoration Ecology 21(3): 390-398. |
invasion by exotic species |
experimental plant communities and manipulated functional group abundance |
plants |
Cockrell, M. L. and C. J. B. Sorte (2013). "Predicting climate-induced changes in population dynamics of invasive species in a marine epibenthic community." Journal of Experimental Marine Biology and Ecology 440: 42-48. |
N/A |
N/A |
N/A |
Concilio, A. L. and M. E. Loik (2013). "Elevated nitrogen effects on Bromus tectorum dominance and native plant diversity in an arid montane ecosystem." Applied Vegetation Science 16(4): 598-609. |
susceptibility of ecosystems to invasion |
species composition, species richness, shannon's diversity, simpson's dominance, simpson's evenness, B. tectorum dominance, community similarity |
plants |
Crutsinger, G. M., B. E. Carter, et al. (2013). "Soil nutrients trump intraspecific effects on understory plant communities." Oecologia 173(4): 1531-1538. |
N/A |
N/A |
N/A |
Cutulle, M. A., J. F. Derr, et al. (2013). "Impact of Hybrid Bluegrass and Tall Fescue Seeding Combinations on Brown Patch Severity and Weed Encroachment." Hortscience 48(4): 493-500. |
N/A |
N/A |
N/A |
de Magalhaes, A. L. B. and C. M. Jacobi (2013). "Invasion risks posed by ornamental freshwater fish trade to southeastern Brazilian rivers." Neotropical Ichthyology 11(2): 433-441. |
risk of invasion of nonnative fish into waterways |
model comprising of nine parameters, i)invasiveness, ii)history of invasions, iii)propagule pressure, iv)invasibility |
fish |
De Roy, K., M. Marzorati, et al. (2013). "Environmental conditions and community evenness determine the outcome of biological invasion." Nature Communications 4. |
ability of an organism to invade a community |
evaluate degree of invasion and effect on community functionality in relation to initial community evenness |
bacteria |
Dreiss, L. M. and J. C. Volin (2013). "Influence of leaf phenology and site nitrogen on invasive species establishment in temperate deciduous forest understories." Forest Ecology and Management 296: 1-8. |
susceptibility of ecosystem to invasive species |
assessed invasive species presence in understory |
plants |
Edelist, D., G. Rilov, et al. (2013). "Restructuring the Sea: profound shifts in the world's most invaded marine ecosystem." Diversity and Distributions 19(1): 69-77. |
susceptibility of open coast water systems to invasion by exotic fish species |
compared historical and modern trawl surveys to evaluate relative abundance and biomass of ind0-pacific fish and their impact on diversity and trophic level |
fish |
Eisenhauer, N., W. Schulz, et al. (2013). "Niche dimensionality links biodiversity and invasibility of microbial communities." Functional Ecology 27(1): 282-288. |
susceptibility of a community to invasion by exotic species |
taxonomic richness and functional dissimilarity |
bacteria |
Fan, Z. F., W. K. Moser, et al. (2013). "Regional Patterns of Major Nonnative Invasive Plants and Associated Factors in Upper Midwest Forests." Forest Science 59(1): 38-49. |
N/A |
N/A |
N/A |
Freestone, A. L., G. M. Ruiz, et al. (2013). "Stronger biotic resistance in tropics relative to temperate zone: effects of predation on marine invasion dynamics." Ecology 94(6): 1370-1377. |
susceptibility of a community to nonnative species |
predation effect on nonnative species richness |
epifauna animals |
Fukano, Y., Y. Tachiki, et al. (2013). "Soil disturbances can suppress the invasion of alien plants under plant-soil feedback." Ecological Modelling 260: 42-49. |
N/A |
N/A |
N/A |
Gao, L., Q. J. Zan, et al. (2013). "Soil fungi of three native tree species inhibit biomass production and shift biomass allocation of invasive Mikania micrantha Kunth." Chinese Science Bulletin 58(7): 758-765. |
N/A |
N/A |
N/A |
George, A. E. and D. C. Chapman (2013). "Aspects of Embryonic and Larval Development in Bighead Carp Hypophthalmichthys nobilis and Silver Carp Hypophthalmichthys molitrix." PLoS One 8(8). |
susceptibility of a river to invasive species |
developmental rates and behavior |
fish |
Gonzalez-Moreno, P., J. Pino, et al. (2013). "Quantifying the landscape influence on plant invasions in Mediterranean coastal habitats." Landscape Ecology 28(5): 891-903. |
N/A |
N/A |
N/A |
Goodsman, D. W., I. Lusebrink, et al. (2013). "Variation in carbon availability, defense chemistry and susceptibility to fungal invasion along the stems of mature trees." New Phytologist 197(2): 586-594. |
susceptibility of an organism to invasion by another potentially harmful organism |
carbohydrate and monoterpene concentration along stem |
fungi |
Griffith, B., M. Turke, et al. (2013). "Herbivore behavior in the anecic earthworm species Lumbricus terrestris L.?" European Journal of Soil Biology 55: 62-65. |
N/A |
N/A |
N/A |
Harrison, E., C. N. Love, et al. (2013). "Isolation and characterization of 18 novel polymorphic microsatellite markers from the Mayan cichlid (Cichlasoma urophthalmus)." Conservation Genetics Resources 5(3): 703-705. |
susceptibility of a system to invasion by invasive species |
loci screened for 24 specimens |
fish |
Heard, M. J. and D. F. Sax (2013). "Coexistence between native and exotic species is facilitated by asymmetries in competitive ability and susceptibility to herbivores." Ecology Letters 16(2): 206-213. |
N/A |
N/A |
N/A |
Hejda, M. and F. de Bello (2013). "Impact of plant invasions on functional diversity in the vegetation of Central Europe." Journal of Vegetation Science 24(5): 890-897. |
susceptibility of community to invasion |
functional diversity calculated, height, SLA, seed mass, and clonal index used to understand functional space occupied by native and nonnative species |
plants |
Hogg, B. N. and K. M. Daane (2013). "Contrasting landscape effects on species diversity and invasion success within a predator community." Diversity and Distributions 19(3): 281-293. |
N/A |
N/A |
N/A |
Hoopes, M. F., D. M. Marsh, et al. (2013). "Invasive Plants in Wildlife Refuges: Coordinated Research with Undergraduate Ecology Courses." Bioscience 63(8): 644-656. |
N/A |
N/A |
N/A |
Horak, J., C. Hui, et al. (2013). "Changing roles of propagule, climate, and land use during extralimital colonization of a rose chafer beetle." Naturwissenschaften 100(4): 327-336. |
N/A |
N/A |
N/A |
Jackson, M. C., R. Allen, et al. (2013). "Do trophic subsidies affect the outcome of introductions of a non-native freshwater fish?" Freshwater Biology 58(10): 2144-2153. |
susceptibility of freshwater systems to invasive species |
reproduction of progeny that received natural/artificial subsidies |
fish |
Jones, E. I., S. L. Nuismer, et al. (2013). "Revisiting Darwin's conundrum reveals a twist on the relationship between phylogenetic distance and invasibility." Proceedings of the National Academy of Sciences of the United States of America 110(51): 20627-20632. |
susceptibility of system to invasion |
phylogenetic distance between nonnativ species and native species |
N/A |
Juarez-Escario, A., J. Valls, et al. (2013). "A plant-traits approach to assessing the success of alien weed species in irrigated Mediterranean orchards." Annals of Applied Biology 162(2): 200-213. |
N/A |
N/A |
N/A |
Kalusova, V., M. Chytry, et al. (2013). "Where do they come from and where do they go? European natural habitats as donors of invasive alien plants globally." Diversity and Distributions 19(2): 199-214. |
vulnerability to invasion |
percentages of species invasive outside Europe, of total number of native species occuring in each European habitat were used to compare habitats as donors for invasion |
plants |
Knappova, J., M. Knapp, et al. (2013). "Spatio-Temporal Variation in Contrasting Effects of Resident Vegetation on Establishment, Growth and Reproduction of Dry Grassland Plants: Implications for Seed Addition Experiments." PLoS One 8(6). |
N/A |
N/A |
N/A |
Koehncke, A., A. Telschow, et al. (2013). "Invasibility as an emergent property of native metapopulation structure." Oikos 122(3): 332-340. |
susceptibility of community to invasion |
analysis of stepping-stone model |
N/A |
Krol, J. E., A. J. Wojtowicz, et al. (2013). "Invasion of E-coli biofilms by antibiotic resistance plasmids." Plasmid 70(1): 110-119. |
ability of plasmids to invade E. coli biofilms |
compared efficiency of transfer of 19 multidrug resistant plasmids into E. coli biofilm |
bacteria |
Kuebbing, S. E., M. A. Nunez, et al. (2013). "Current mismatch between research and conservation efforts: The need to study co-occurring invasive plant species." Biological Conservation 160: 121-129. |
susceptibility of habitats to invasion |
juxtaposed number of invasive plant reported as co-occuring within conservation habitats in global management database |
plants |
Kueffer, C., P. Pysek, et al. (2013). "Integrative invasion science: model systems, multi-site studies, focused meta-analysis and invasion syndromes." New Phytologist 200(3): 615-633. |
susceptibility of ecosystems to invasion |
multi pronged research strategy based on modelling |
plants |
Kuhman, T. R., S. M. Pearson, et al. (2013). "Why does land-use history facilitate non-native plant invasion? A field experiment with Celastrus orbiculatus in the southern Appalachians." Biological Invasions 15(3): 613-626. |
susceptibility of communities to invasion |
germination and first year seedling survival |
plants |
Labonne, J., M. Vignon, et al. (2013). "Invasion Dynamics of a Fish-Free Landscape by Brown Trout (Salmo trutta)." PLoS One 8(8). |
invasion of fish-free freshwater ecosystems in sub-Antartic Kerguelen islands |
Bayesian dynamic metapopulation model |
fish |
Larson, D. L., J. B. Bright, et al. (2013). "Using prairie restoration to curtail invasion of Canada thistle: the importance of limiting similarity and seed mix richness." Biological Invasions 15(9): 2049-2063. |
susceptibility of a system to invasion |
seed mix species richness |
plants |
Leal, L. C., M. V. Meiado, et al. (2013). "Germination responses of the invasive Calatropis procera (Ait.) R. Br. (Apocynaceae): comparisons with seeds from two ecosystems in northeastern Brazil." Anais da Academia Brasileira de Ciencias 85(3): 1025-1034. |
a plants ability to invade an ecosystem |
seed germination under various levels of light intensity, salinity, water stress |
plants |
Liebhold, A. M., D. G. McCullough, et al. (2013). "A highly aggregated geographical distribution of forest pest invasions in the USA." Diversity and Distributions 19(9): 1208-1216. |
N/A |
species per county with habitat characteristics associated with propagule pressure and with variables reflectin habitat invasibility. Relationships between geographical area occupied by each pest species and time since introduction and habitat characteristics |
insects and pathogens |
Maceda-Veiga, A., A. De Sostoa, et al. (2013). "Factors affecting the establishment of the invasive crayfish Procambarus clarkii (Crustacea, Decapoda) in the Mediterranean rivers of the northeastern Iberian Peninsula." Hydrobiologia 703(1): 33-45. |
susceptibility of an ecosystem to invasion |
abundance and species richness |
fish |
Macneil, C. and D. Platvoet (2013). "Could artificial structures such as fish passes facilitate the establishment and spread of the 'killer shrimp' Dikerogammarus villosus (Crustacea: Amphipoda) in river systems?" Aquatic Conservation-Marine and Freshwater Ecosystems 23(5): 667-677. |
susceptibility of a river system to an invasive crustacean |
numerical abundance |
crustacean |
Mason, T. J., K. French, et al. (2013). "Arrival order among native plant functional groups does not affect invasibility of constructed dune communities." Oecologia 173(2): 557-568. |
community susceptibility to invasive shrub |
invader abundance |
plants |
Mata, T. M., N. M. Haddad, et al. (2013). "How invader traits interact with resident communities and resource availability to determine invasion success." Oikos 122(1): 149-160. |
susceptibility of controlled microcosm to invasion by introduced invaders |
species diversity abundance |
protists |
Mattingly, W. B. and J. L. Orrock (2013). "Historic land use influences contemporary establishment of invasive plant species." Oecologia 172(4): 1147-1157. |
factors effecting establishment of invasives in a community |
plant establishment, resident species richness, community productivity |
plants |
Mazia, N., P. M. Tognetti, et al. (2013). "Patch identity and the spatial heterogeneity of woody encroachment in exotic-dominated old-field grasslands." Plant Ecology 214(2): 267-277. |
invasibility of a community to invasion |
survival and growth of Gleditsia seedlings |
plants |
Meisner, A., G. B. De Deyn, et al. (2013). "Soil biotic legacy effects of extreme weather events influence plant invasiveness." Proceedings of the National Academy of Sciences of the United States of America 110(24): 9835-9838. |
N/A |
N/A |
N/A |
Menuz, D. R. and K. M. Kettenring (2013). "The importance of roads, nutrients, and climate for invasive plant establishment in riparian areas in the northwestern United States." Biological Invasions 15(7): 1601-1612. |
likelihood of an invasive species to establish |
species distribution models of 11 invasive species |
plants |
Michelan, T. S., S. M. Thomaz, et al. (2013). "Native Macrophyte Density and Richness Affect the Invasiveness of a Tropical Poaceae Species." PLoS One 8(3). |
ecosystem likelihood of being invaded |
sprout length and root biomass |
plants |
Milbau, A., A. Shevtsova, et al. (2013). "Plant community type and small-scale disturbances, but not altitude, influence the invasibility in subarctic ecosystems." New Phytologist 197(3): 1002-1011. |
susceptibility of an ecosystem to invasion |
seedling emergence and establishment |
plants |
Moroney, J. R. and P. W. Rundel (2013). "Abundance and dispersion of the invasive Mediterranean annual, Centaurea melitensis in its native and non-native ranges." Biological Invasions 15(3): 495-507. |
susceptibility of region to invasion |
density and dispersion of invasive comparison in native and invaded range |
plants |
Nagase, A., N. Dunnett, et al. (2013). "Investigation of weed phenology in an establishing semi-extensive green roof." Ecological Engineering 58: 156-164. |
N/A |
N/A |
N/A |
Oakley, C. A. and J. S. Knox (2013). "Plant species richness increases resistance to invasion by non-resident plant species during grassland restoration." Applied Vegetation Science 16(1): 21-28. |
N/A |
N/A |
N/A |
Obratov-Petkovic, D., I. Bjedov, et al. (2013). "INFLUENCE OF SOME ENVIRONMENTAL FACTORS ON THE DISTRIBUTION OF THE INVASIVE SPECIES ASTER LANCEOLATUS WILLD. IN VARIOUS SERBIAN HABITATS." Fresenius Environmental Bulletin 22(6): 1677-1688. |
N/A |
N/A |
N/A |
Ordonez, A. and H. Olff (2013). "Do alien plant species profit more from high resource supply than natives? A trait-based analysis." Global Ecology and Biogeography 22(6): 648-658. |
N/A |
N/A |
N/A |
Parepa, M., M. Fischer, et al. (2013). "Environmental variability promotes plant invasion." Nature Communications 4. |
N/A |
N/A |
N/A |
Parepa, M., U. Schaffner, et al. (2013). "Help from under ground: soil biota facilitate knotweed invasion." Ecosphere 4(2). |
susceptibility of system to invasion |
invasion success calculated ratio of knotweed and native community biomass |
plants |
Pellock, S., A. Thompson, et al. (2013). "Validity of Darwin's naturalization hypothesis relates to the stages of invasion." Community Ecology 14(2): 172-179. |
N/A |
N/A |
N/A |
Perkins, L. B. and R. S. Nowak (2013). "Invasion syndromes: hypotheses on relationships among invasive species attributes and characteristics of invaded sites." Journal of Arid Land 5(3): 275-283. |
N/A |
N/A |
N/A |
Petrasova, M., I. Jarolimek, et al. (2013). "Neophytes in Pannonian hardwood floodplain forests - History, present situation and trends." Forest Ecology and Management 308: 31-39. |
N/A |
N/A |
N/A |
Pino, J., X. Arnan, et al. (2013). "Post-fire invasion and subsequent extinction of Conyza spp. in Mediterranean forests is mostly explained by local factors." Weed Research 53(6): 470-478. |
susceptibility of system to invasion |
presence and cover |
plants |
Poessel, S. A., K. H. Beard, et al. (2013). "Biotic acceptance in introduced amphibians and reptiles in Europe and North America." Global Ecology and Biogeography 22(2): 192-201. |
susceptibility of ecosystem to invasion |
multiple linear regression models to determine factors that predicted successful establishment of invasives |
amphibians and reptiles |
Price, J. N. and M. Partel (2013). "Can limiting similarity increase invasion resistance? A meta-analysis of experimental studies." Oikos 122(5): 649-656. |
N/A |
N/A |
N/A |
Radford, I. J. (2013). "Fluctuating resources, disturbance and plant strategies: diverse mechanisms underlying plant invasions." Journal of Arid Land 5(3): 284-297. |
susceptibility of system to invasion |
relative functional response to changes in resource availability |
plants |
Rauber, R. B., M. B. Collantes, et al. (2013). "Biotic and abiotic constraints to a plant invasion in vegetation communities of Tierra del Fuego." Austral Ecology 38(4): 436-442. |
susceptibility of system to invasion |
cover, species richness, species diversity, cover of different growth forms |
plants |
Reisner, M. D., J. B. Grace, et al. (2013). "Conditions favouring Bromus tectorum dominance of endangered sagebrush steppe ecosystems." Journal of Applied Ecology 50(4): 1039-1049. |
susceptibility of ecosystem to invasion |
soil texture, cattle grazing intensity, gaps among perennial plants, plant cover, biological soil crusts |
plants |
Renne, I. J. and B. F. Tracy (2013). "Disturbance intensity, timing and history interact to affect pasture weed invasion." Basic and Applied Ecology 14(1): 44-53. |
susceptibility of system to invasion |
weed recruitment |
plants |
Roscher, C., A. J. F. Fergus, et al. (2013). "What happens to the sown species if a biodiversity experiment is not weeded?" Basic and Applied Ecology 14(3): 187-198. |
N/A |
N/A |
N/A |
Ruiz, G. M., P. W. Fofonoff, et al. (2013). "Geographic variation in marine invasions among large estuaries: effects of ships and time." Ecological Applications 23(2): 311-320. |
susceptibility of marine estuary to invasion |
geographic variation in nonnative species richness, changes through time in geographic variation of these ship mediated invasions, effects of commercial ship traffic and ballast water discharge magnitude on nonnative species richness |
invertebrates and algae |
Ruprecht, E., A. Fenesi, et al. (2013). "Sudden changes in environmental conditions do not increase invasion risk in grassland." Acta Oecologica-International Journal of Ecology 47: 8-15. |
N/A |
N/A |
N/A |
Saccone, P., J. Girel, et al. (2013). "Ecological resistance to Acer negundo invasion in a European riparian forest: relative importance of environmental and biotic drivers." Applied Vegetation Science 16(2): 184-192. |
susceptibility of forest to invasion |
survival and growth |
plants |
Santini, A., L. Ghelardini, et al. (2013). "Biogeographical patterns and determinants of invasion by forest pathogens in Europe." New Phytologist 197(1): 238-250. |
susceptibility of system to invasion |
each species spread rate, yearly rate of linear diffusion from country first invaded to extremes of whole range, sum extent rankings in invaded territory |
pathogens |
Schmiede, R., E. Ruprecht, et al. (2013). "Establishment of rare flood meadow species by plant material transfer: Experimental tests of threshold amounts and the effect of sowing position." Biological Conservation 159: 222-229. |
susceptibility of system to invasion |
effect of plant material amount and relative seed position on seedling establishment. Seedling fate and seedling fitness |
plants |
Schulz, B. K. and A. N. Gray (2013). "The new flora of northeastern USA: quantifying introduced plant species occupancy in forest ecosystems." Environmental Monitoring and Assessment 185(5): 3931-3957. |
N/A |
N/A |
N/A |
Senova, V. and T. Matejcek (2013). "Level of invasion by alien plants across habitats in the basin of the Ploucnice River." Geografie 118(4): 356-371. |
N/A |
N/A |
N/A |
Sinclair, J. P., G. D. Maxwell, et al. (2013). "CONSANGUINEOUS MATING, SPECIALIZATION, AND THE ENVIRONMENT: HOW MULTIPLE VARIABLE INTERACTIONS AFFECT THE EVOLUTION OF DIOECY." American Journal of Botany 100(6): 1038-1049. |
susceptibility of system to invasion |
effects of inbreeding, compensation, and specialization on unisexual invasibility |
plants |
Spear, D., L. C. Foxcroft, et al. (2013). "Human population density explains alien species richness in protected areas." Biological Conservation 159: 137-147. |
N/A |
N/A |
N/A |
Symons, C. C. and S. E. Arnott (2013). "Regional zooplankton dispersal provides spatial insurance for ecosystem function." Global Change Biology 19(5): 1610-1619. |
susceptibility of marine ecosystem to invasion |
dispersal, species richness, evenness, and shannonweiner diversity |
zooplankton |
Tanentzap, A. J., W. G. Lee, et al. (2013). "Increased nitrogen cycling facilitates native forest regeneration: Potential for restoring extinct ecological processes?" Ecological Applications 23(1): 36-45. |
community susceptibility to invasion |
regeneration |
plants |
Thomas, S. M. and K. A. Moloney (2013). "Hierarchical factors impacting the distribution of an invasive species: landscape context and propagule pressure." Landscape Ecology 28(1): 81-93. |
susceptibility of landscape to invasion |
distribution pattern from LULC data and loosestrife presence records |
plants |
Tomasetto, F., R. P. Duncan, et al. (2013). "Environmental gradients shift the direction of the relationship between native and alien plant species richness." Diversity and Distributions 19(1): 49-59. |
N/A |
N/A |
N/A |
Uddin, M. B., M. J. Steinbauer, et al. (2013). "Do environmental attributes, disturbances and protection regimes determine the distribution of exotic plant species in Bangladesh forest ecosystem?" Forest Ecology and Management 303: 72-80. |
N/A |
N/A |
N/A |
Valencia, J., L. Lassaletta, et al. (2013). "Factors Controlling Compositional Changes in a Northern Andean Paramo (La Rusia, Colombia)." Biotropica 45(1): 18-26. |
N/A |
N/A |
N/A |
van den Berg, F., S. Gaucel, et al. (2013). "High levels of auto-infection in plant pathogens favour short latent periods: a theoretical approach." Evolutionary Ecology 27(2): 409-428. |
susceptibility of leaves to invasion by pathogens |
simulation model keeps track of lesions spreading between individual leaves |
pathogens |
van Rensburg, B. J., S. Hugo, et al. (2013). "Are environmental transitions more prone to biological invasions?" Diversity and Distributions 19(3): 341-351. |
susceptibility of ecotones to invasion |
plant richness in each grid cell in study area and distance to grid cell of nearest ecotone |
plants |
Vaz-Pinto, F., C. Olabarria, et al. (2013). "Role of top-down and bottom-up forces on the invasibility of intertidal macroalgal assemblages." Journal of Sea Research 76: 178-186. |
susceptibility of intertidal zone to invasion |
recruitment |
algae |
Vaz-Pinto, F., C. Olabarria, et al. (2013). "Functional diversity and climate change: effects on the invasibility of macroalgal assemblages." Biological Invasions 15(8): 1833-1846. |
susceptibility of mesocosm to invasion |
survivorship and cover |
algae |
Vicente, J. R., A. T. Pinto, et al. (2013). "Using Life Strategies to Explore the Vulnerability of Ecosystem Services to Invasion by Alien Plants." Ecosystems 16(4): 678-693. |
susceptibility of landscape to invasion |
life strategies and invasive species richness |
plants |
Vikane, J. H., V. Vandvik, et al. (2013). "Invasion of Calluna heath by native and non-native conifers: the role of succession, disturbance and allelopathy." Plant Ecology 214(7): 975-985. |
susceptibility of coastal heathlands to invasion |
seedling emergence and establishment |
plants |
Von Holle, B. (2013). "Environmental stress alters native-nonnative relationships at the community scale." Biological Invasions 15(2): 417-427. |
landscape and community susceptibility to invasion |
species richness |
plants |
Von Holle, B., C. Neill, et al. (2013). "Ecosystem legacy of the introduced N-2-fixing tree Robinia pseudoacacia in a coastal forest." Oecologia 172(3): 915-924. |
coastal forest ecosystem susceptibility to invasion |
net nitrification, soil nitrate concentration, cover |
plants |
Wainwright, C. E. and E. E. Cleland (2013). "Exotic species display greater germination plasticity and higher germination rates than native species across multiple cues." Biological Invasions 15(10): 2253-2264. |
N/A |
N/A |
N/A |
Wang, J., Y. Ge, et al. (2013). "Dominant Functional Group Effects on the Invasion Resistance at Different Resource Levels." PLoS One 8(10). |
susceptibility of system to invasion |
functional groups |
plants |
Wang, Y. S. and H. Wu (2013). "Invasibility of Nectarless Flowers in Plant-Pollinator Systems." Bulletin of Mathematical Biology 75(7): 1138-1156. |
susceptibility of secretor systems to invasion by nonsecretors |
fitness |
plants |
White, S. R., S. Tannas, et al. (2013). "Using structural equation modelling to test the passenger, driver and opportunist concepts in a Poa pratensis invasion." Oikos 122(3): 377-384. |
susceptibility of community to invasion |
cover of invasive and cover and richness of native community |
plants |
Yamauchi, A., Y. Shirahama, et al. (2013). "Evolution of masting with intermittence and synchronization under the enhancements of fertility and survival." Theoretical Ecology 6(4): 505-518. |
ability of organism to invade a system via a reproductive strategy |
intermittence and synchronization, enhancement of fertility and survival |
plants |
Yemshanov, D., F. H. Koch, et al. (2013). "Mapping ecological risks with a portfolio-based technique: incorporating uncertainty and decision-making preferences." Diversity and Distributions 19(5-6): 567-579. |
susceptibility of system to invasion |
expected impacts of invasion |
N/A |
Zaller, J. G., M. Parth, et al. (2013). "Herbivory of an invasive slug is affected by earthworms and the composition of plant communities." BMC Ecology 13. |
susceptibility of ecosystem to invasion by a species |
herbivory by invasive species |
slug |
Zenni, R. D. and M. A. Nunez (2013). "The elephant in the room: the role of failed invasions in understanding invasion biology." Oikos 122(6): 801-815. |
habitat susceptibility to invasion |
invasive characteristics |
N/A |
Zenni, R. D. and D. Simberloff (2013). "Number of source populations as a potential driver of pine invasions in Brazil." Biological Invasions 15(7): 1623-1639. |
susceptibility of forests to invasion |
presence/absence, tree density, propagule size and propagule diversity |
plnts |
Zhaoa, J. Z., W. Liu, et al. (2013). "Responses of reproduction and important value of dominant plant species in different plant functional type in Kobresia meadow to temperature increase." Russian Journal of Ecology 44(6): 484-491. |
susceptibility of meadow to plant invasion |
reproduction and important value of dominant plant species |
plants |
Zurlini, G., I. Petrosillo, et al. (2013). "Towards the planning and design of disturbance patterns across scales to counter biological invasions." Journal of Environmental Management 128: 192-203. |
sub regions and scale domains with potential for spread of invasive species |
disturbance patterns |
plants |