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- Aphaenogaster (1)
- Aphaenogaster picea; Aphaenogaster rudis; Brachyponera chinensis; friendly release; Southern Appalachian; supercolony (1)
- Aphaenogaster; experimental eradication; Myrmica rubra (1)
- Bipolaris; enemy release; fungal pathogen; invasive species; plant invasion; Southern Appalachian Mountains; understory invaders (1)
- Climate change (1)
Articles 1 - 6 of 6
Full-Text Articles in Biology
Laurentian Great Lakes Warming Threatens Northern Fruit Belt Refugia, Robert Warren
Laurentian Great Lakes Warming Threatens Northern Fruit Belt Refugia, Robert Warren
Biology Faculty Datasets
Climate refugia are anomalous ‘pockets’ of spatially or temporally disjunct environmental conditions that buffer distinct flora and fauna against prevailing climatic conditions. Physiographic landscape features, such as large water bodies, can create these micro-to-macro-scale terrestrial habitats, such as the prevailing westerly winds across the Laurentian Great Lakes that create relatively cooler leeward conditions in spring and relatively warmer leeward conditions in autumn. The leeward Great Lakes climate effects create a refugia (popularly known as a ‘fruit belt’) favorable for fruit-bearing trees and shrubs. This fruit belt refugia owes its existence to seasonal inversions whereby spring cooling prevents early flower budding …
Non-Native Microstegium Vimineum Populations Collapse With Fungal Leaf Spot Disease Outbreak, Robert Warren
Non-Native Microstegium Vimineum Populations Collapse With Fungal Leaf Spot Disease Outbreak, Robert Warren
Biology Faculty Datasets
Abstract
Non-native plants may meet little resistance in the novel range if they leave their biological enemies at home. As a result, species invasion can be rapid and appear unlimited. However, with time, organisms may acquire novel enemies in the novel range, or home-range enemies also may colonize the novel range. For plants, several authors have suggested that enemy release may give way to enemy acquisition in which pathogens accumulate and suppresses non-native plants. The ‘naturalization’ that occurs with acquired enemies may take decades to develop, yet most species invasion research lasts less than 4 years, and data tracking plant …
Disentangling Resource Acquisition From Interspecific Behavioral Aggression To Understand The Ecological Dominance Of A Common, Widespread Temperate Forest Ant, Robert Warren
Biology Faculty Datasets
No abstract provided.
Regional-Scale Environmental Resistance To Non-Native Ant Invasion, Robert Warren
Regional-Scale Environmental Resistance To Non-Native Ant Invasion, Robert Warren
Biology Faculty Datasets
A successful invasion of novel habitat requires that non-native organisms overcome native abiotic and biotic resistance. Non-native species can overcome abiotic resistance if they arrive with traits well-suited for the invaded habitat or if they can rapidly acclimate or adapt. Non-native species may co-exist with native species if they require novel, underused resources or if they can out-compete similar native species. We investigated abiotic and biotic resistance to the progression of a Brachyponera chinensis invasion in the southeastern U.S. relative to the dominant native woodland ant (Aphaenogaster). We used observational data from long-term plots along the elevation gradient …
Non-Native Ant Invader Displaces Native Ants But Facilitates Non-Predatory Invertebrates, Robert Warren, Madeson C. Goodman
Non-Native Ant Invader Displaces Native Ants But Facilitates Non-Predatory Invertebrates, Robert Warren, Madeson C. Goodman
Biology Faculty Datasets
Many invasive ants, such as the European fire ant (Myrmica rubra), are particularly successful invaders due to their ability to form multi-nest, multi-queen 'supercolonies' that appear to displace native invertebrates in invaded regions. Myrmica rubra has invaded many areas in the Northeastern United States, including Western New York. Myrmica rubra invasion corresponds with decreases in native invertebrates, particularly ants, an effect which may be attributable to direct displacement, or because M. rubra prefers habitat unsuitable for native ants. We surveyed Western New York parklands to investigate native ant and non-ant invertebrate abundance in M. rubra-invaded and …
Do Novel Weapons That Degrade Mycorrhizal Mutualisms Promote Species Invasion?, Robert Warren, Phil Pinzone, Daniel L. Potts, Gary Pettibone
Do Novel Weapons That Degrade Mycorrhizal Mutualisms Promote Species Invasion?, Robert Warren, Phil Pinzone, Daniel L. Potts, Gary Pettibone
Biology Faculty Datasets
Non-native plants often dominate novel habitats where they did not co-evolve with the local species. The novel weapons hypothesis suggests that non-native plants bring competitive traits against which native species have not adapted defenses. Novel weapons may directly affect plant competitors by inhibiting germination or growth, or indirectly by attacking competitor plant mutualists (degraded mutualisms hypothesis). Japanese knotweed (Fallopia japonica) and European buckthorn (Rhamnus cathartica) are widespread plant invaders that produce potent secondary compounds that negatively impact plant competitors. We tested whether their impacts were consistent with a direct effect on the tree seedlings (novel weapons) or an indirect attack …