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Invasive Ants Generate Heterogeneity in Patterns of Seed Survival

Journal Article · · American Midland Naturalist
 [1];  [2];  [3]
  1. Department of Zoology, University of Wisconsin, Madison 53706; USDA Forest Service-Savannah River
  2. Department of Zoology, University of Wisconsin, Madison 53706
  3. Department of Ecology and Evolutionary Biology, University of Colorado, Boulder 80309
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Although studies often focus on the direct effects of invasive species on native taxa, invasive species may also alter interactions among native species. For example Solenopsis invicta, the red imported fire ant, may directly alter native seed survival by consuming seeds, but also indirectly alter seed survival, by altering the abundance and/or behavior of native granivores. We tested the effects of invasive S. invicta on rodent and arthropod granivory by quantifying seed removal from seed depots that differed in granivore access (arthropods and rodents or arthropods only) and distance from an S. invicta mound (0.1 m or 4.0 m). We hypothesized the effect of S. invicta on native granivores would be stronger at depots located near (0.1 m) a mound than at depots located 4.0 m from a mound. Use of two different seed species (Rubus cuneifolius and Prunus serotina) allowed us to evaluate the consequences of S. invicta for small-seeded plant species consumed by both arthropods and rodents (R. cuneifolius) as well as for large-seeded species that can only be consumed by rodents (P. serotina). We found overall removal of P. serotina was low, regardless of seed depot location or exclosure type. Near S. invicta mounds, the removal of R. cuneifolius was also low, with no difference between depots that allowed or excluded rodents. In contrast, removal of R. cuneifolius by arthropods 4.0 m from a mound was nearly twice that of removal next to a mound but only when rodents were excluded. Our results indicate S. invicta may create hotspots of granivory by native arthropods in the areas between S. invicta mounds, but these effects may not extend to large-seeded plants that are consumed by rodents. By influencing seed survival as a function of plant species and proximity to a mound, nonnative S. invicta generates heterogeneity in native seed survival, which may affect plant community composition.

Research Organization:
USDA Forest Service-Savannah River, SC (United States)
Sponsoring Organization:
USDOE Office of Environment, Health, Safety and Security (AU)
DOE Contract Number:
EM0003622
OSTI ID:
1884964
Report Number(s):
16-18-P; 16-18-P
Journal Information:
American Midland Naturalist, Journal Name: American Midland Naturalist Journal Issue: 2 Vol. 176; ISSN 0003-0031
Publisher:
University of Notre Dame
Country of Publication:
United States
Language:
English

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Related Subjects

60 APPLIED LIFE SCIENCES
Heterogeneity
Invasive Ants
seed survival