Title: | Can inducible resistance in plants cause herbivore aggregations? Spatial patterns in an inducible plant/herbivore model |
Author(s): | Anderson KE; Inouye BD; Underwood N; |
ISSN/ISBN: | 0012-9658 (Print) 0012-9658 (Linking) |
Abstract: | "Many theories regarding the evolution of inducible resistance in plants have an implicit spatial component, but most relevant population dynamic studies ignore spatial dynamics. We examined a spatially explicit model of plant inducible resistance and herbivore population dynamics to explore how realistic features of resistance and herbivore responses influence spatial patterning. Both transient and persistent spatial patterns developed in all models examined, where patterns manifested as wave-like aggregations of herbivores and variation in induction levels. Patterns arose when herbivores moved away from highly induced plants, there was a lag between damage and deployment of induced resistance, and the relationship between herbivore density and strength of the induction response had a sigmoid shape. These mechanisms influenced pattern formation regardless of the assumed functional relationship between resistance and herbivore recruitment and mortality. However, in models where induction affected herbivore mortality, large-scale herbivore population cycles driven by the mortality response often co-occurred with smaller scale spatial patterns driven by herbivore movement. When the mortality effect dominated, however, spatial pattern formation was completely replaced by spatially synchronized herbivore population cycles. Our results present a new type of ecological pattern formation driven by induced trait variation, consumer behavior, and time delays that has broad implications for the community and evolutionary ecology of plant defenses" |
Keywords: | "Animals *Herbivory *Models, Biological *Plant Physiological Phenomena Plants/*classification;" |
Notes: | "MedlineAnderson, Kurt E Inouye, Brian D Underwood, Nora eng Research Support, U.S. Gov't, Non-P.H.S. 2015/12/10 Ecology. 2015 Oct; 96(10):2758-70. doi: 10.1890/14-1697.1" |