Your search keyword '"Shawn A. Steffan"' showing total 2 results

1. Niche engineering reveals complementary resource use

Author

David W. Crowder, Tobin D. Northfield, William E. Snyder, Jacob T. Gable, and Shawn A. Steffan

Subjects

Ecological niche, Insecta, Ecology, Population Dynamics, Niche, Foraging, Niche differentiation, Biodiversity, Niche segregation, Brassica, Biology, Predation, Plant Leaves, Larva, Predatory Behavior, Animals, Predator, Ecology, Evolution, Behavior and Systematics

Abstract

Greater resource use by diverse communities might result from species occupying complementary niches. Demonstrating niche complementarity among species is challenging, however, due to the difficulty in relating differences between species in particular traits to their use of complementary resources. Here, we overcame this obstacle by exploiting plastic foraging behavior in a community of predatory insects common on Brassica oleracea plants in Washington, USA. These predators complemented one another by partitioning foraging space, with some species foraging primarily along leaf edges and others at leaf centers. We hypothesized that emergent biodiversity effects would occur when predators partitioned foraging space on leaves, but not when spatial complementarity was dampened. Indeed, on intact leaves, edge- and center-foraging predators combined to kill more prey than any single predator species could by itself. These emergent diversity effects, however, disappeared on plants damaged by the caterpillar Plutella xylostella. Caterpillar chew-holes brought edge habitats to the center of leaves, so that all predator species could attack aphids anywhere on plants. With spatial niche differences diminished, there were no benefits of predator diversity; the most voracious single predator species killed the most aphids. Thus, caterpillar herbivory determined whether multi-predator-species effects reflected complementarity or species' individual impacts. Our study provides direct evidence for a causative relationship between niche differentiation and increased resource consumption by diverse communities, as revealed by ecological engineers that homogenize the foraging environment.

Published

2012

2. Cascading diversity effects transmitted exclusively by behavioral interactions

Author

William E. Snyder and Shawn A. Steffan

Subjects

Herbivore, Insecta, Ecology, Foraging, Biodiversity, Biology, Predation, Predatory Behavior, Guild, Animals, Trophic cascade, Predator, Ecology, Evolution, Behavior and Systematics, Apex predator, Trophic level

Abstract

Consumer diversity generally increases resource consumption. Consumers can also impact other species by altering their behavior, but it is unclear how such nonconsumptive effects scale with diversity. We independently manipulated predator species richness and the consumptive and nonconsumptive effects of predator communities to measure the role of each factor in protecting Brassica oleracea plants from caterpillar herbivory. Plant biomass was greatest when diverse predator assemblages induced antipredator behaviors in herbivores, an effect not further strengthened when predators could also kill caterpillars. Predators within diverse communities were more likely to forage on plants and to disrupt herbivore feeding, reflecting greater aversion to foraging among conspecific than heterospecific competitors. Predator diversity, therefore, initiated behavioral changes at the predator and then herbivore trophic levels, both to the benefit of plants. Our results indicate that strong, emergent species-richness effects can be transmitted entirely through behavioral interactions, independent of resource consumption.

Published

2010