Synergistic interactions between edge and area effects in a heavily fragmented landscape

Both area and edge effects have a strong influence on ecological processes in fragmented landscapes, but there is little understanding of how these two factors might interact to exacerbate local species declines. To test for synergistic interactions between area and edge effects, we sampled a divers...

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Bibliographic Details
Published in:Ecology (Durham) 2007, Vol.88 (1), p.96-106
Main Authors: Ewers, Robert M., Thorpe, Stephen, Didham, Raphael K.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
area effects
Beetles
Biodiversity
Biological and medical sciences
Coleoptera
Conservation biology
Ecology
Ecosystem
Edge effects
Effects
Entomology
environmental models
Forest cover
Forest ecology
Forest habitats
Fundamental and applied biological sciences. Psychology
General aspects
Habitat fragmentation
Habitats
Insecta
Insects
Invertebrates
landscape ecology
Landscapes
matrix habitat
Metapopulation ecology
New Zealand
Population Dynamics
scale
slope
Species
species diversity
species-area relationship
statistical analysis
statistical models
synergistic interactions
wildlife habitats
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Summary:Both area and edge effects have a strong influence on ecological processes in fragmented landscapes, but there is little understanding of how these two factors might interact to exacerbate local species declines. To test for synergistic interactions between area and edge effects, we sampled a diverse beetle community in a heavily fragmented landscape in New Zealand. More than 35 000 beetles of ∼900 species were sampled over large gradients in habitat area (10−2—106 ha) and distance from patch edge (20—2ⁱ⁰ m from the forest edge into both the forest and adjacent matrix). Using a new approach to partition variance following an ordination analysis, we found that a synergistic interaction between habitat area and distance to edge was a more important determinant of patterns in beetle community composition than direct edge or area effects alone. The strength of edge effects in beetle-species composition increased nonlinearly with increasing fragment area. One important consequence of the synergy is that the slopes of species—area (SA) curves constructed from habitat islands depend sensitively on the distance from edge at which sampling is conducted. Surprisingly, we found negative SA curves for communities sampled at intermediate distances from habitat edges, caused by differential edge responses of matrix- vs. forest-specialist species in fragments of increasing area. Our data indicate that distance to habitat edge has a consistently greater impact on beetle community composition than habitat area and that variation in the strength of edge effects may underlie many patterns that are superficially related to habitat area.
ISSN:0012-9658
1939-9170
DOI:10.1890/0012-9658(2007)88[96:SIBEAA]2.0.CO;2