Resistance, resilience and regulation of north-temperate lake communities
Abstract
I analyzed the resistance and resilience of benthic macroinvertebrate and
zooplankton communities from 36 trophically similar lakes north of Thunder Bay,
Ontario to test predictions of the Oksanen et al. (OFAN) model of community regulation
and the potential for alternative stable states following natural and timber-harvest
disturbances. For each disturbance, only a subset of the lakes were previously
affected, allowing an undisturbed control group of lakes to be used for comparison.
Disturbances differed in the manner in which they "displaced" communities and every
disturbance, except the impact associated with the actual area of watershed harvested,
significantly altered either the zooplankton or macroinvertebrate community from the
structure observed in undisturbed lakes (low overall resistance). Communities did not
converge on the composition in undisturbed lakes (no resilience), suggesting a stable
alternative state. These results suggest that resource managers must consider the
effects of land-use disturbances, both separately and from a cumulative perspective, to
evaluate the potential impacts on lake ecosystems. When potential productivity was
augmented by nutrient-addition via cottage inputs, predictions of the OFAN model were
rejected over the three lower trophic levels analyzed in these four trophic-level lakes.
Alternative regression approaches supported predictions only at the basal trophic link,
similarly rejecting the model. The OFAN model cannot account for the pervasive
influence of size-structured interactions at upper trophic levels in aquatic communities.
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- Retrospective theses [1604]