Abstract
Bioassessment assumes that ecological conditions remain stable in the absence of environmental changes. Evidence suggests this assumption may hold for reference streams, but knowledge gaps remain for impacted streams. Our study quantified interannual variation of benthic macroinvertebrate communities, monitored for at least 14 years in eight impacted streams in the Upper Thames River watershed in Ontario, Canada. Benthic communities exhibited moderate interannual variation in relative abundance of EPT (Ephemeroptera, Plecoptera and Trichoptera) and Chironomidae taxa. Year-to-year changes were reflected in lower community persistence than that observed in studies of reference streams. In contrast, tolerance-based metrics showed minimal interannual variation, suggesting compositional changes were because of taxonomic substitutions, in which one tolerant taxon replaced another. Analyses indicated limited directionality in temporal variation for most bioassessment metrics. An exception was taxa richness, which increased at most sites, possibly because of changes in subsampling. However, no associations between calculated bioassessment metrics and measured environmental factors (stream flow and water chemistry) or sampling procedures were observed. We conclude interannual variation in ecological conditions can be substantial and may not be associated with deterministic factors routinely measured in stream assessments. We recommend increased sampling frequency and traits-based assessment as options for limiting effects of interannual variation on assessment results.
Highlights
Biomonitoring and bioassessment are the collection and analysis of biological data to determine the biological condition of an ecosystem
Understanding the extent and source of interannual variability in benthic macroinvertebrate communities is essential given the assumption in bioassessment that long-term changes in community composition are more driven by deterministic factors associated with environmental conditions than by stochastic factors
Results from the Kruskal–Wallis test comparing the coefficient of variation (CV) of the six bioassessment metrics indicated that there were differences among the metrics (KW = 41.25, p < 0.001)
Summary
Biomonitoring and bioassessment are the collection and analysis of biological data to determine the biological condition of an ecosystem. Understanding the extent and source of interannual variability in benthic macroinvertebrate communities is essential given the assumption in bioassessment that long-term changes in community composition are more driven by deterministic factors associated with environmental conditions (e.g., flow, water chemistry, habitat availability, and heterogeneity) than by stochastic factors (e.g., dispersal). Under this premise, community composition should remain relatively stable from year to year in the absence of major environmental perturbations. There is only a small number of studies that have tested this hypothesis [10,11,12], primarily because of the limited availability of high-quality datasets collected using consistent protocols over long-term periods, especially time series greater than 10 years
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