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Dryad

Data from: Direct evidence that density-dependent regulation underpins the temporal stability of abundant species in a diverse animal community

Cite this dataset

Henderson, Peter A.; Magurran, Anne E. (2014). Data from: Direct evidence that density-dependent regulation underpins the temporal stability of abundant species in a diverse animal community [Dataset]. Dryad. https://doi.org/10.5061/dryad.3090c

Abstract

To understand how ecosystems are structured and stabilized, and to identify when communities are at risk of damage or collapse, we need to know how the abundances of the taxa in the entire assemblage vary over ecologically meaningful timescales. Here, we present an analysis of species temporal variability within a single large vertebrate community. Using an exceptionally complete 33-year monthly time series following the dynamics of 81 species of fishes, we show that the most abundant species are least variable in terms of temporal biomass, because they are under density-dependent (negative feedback) regulation. At the other extreme, a relatively large number of low abundance transient species exhibit the greatest population variability. The high stability of the consistently common high abundance species—a result of density-dependence—is reflected in the observation that they consistently represent over 98% of total fish biomass. This leads to steady ecosystem nutrient and energy flux irrespective of the changes in species number and abundance among the large number of low abundance transient species. While the density-dependence of the core species ensures stability under the existing environmental regime, the pool of transient species may support long-term stability by replacing core species should environmental conditions change.

Usage notes

Location

Bristol Channel