%0 Journal Article %J Oecologia %D 2007 %T Stream insect occupancy-frequency patterns and metapopulation structure %A Heatherly, T. %A M.R. Whiles %A D.J. Gibson %A Scott. L. Collins %A Huryn, A.D. %A Jackson, J.K. %A Palmer, M.A. %K aquatic insect %K Core-satellite %K Distribution %K Sampling intensity %K spatial scale %X An understanding of the distribution patterns of organisms and the underlying factors is a fundamental goal of ecology. One commonly applied approach to visualize these is the analysis of occupancy-frequency patterns. We used data sets describing stream insect distributions from different regions of North America to analyze occupancy-frequency patterns and assess the effects of spatial scale, sampling intensity, and taxonomic resolution on these patterns. Distributions were dominated by satellite taxa (those occurring in ≤10% of sites), whereas the occurrence of core taxa (occurring in ≥90% of sites) determined the overall modality of occupancy-frequency patterns. The proportions of satellite taxa increased with spatial scale and showed positive relationships with sampling intensity (r 2=0.74–0.96). Furthermore, analyses of data sets from New York (USA) showed that generic-level assessments underestimated the satellite class and occasionally shifted occupancy-frequency distributions from unimodal to bimodal. Our results indicate that, regardless of species- or generic-level taxonomy, stream insect communities are characterized by satellite species and that the proportion of satellite species increases with spatial scale and sampling intensity. Thus, niche-based models of occupancy-frequency patterns better characterize stream insect communities than metapopulation models such as the core-satellite species hypothesis. %B Oecologia %V 151 %P 313 -321 %G eng %M KNZ001092 %R 10.1007/s00442-006-0596-8