Journal
MARINE ECOLOGY PROGRESS SERIES
Volume 532, Issue -, Pages 197-211Publisher
INTER-RESEARCH
DOI: 10.3354/meps11330
Keywords
Biomass size spectra; Community ecology; Coral reef; Ecosystem baseline; Energy flow; Foundation species
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Funding
- NSERC Vanier Canada Graduate Scholarship
- J. Abbott/M. Fretwell Graduate Fellowship in Fisheries Biology
- Simon Fraser University (SFU)
- Canada Research Chairs program
- NSERC
- Parks Canada
- Council of the Haida Nation's Fisheries Committee
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Understanding how habitat complexity shapes fish communities is necessary to predict the consequences of future habitat change. On temperate rocky reefs, the presence and characteristics of canopy-forming kelps and the architectural complexity, or rugosity, of the underlying rocky substratum are foundational elements of habitat complexity. However, it is not yet clear how these factors shape the size structure of rocky-reef-associated fish communities. Here, we use biomass spectrum models to evaluate how fish community size structure in high-latitude rocky-reef kelp forests is shaped by substratum rugosity and the degree of closure and density of the kelp canopy. We found that the presence of a closed kelp canopy was associated with an average 75% increase in overall fish biomass compared to open-canopy reefs. Furthermore, on the highest-rugosity reefs, the biomass of small fishes (32-64 g) was 800% higher than on the lowest-rugosity reefs, while large fish (1-2 kg) biomass was 60% lower. Consequently, biomass was more evenly distributed across body-size classes on high-rugosity reefs. By decomposing the biomass spectrum into total biomass and mean individual body mass, we found that higher kelp stipe densities also tended to be associated with larger fishes, but this effect was outweighed by the tendency for more small-bodied fishes with increasing rugosity. This study demonstrates how size-based analyses can give new insights into the ecology of temperate reef communities, and may be useful for tracking changes in kelp-associated assemblages in the coming decades with the maturation of marine protected areas, the recovery of sea otter populations, and changing climate.
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