MEPS 492:85-95 (2013)  -  doi:10.3354/meps10491

Future herbivory: the indirect effects of enriched CO2 may rival its direct effects

Laura J. Falkenberg*, Bayden D. Russell, Sean D. Connell

Southern Seas Ecology Laboratories, School of Earth and Environmental Sciences, University of Adelaide, South Australia 5005, Australia

ABSTRACT: Variation in rates of herbivory may be driven by direct effects of the abiotic environment on grazers, as well as indirect effects mediated by their food. Disentangling these direct and indirect effects is of fundamental importance for ecological forecasts of changing climate on species interactions and their influence on biogenic habitat. Whilst elevated atmospheric CO2 may have direct effects on grazers with calcareous structures via ‘ocean acidification’, it may also have indirect effects via changes caused to their food. In our study we initially tested, and confirmed, that enriched CO2 altered per capita rates of grazing before assessing the relative importance of indirect and direct effects in driving this response. Our results eliminated the model of a direct effect of CO2 enrichment on the grazers themselves and supported the model of an indirect effect driven by a change in the food (i.e. turf algae). We suggest that this indirect effect manifested as grazers responded to the increased nitrogen content (i.e. %N) of algal tissue that resulted under CO2 enrichment. Understanding such indirect effects of modified environmental conditions provide important mechanistic links between climate conditions and the ecological processes they influence.


KEY WORDS: Ocean acidification · Carbon dioxide · Climate change · Turf-forming algae · Habitat loss · Phase-shifts


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Cite this article as: Falkenberg LJ, Russell BD, Connell SD (2013) Future herbivory: the indirect effects of enriched CO2 may rival its direct effects. Mar Ecol Prog Ser 492:85-95

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