Current Methods Cannot Predict Damage to Coral Reefs

The potentially devastating effects of ocean acidification on coral reefs are well reported. However, the methods used to evaluate the potential harm are often focused on individual species, viewed in isolation. According to an international research team led by Peter J. Edmunds of California State University, Northridge, this simplistic approach neglects broad-scale inter-species and inter-population dynamics that may have unforeseen consequences for ecosystems. "Most studies address the effects of ocean acidification on single species of corals and calcified algae in tanks," write the team members in an article for the journal BioScience. This approach, they argue, will be inadequate for evaluating the emergent properties of acidification-afflicted reef ecosystems. Answering the wider question of whether reefs will grow or dissolve "requires a consideration of scaling effects." Differences across scales--from organisms to populations, to communities and ecosystems--have "particularly strong implications for coral reefs," say the authors. At the narrow scale, species-specific responses to acidification are highly variable, a result of corals' varied protective tissue layers, differing skeletal solubilities, and numerous other factors. Such differences have far-reaching implications at broader scales. For instance, differently responding symbiotic genotypes (zooxanthellae) could have major effects on a reef's community structure--and, ultimately, on the health of the reef...
Source: BioScience Press Releases - Category: Biology Source Type: news