The Omega myth: What really drives lower calcification rates in an acidifying ocean

Tyler Cyronak, Kai G. Schulz, Paul L. Jokiel

Research output: Contribution to journalArticlepeer-review

123 Scopus citations

Abstract

The literature on ocean acidification (OA) contains a prevalent misconception that reduced organismal calcification rates in an acidifying ocean are drivenbya reduction in carbonate ion (CO3 2-) substrate availability (e.g. Omega or Ω). However, recent researchin diverse organisms suggests that a reduction in seawater pH (i.e. increasing proton concentrations, [H+]) is the most likely driver of reduced calcification rates in these organisms. OA leads to higher [H+] in seawater which alters the proton gradient between internal cellular reservoirs and external bulk seawater, making it difficult for organisms to maintain pH homeostasis. Biologically mediated calcification is a complex process, so it is unlikely that simple CO3 2- substrate limitation is responsible for the observed decreases in calcification rates under OA conditions. Despite these inherent complexities, current predictions concerning the fate of calcifying organisms in an acidifying ocean have relied on the relationship between calcification rates and Ω. To more accurately predict how OA will affect the calcification of marine organisms, and consequently the global carbon cycle, we need to further elucidate the mechanisms driving observed decreases in calcification under acidified conditions.

Original languageEnglish
Pages (from-to)558-562
Number of pages5
JournalICES Journal of Marine Science
Volume73
Issue number3
DOIs
StatePublished - Feb 1 2016

Keywords

  • Calcification
  • Coral reef
  • Ocean acidification
  • Omega
  • Phytoplankton
  • Saturation state

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