Litcius/Paper detail

Ocean Acidification Reduces Skeletal Density of Hardground‐Forming High‐Latitude Crustose Coralline Algae

B. Williams, P. Chan, Isaac Westfield, Douglas B. Rasher, Justin B. Ries

2021Geophysical Research Letters10 citationsDOI

Abstract

Abstract Crustose coralline algae (CCA) function as foundation species by creating marine carbonate hardground habitats. High‐latitude species may be vulnerable to regional warming and acidification. Here, we report the results of an experiment investigating the impacts of CO 2 ‐induced acidification (pCO 2 ∼350, 490, 890, 3,200 µatm) and temperature (∼6.5°C, 8.5°C, 12.5°C) on the skeletal density of two species of high‐latitude CCA: Clathromorphum compactum and Clathromorphum nereostratum (CN). Skeletal density of both species significantly declined with pCO 2 . In CN, the density of previously deposited skeleton declined in the highest pCO 2 treatment. This species was also unable to precipitate new skeleton at 12.5°C, suggesting that CN will be particularly sensitive to future warming and acidification. The decline in skeletal density exhibited by both species under future pCO 2 conditions could reduce their skeletal strength, potentially rendering them more vulnerable to disturbance, and impairing their production of critical habitat in high‐latitude systems.

Topics & Concepts

CrustoseOcean acidificationCoralline algaeLatitudeEffects of global warming on oceansEcologyCarbonateHabitatOceanographyAlgaeGeologyBiologyEnvironmental scienceGlobal warmingClimate changeChemistryOrganic chemistryGeodesyOcean Acidification Effects and ResponsesMarine and coastal plant biologyCoral and Marine Ecosystems Studies