Seawater carbonate chemistry and growth of four North Atlantic bivalves

Coastal ecosystems can experience acidification via upwelling, eutrophication, riverine discharge, and climate change. While the resulting increases in pCO2 can have deleterious effects on calcifying animals, this change in carbonate chemistry may benefit some marine autotrophs. Here, we report on experiments performed with North Atlantic populations of hard clams (Mercenaria mercenaria), eastern oysters (Crassostrea virginica), bay scallops (Argopecten irradians), and blue mussels (Mytilus edulis) grown with and without North Atlantic populations of the green macroalgae, Ulva. In six of seven experiments, exposure to elevated pCO2 levels (  1700 µatm) resulted in depressed shell- and/or tissue-based growth rates of bivalves compared to control conditions, whereas rates were significantly higher in the presence of Ulva in all experiments. In many cases, the co-exposure to elevated pCO2 levels and Ulva had an antagonistic effect on bivalve growth rates whereby the presence of Ulva under elevated pCO2 levels significantly improved their performance compared to the acidification-only treatment. Saturation states for calcium carbonate (Ω) were significantly higher in the presence of Ulva under both ambient and elevated CO2 delivery rates, and growth rates of bivalves were significantly correlated with Omega in six of seven experiments. Collectively, the results suggest that photosynthesis and/or nitrate assimilation by Ulva increased alkalinity, fostering a carbonate chemistry regime more suitable for optimal growth of calcifying bivalves. This suggests that large natural and/or aquacultured collections of macroalgae in acidified environments could serve as a refuge for calcifying animals that may otherwise be negatively impacted by elevated pCO2 levels and depressed Omega.

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Young, Craig S, Gobler, Christopher J (2018). Dataset: Seawater carbonate chemistry and growth of four North Atlantic bivalves. https://doi.org/10.1594/PANGAEA.908103

DOI retrieved: 2018

Additional Info

Field Value
Imported on November 30, 2024
Last update November 30, 2024
License CC-BY-4.0
Source https://doi.org/10.1594/PANGAEA.908103
Author Young, Craig S
Given Name Craig S
Family Name Young
More Authors
Gobler, Christopher J
Source Creation 2018
Publication Year 2018
Resource Type text/tab-separated-values - filename: Young&Gobler_2018_BG
Subject Areas
Name: BiologicalClassification

Name: Chemistry

Name: Ecology

Name: Lithosphere

Related Identifiers
Title: The ability of macroalgae to mitigate the negative effects of ocean acidification on four species of North Atlantic bivalve
Identifier: https://doi.org/10.5194/bg-15-6167-2018
Type: DOI
Relation: IsSupplementTo
Year: 2018
Source: Biogeosciences
Authors: Young Craig S , Gobler Christopher J .

Title: seacarb: seawater carbonate chemistry with R. R package version 3.2.12
Identifier: https://CRAN.R-project.org/package=seacarb
Type: DOI
Relation: References
Year: 2019
Authors: Gattuso Jean-Pierre , Epitalon Jean-Marie , Lavigne Héloïse , Orr James C , Gentili Bernard , Hagens Mathilde , Hofmann Andreas , Mueller Jens-Daniel , Proye Aurélien , Rae James , Soetaert Karline .