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Marine Ecology Progress Series

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MEPS 504:1-11 (2014)  -  DOI: https://doi.org/10.3354/meps10791

FEATURE ARTICLE
Offspring sensitivity to ocean acidification changes seasonally in a coastal marine fish

Christopher S. Murray, Alex Malvezzi, Christopher J. Gobler, Hannes Baumann*

School of Marine & Atmospheric Sciences, 123 Dana Hall, Stony Brook University, Stony Brook, New York 11794, USA
*Corresponding author:

ABSTRACT: Experimental assessments of species vulnerabilities to ocean acidification are rapidly increasing in number, yet the potential for short- and long-term adaptation to high CO2 by contemporary marine organisms remains poorly understood. We used a novel experimental approach that combined bi-weekly sampling of a wild, spawning fish population (Atlantic silverside Menidia menidia) with standardized offspring CO2 exposure experiments and parallel pH monitoring of a coastal ecosystem. We assessed whether offspring produced at different times of the spawning season (April to July) would be similarly susceptible to elevated (~1100 µatm, pHNIST = 7.77) and high CO2 levels (~2300 µatm, pHNIST = 7.47). Early in the season (April), high CO2 levels significantly (p < 0.05) reduced fish survival by 54% (2012) and 33% (2013) and reduced 1 to 10 d post-hatch growth by 17% relative to ambient conditions. However, offspring from parents collected later in the season became increasingly CO2-tolerant until, by mid-May, offspring survival was equally high at all CO2 levels. This interannually consistent plasticity coincided with the rapid annual pH decline in the species’ spawning habitat (mean pH: 1 April/31 May = 8.05/7.67). It suggests that parents can condition their offspring to seasonally acidifying environments, either via changes in maternal provisioning and/or epigenetic transgenerational plasticity (TGP). TGP to increasing CO2 has been shown in the laboratory but never before in a wild population. Our novel findings of direct CO2-related survival reductions in wild fish offspring and seasonally plastic responses imply that realistic assessments of species CO2-sensitivities must control for parental environments that are seasonally variable in coastal habitats.


KEY WORDS: Adaptation · Flax Pond · Growth · Larvae · Menidia menidia · Ocean acidification · Survival · Temperate tidal salt marsh · Transgenerational plasticity


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Cite this article as: Murray CS, Malvezzi A, Gobler CJ, Baumann H (2014) Offspring sensitivity to ocean acidification changes seasonally in a coastal marine fish. Mar Ecol Prog Ser 504:1-11. https://doi.org/10.3354/meps10791

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