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Original scientific paper

https://doi.org/10.17818/NM/2023/SI1

Potential for acclimation of banded-dye murex, Hexaplex trunculus (Linnaeus, 1758) after long-term exposure to low pH

Sanja Grđan orcid id orcid.org/0000-0002-1706-441X ; University of Dubrovnik, Department of Applied Ecology, Croatia
Sam Dupont ; a) University of Gothenburg, Kristineberg Center for Marine Research and Innovation, Department for Biological and Environmental Sciences, Fiskebäckskil, Sweden, b) Radioecology Laboratory International Atomic Energy Agency (IAEA), Marine Laboratories, Principality of Monaco
Luka Glamuzina ; University of Dubrovnik, Department of Applied Ecology, Croatia
Ana Bratoš Cetinić orcid id orcid.org/0000-0002-2928-4858 ; University of Dubrovnik, Department of Applied Ecology, Croatia


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Abstract

Previous work on ocean acidification highlighted contrasting response between marine species and population. This so-called species-specific response was hypothesized to be partly a consequence of local adaptation to the present range of natural variability in the carbonate chemistry. Under that hypothesis, species tolerance threshold should be correlated to its environmental pH niche. This paper aims to evaluate shell growth rate of Hexaplex trunculus, an important predatory gastropod in benthic communities of Mali Ston Bay. A long-term experiment (310 days) was designed to test a range of pH treatments covering present and future pH levels relevant in the context of future ocean acidification (7.95-7.22 pHT) at the sampling site. Sex had an effect on the shell growth rate irrespective of pH, and was only significant after 236 days. As growth rate in all pH treatments followed seasonal patterns correlating to changes in seawater temperature, the data were divided into 3 time periods. A positive relationship between shell growth rate (SGR, mm day-1) and pH was observed for the period 1-59 days (temperature ranging between 26.5 & 18.8 °C), whereas SGR decreased significantly with pH for the following period (60-236 days, temperature ranging between 20.6 & 8.5 °C). After 236 days (temperature ranging between 27.5 & 14.1 °C), there was no significant difference in SGR among pH. Similar temperature was experienced between the first and third period and the difference in response could be explained as a consequence of an acute negative response versus a longer exposure indicating possible potential for acclimation. Our results highlight the modulating effect of temperature and the importance of long-term experiments to better assess impacts of ocean acidification on marine organisms.

Keywords

ocean acidification; growth rate; shell length; acclimation; Hexaplex trunculus

Hrčak ID:

305106

URI

https://hrcak.srce.hr/305106

Publication date:

30.6.2023.

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