AI Article Synopsis
- Ocean acidification (OA) poses a threat to marine life, particularly affecting calcifying invertebrates like cockles (Anadara antiquata), but little research exists on its impact along the Kenya Coast.
- The study analyzed the physiological and biochemical responses of Anadara antiquata to varying pH levels (7.90, 7.60, and 7.30) over an 8-week period to simulate future ocean conditions.
- Findings revealed that while condition index remained stable across pH levels, survival slightly decreased at pH 7.30, and there were minor changes in lipid peroxidation, suggesting some cellular damage, but glycogen and protein levels remained unaffected, highlighting potential biomarkers for assessing OA impacts.
Article Abstract
Ocean acidification (OA) is becoming a potential threat to marine organisms, especially in calcifying marine invertebrates. So far, along the Kenya Coast, there has been little research on the impact of OA on cockle (Anadara antiquata), particularly on their physiological impacts induced by exposure to acidified seawater. Hence, this study aimed to investigate the physiological and biochemical responses of Anadara antiquata under present and future predicted seawater pH. In this study, the Anadara antiquata was exposed to three pH treatments (pH 7.90, 7.60, and 7.30) for 8 weeks to mimic future OA and to understand the physiological and biochemical effects on the organisms. Condition index, energy reserves (glycogen and protein), and cellular damage (e.g., lipid peroxidation level) were measured. Condition index (CI) showed no significant difference at different pH treatments (pH 7.90, 7.60, and 7.30), whereas the survival Anadara antiquata was slightly reduced after 8 weeks of exposure to pH 7.30. Glycogen and protein content were not affected at reduced pH (7.60 and 7.30). However, after 8 weeks of exposure to pH 7.60 and 7.30, Anadara antiquata showed a slight decrease in lipid peroxidation, an indication of cellular damage. The physiological and biochemical parameters analyzed (glycogen and protein content; lipid peroxidation levels) showed useful biomarkers to assess ocean acidification impacts in cockle.
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| http://dx.doi.org/10.1016/j.marpolbul.2023.115500 | DOI Listing |
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Article Synopsis
- Ocean acidification (OA) poses a threat to marine life, particularly affecting calcifying invertebrates like cockles (Anadara antiquata), but little research exists on its impact along the Kenya Coast.
- The study analyzed the physiological and biochemical responses of Anadara antiquata to varying pH levels (7.90, 7.60, and 7.30) over an 8-week period to simulate future ocean conditions.
- Findings revealed that while condition index remained stable across pH levels, survival slightly decreased at pH 7.30, and there were minor changes in lipid peroxidation, suggesting some cellular damage, but glycogen and protein levels remained unaffected, highlighting potential biomarkers for assessing OA impacts.
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