Physiological responses of the symbiotic shrimp **Ancylocaris brevicarpalis** and its host sea anemone *Stichodactyla haddoni** to ocean acidification

Abstract: In this study, the physiology of symbiotic 'peacock-tail' shrimp Ancylocaris brevicarpalis and its host 'Haddon's carpet' sea anemone Stichodactyla haddoni were tested under lowered pH (7.7) and control (8.1) conditions. The biochemical responses such as digestive...

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Bibliographic Details
Published in:Marine Pollution Bulletin
Main Authors: Prakash, Sanjeevi, Kumar, Amit, Okla, Mohammad K., Ahmad, ALhimadi, Zahid, Khorshid Abbas, Al-ghamdi, Abdullah A., Beemster, Gerrit, Abd Elgawad, Hamada
Format: Article in Journal/Newspaper
Language:English
Published: 2022
Subjects:
Chemistry
Biology
Peacock
Ocean acidification
Online Access:https://hdl.handle.net/10067/1887020151162165141
Description
Summary:Abstract: In this study, the physiology of symbiotic 'peacock-tail' shrimp Ancylocaris brevicarpalis and its host 'Haddon's carpet' sea anemone Stichodactyla haddoni were tested under lowered pH (7.7) and control (8.1) conditions. The biochemical responses such as digestive enzyme (AP), organic acids (lactate and succinate), oxidative damages (MDA), antioxidants metabolites/enzymes (ASC, GSH, SOD, CAT, APX, GPX, GR, POX, and PHOX), and detoxification enzyme (GST) were measured. The AP showed insignificantly reduced values in both the organisms in lowered pH conditions compared to control indicating the effect of abiotic stress. The hierarchical clustering analysis indicated low MDA in sea anemone can be explained by higher POX, APX, GR, ASC, and GSH levels compared to shrimps. However, the detoxification enzyme GST showed less activity in sea anemones compared to shrimps. The results suggest that A. brevicarpalis and sea anemone S. haddoni may have deleterious effects when exposed to short-term acidification stress.

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