Coral reefs worldwide are declining due to high sea surface temperatures, causing coral bleaching and the endosymbiosis rupture between the coral polyps and the unicellular algae Symbiodinaceae. Bleached corals will likely die because Symbiodinaceae algae provide most of the energy coral colonies need. Among the newly developed strategies to prevent coral bleaching is thermal preconditioning, i.e., applying sub-lethal temperature on corals before heat stress, which has shown promising results in slowing coral bleaching. However, the cellular mechanisms that increase heat tolerance by thermal preconditioning are still unknown. This study showed that thermal preconditioning on the coral species Pocillopora damicornis postponed the adverse effects of heat stress-inducing bleaching. Thermal preconditioning was performed by exposing the coral colonies to the sub-lethal temperature of 28°C for one week, after which thermal stress was applied at 31°C for another seven days. We assessed coral bleaching by analyzing the Symbiodinaceae density, taxonomical identification, and chlorophyll concentration (Chl). Moreover, we compared the expression of Heat shock protein 70 (Hsp70), a molecular chaperone involved in cell protein protection, the activity of three antioxidant enzymes such as superoxide dismutase, catalase, and glutathione peroxidase and the lipid peroxidation in preconditioned, non-preconditioned and control colonies. Our results showed that Chl concentration and symbiont density were higher in preconditioned corals than in non-preconditioned corals. In addition, no difference in Symbiodinaceae identity was observed. Then, preconditioned colonies had higher antioxidant enzyme activity and higher expression of Hsp70 compared to non-preconditioned colonies. According to our findings, thermal preconditioning can potentially delay coral bleaching by reducing oxidative stress and ensuring cellular homeostasis. This indicates that thermal preconditioning could be a helpful technique for improving coral colonies' thermal resistance in coral restoration projects across the Maldivian atolls.

Madaschi, A., Louis, Y., Montalbetti, E., Isa, V., Maggioni, D., Bises, C., et al. (2024). Thermal preconditioning delays coral bleaching by stimulating antioxidant response and cellular defense in the Maldivian coral Pocillopora damicornis.. Intervento presentato a: Fifth Maldives Marine Science Symposium 2024, Malè, Maldives.

Thermal preconditioning delays coral bleaching by stimulating antioxidant response and cellular defense in the Maldivian coral Pocillopora damicornis.

Madaschi A;Louis YD;Montalbetti E;Isa V;Maggioni D;Bises C;Cerri F;Gobbato J;Galli P;Montano S;Seveso D
2024

Abstract

Coral reefs worldwide are declining due to high sea surface temperatures, causing coral bleaching and the endosymbiosis rupture between the coral polyps and the unicellular algae Symbiodinaceae. Bleached corals will likely die because Symbiodinaceae algae provide most of the energy coral colonies need. Among the newly developed strategies to prevent coral bleaching is thermal preconditioning, i.e., applying sub-lethal temperature on corals before heat stress, which has shown promising results in slowing coral bleaching. However, the cellular mechanisms that increase heat tolerance by thermal preconditioning are still unknown. This study showed that thermal preconditioning on the coral species Pocillopora damicornis postponed the adverse effects of heat stress-inducing bleaching. Thermal preconditioning was performed by exposing the coral colonies to the sub-lethal temperature of 28°C for one week, after which thermal stress was applied at 31°C for another seven days. We assessed coral bleaching by analyzing the Symbiodinaceae density, taxonomical identification, and chlorophyll concentration (Chl). Moreover, we compared the expression of Heat shock protein 70 (Hsp70), a molecular chaperone involved in cell protein protection, the activity of three antioxidant enzymes such as superoxide dismutase, catalase, and glutathione peroxidase and the lipid peroxidation in preconditioned, non-preconditioned and control colonies. Our results showed that Chl concentration and symbiont density were higher in preconditioned corals than in non-preconditioned corals. In addition, no difference in Symbiodinaceae identity was observed. Then, preconditioned colonies had higher antioxidant enzyme activity and higher expression of Hsp70 compared to non-preconditioned colonies. According to our findings, thermal preconditioning can potentially delay coral bleaching by reducing oxidative stress and ensuring cellular homeostasis. This indicates that thermal preconditioning could be a helpful technique for improving coral colonies' thermal resistance in coral restoration projects across the Maldivian atolls.
poster
Marine Ecology
Bleaching mitigation
Coral Bleaching
Thermal preconditioning
English
Fifth Maldives Marine Science Symposium 2024
2024
2024
open
Madaschi, A., Louis, Y., Montalbetti, E., Isa, V., Maggioni, D., Bises, C., et al. (2024). Thermal preconditioning delays coral bleaching by stimulating antioxidant response and cellular defense in the Maldivian coral Pocillopora damicornis.. Intervento presentato a: Fifth Maldives Marine Science Symposium 2024, Malè, Maldives.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/501419
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