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Unveiling the Risks of Selective Adaptation

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Researchers investigated ‘super corals’ to understand their potential in countering the effects of climate change on coral reefs. The study reveals that while ‘super corals’ show significant resilience, this adaptation comes at a cost, including reduced genetic diversity and skeletal compromises. These discoveries challenge existing notions about coral resilience and underline the importance of considering genetic diversity and adaptability in restoration efforts.

Scientists are studying ‘super corals’ as a potential solution to climate change effects on coral reefs. Despite demonstrating resilience, ‘super corals’ also show reduced genetic diversity and skeletal compromises, highlighting the need for careful consideration in coral restoration efforts.

Resilient corals, often referred to as ‘super corals’, have recently been seen as potential saviors in the face of climate change and its detrimental effects on coral reefs.

Now, a team of scientists from the University of Technology Sydney (UTS) and the University of Haifa, Israel is working to better understand these corals in order to develop strategies to protect fragile ecosystems such as the Great Barrier Reef.

UTS scientist Dr. Emma Camp, co-lead researcher on the study published today (July 28) in the journal Nature Communications, says the findings have significant implications for the future survival and suitability of these resilient corals in restoration projects.

“Understanding the mechanisms by which corals adapt and survive in extreme habitats is crucial for developing effective conservation strategies,” says Dr Camp.

Coral Species Porites lutea in Mangrove Swamp

UTS researchers have previously discovered the coral species ‘Porites lutea’ thrives in both mangrove and reef sites. Credit: Emma Camp

Focus on Reef-Building Corals

The study primarily focuses on the reef-building coral species Porites lutea which UTS researchers have previously discovered thrives in both mangrove and reef sites.

Mangrove lagoons are characterized by hostile conditions similar to future climate predictions for coral reefs: the water is warmer, more acidic, and has lower oxygen levels.

Risks Associated With Adaptation

“While the discovery of ‘super corals’ in mangrove lagoons initially appeared promising, our research highlights potential risks associated with selective adaptation, including reduced genetic diversity and compromised skeletal properties.”

The corals residing in mangrove lagoons, which experience significant variations in multiple environmental conditions, display stress-tolerance traits.

However, these adaptations come at a cost: one notable discovery was the reduction in genetic diversity and gene expression variability among mangrove corals.

Survival Limitations and Structural Changes

Professor Tali Mass, co-lead researcher on the study from the University of Haifa said, “While this allows them to survive in the current harsh conditions, it may limit their ability to cope with future environmental stressors”.

The study also discovered alterations in the skeletal structure of Porites lutea found in mangrove lagoons.

These corals exhibited increased porosity and reduced density, potentially compromising their long-term survival if relocated to high wave sites.

Dr. Camp says the findings challenge existing notions surrounding the resilience of corals.

“While there is little doubt that ‘super corals’ have a role to play in coral restoration programs, maintaining genetic diversity and carefully consideration of the suitability of corals adapted to extreme environments is vital when planning restoration efforts,” she said.

Researchers from UTS are now studying how best to integrate ‘super corals’ in activities of the Coral Nurture Program to maintain genetic diversity and minimize risk.

Reference: “The role and risks of selective adaptation in extreme coral habitats” 28 July 2023, Nature Communications.
DOI: 10.1038/s41467-023-39651-7




Ocean Coral Reef

Researchers investigated ‘super corals’ to understand their potential in countering the effects of climate change on coral reefs. The study reveals that while ‘super corals’ show significant resilience, this adaptation comes at a cost, including reduced genetic diversity and skeletal compromises. These discoveries challenge existing notions about coral resilience and underline the importance of considering genetic diversity and adaptability in restoration efforts.

Scientists are studying ‘super corals’ as a potential solution to climate change effects on coral reefs. Despite demonstrating resilience, ‘super corals’ also show reduced genetic diversity and skeletal compromises, highlighting the need for careful consideration in coral restoration efforts.

Resilient corals, often referred to as ‘super corals’, have recently been seen as potential saviors in the face of climate change and its detrimental effects on coral reefs.

Now, a team of scientists from the University of Technology Sydney (UTS) and the University of Haifa, Israel is working to better understand these corals in order to develop strategies to protect fragile ecosystems such as the Great Barrier Reef.

UTS scientist Dr. Emma Camp, co-lead researcher on the study published today (July 28) in the journal Nature Communications, says the findings have significant implications for the future survival and suitability of these resilient corals in restoration projects.

“Understanding the mechanisms by which corals adapt and survive in extreme habitats is crucial for developing effective conservation strategies,” says Dr Camp.

Coral Species Porites lutea in Mangrove Swamp

UTS researchers have previously discovered the coral species ‘Porites lutea’ thrives in both mangrove and reef sites. Credit: Emma Camp

Focus on Reef-Building Corals

The study primarily focuses on the reef-building coral species Porites lutea which UTS researchers have previously discovered thrives in both mangrove and reef sites.

Mangrove lagoons are characterized by hostile conditions similar to future climate predictions for coral reefs: the water is warmer, more acidic, and has lower oxygen levels.

Risks Associated With Adaptation

“While the discovery of ‘super corals’ in mangrove lagoons initially appeared promising, our research highlights potential risks associated with selective adaptation, including reduced genetic diversity and compromised skeletal properties.”

The corals residing in mangrove lagoons, which experience significant variations in multiple environmental conditions, display stress-tolerance traits.

However, these adaptations come at a cost: one notable discovery was the reduction in genetic diversity and gene expression variability among mangrove corals.

Survival Limitations and Structural Changes

Professor Tali Mass, co-lead researcher on the study from the University of Haifa said, “While this allows them to survive in the current harsh conditions, it may limit their ability to cope with future environmental stressors”.

The study also discovered alterations in the skeletal structure of Porites lutea found in mangrove lagoons.

These corals exhibited increased porosity and reduced density, potentially compromising their long-term survival if relocated to high wave sites.

Dr. Camp says the findings challenge existing notions surrounding the resilience of corals.

“While there is little doubt that ‘super corals’ have a role to play in coral restoration programs, maintaining genetic diversity and carefully consideration of the suitability of corals adapted to extreme environments is vital when planning restoration efforts,” she said.

Researchers from UTS are now studying how best to integrate ‘super corals’ in activities of the Coral Nurture Program to maintain genetic diversity and minimize risk.

Reference: “The role and risks of selective adaptation in extreme coral habitats” 28 July 2023, Nature Communications.
DOI: 10.1038/s41467-023-39651-7

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