Scleractinian Corals at Their Subtropical Southwestern Atlantic Limit: Post‐2019 Mass Bleaching Event Analysis

ABSTRACT Thermal anomalies caused by climate change have emerged as a major threat to reef ecosystems globally. While the effects of warming oceans have been extensively investigated in tropical reefs, its effects on subtropical reefs, where coral diversity is lower, remain largely unstudied. We ana...

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Published inAquatic conservation Vol. 34; no. 12
Main Authors Roos, Natália C., Longo, Pedro A. S., Ilieva, Jéssica R., Motta, Fábio S., Pereira‐Filho, Guilherme H.
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.12.2024
Subjects
Alcatrazes Archipelago Wildlife Refuge
Anomalies
Archipelagoes
Astrangia
Bleaching
Brazil
Climate change
coasts
Coral bleaching
Coral reefs
Corals
Dominant species
freshwater
Habitat changes
health status
Heat waves
Madracis decactis
Marine ecosystems
Marine heatwaves
Marine invertebrates
Marine protected areas
Mussismilia hispida
Ocean temperature
Ocean warming
Oceans
Protected areas
Reefs
Spatial analysis
Spatial distribution
species
Subtropical corals
Tubastraea
Brazil
Online AccessGet full text
ISSN1052-7613
1099-0755
DOI10.1002/aqc.70031

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Abstract ABSTRACT Thermal anomalies caused by climate change have emerged as a major threat to reef ecosystems globally. While the effects of warming oceans have been extensively investigated in tropical reefs, its effects on subtropical reefs, where coral diversity is lower, remain largely unstudied. We analysed the spatial distribution, mean cover and health status of scleractinian corals in the subtropical rocky reefs of the Alcatrazes Archipelago, a no‐take marine protected area located 30 km off the coast of São Paulo state, Brazil (24° S). Data were collected before (2018) and after (2022) the most intense marine heatwave ever recorded in the region, in 2019, using either fixed or random photoquadrats. Five scleractinian corals were recorded as follows: The zooxanthellate massive species Mussismilia hispida and Madracis decactis, the azooxanthellate solitary corals Astrangia spp. and Coenocyathus sebroecki and the invasive sun coral Tubastraea spp. M. hispida and M. decactis were the most abundant species, particularly in the sheltered sites, while Astrangia spp. and C. sebroecki were less abundant and only recorded in the exposed side of the island. In the single site where Tubastraea spp. colonies prevailed, other coral species were nearly absent. Both M. hispida and M. decactis exhibited resilience to the 2019's bleaching event, with their abundance remaining almost the same in 2022. Our findings add evidences to the emerging idea that subtropical reefs in the southwestern Atlantic may serve as refuges during future thermal anomalies, highlighting the importance of monitoring these reefs in the context of changing habitats driven by warming oceans.
AbstractList ABSTRACT Thermal anomalies caused by climate change have emerged as a major threat to reef ecosystems globally. While the effects of warming oceans have been extensively investigated in tropical reefs, its effects on subtropical reefs, where coral diversity is lower, remain largely unstudied. We analysed the spatial distribution, mean cover and health status of scleractinian corals in the subtropical rocky reefs of the Alcatrazes Archipelago, a no‐take marine protected area located 30 km off the coast of São Paulo state, Brazil (24° S). Data were collected before (2018) and after (2022) the most intense marine heatwave ever recorded in the region, in 2019, using either fixed or random photoquadrats. Five scleractinian corals were recorded as follows: The zooxanthellate massive species Mussismilia hispida and Madracis decactis, the azooxanthellate solitary corals Astrangia spp. and Coenocyathus sebroecki and the invasive sun coral Tubastraea spp. M. hispida and M. decactis were the most abundant species, particularly in the sheltered sites, while Astrangia spp. and C. sebroecki were less abundant and only recorded in the exposed side of the island. In the single site where Tubastraea spp. colonies prevailed, other coral species were nearly absent. Both M. hispida and M. decactis exhibited resilience to the 2019's bleaching event, with their abundance remaining almost the same in 2022. Our findings add evidences to the emerging idea that subtropical reefs in the southwestern Atlantic may serve as refuges during future thermal anomalies, highlighting the importance of monitoring these reefs in the context of changing habitats driven by warming oceans.
Thermal anomalies caused by climate change have emerged as a major threat to reef ecosystems globally. While the effects of warming oceans have been extensively investigated in tropical reefs, its effects on subtropical reefs, where coral diversity is lower, remain largely unstudied. We analysed the spatial distribution, mean cover and health status of scleractinian corals in the subtropical rocky reefs of the Alcatrazes Archipelago, a no‐take marine protected area located 30 km off the coast of São Paulo state, Brazil (24° S). Data were collected before (2018) and after (2022) the most intense marine heatwave ever recorded in the region, in 2019, using either fixed or random photoquadrats. Five scleractinian corals were recorded as follows: The zooxanthellate massive species Mussismilia hispida and Madracis decactis, the azooxanthellate solitary corals Astrangia spp. and Coenocyathus sebroecki and the invasive sun coral Tubastraea spp. M. hispida and M. decactis were the most abundant species, particularly in the sheltered sites, while Astrangia spp. and C. sebroecki were less abundant and only recorded in the exposed side of the island. In the single site where Tubastraea spp. colonies prevailed, other coral species were nearly absent. Both M. hispida and M. decactis exhibited resilience to the 2019's bleaching event, with their abundance remaining almost the same in 2022. Our findings add evidences to the emerging idea that subtropical reefs in the southwestern Atlantic may serve as refuges during future thermal anomalies, highlighting the importance of monitoring these reefs in the context of changing habitats driven by warming oceans.
Author Motta, Fábio S.
Longo, Pedro A. S.
Roos, Natália C.
Ilieva, Jéssica R.
Pereira‐Filho, Guilherme H.
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  givenname: Pedro A. S.
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  surname: Longo
  fullname: Longo, Pedro A. S.
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  givenname: Jéssica R.
  surname: Ilieva
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  organization: Universidade Federal de São Paulo
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Snippet ABSTRACT Thermal anomalies caused by climate change have emerged as a major threat to reef ecosystems globally. While the effects of warming oceans have been...
Thermal anomalies caused by climate change have emerged as a major threat to reef ecosystems globally. While the effects of warming oceans have been...
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SubjectTerms Alcatrazes Archipelago Wildlife Refuge
Anomalies
Archipelagoes
Astrangia
Bleaching
Brazil
Climate change
coasts
Coral bleaching
Coral reefs
Corals
Dominant species
freshwater
Habitat changes
health status
Heat waves
Madracis decactis
Marine ecosystems
Marine heatwaves
Marine invertebrates
Marine protected areas
Mussismilia hispida
Ocean temperature
Ocean warming
Oceans
Protected areas
Reefs
Spatial analysis
Spatial distribution
species
Subtropical corals
Tubastraea
Title Scleractinian Corals at Their Subtropical Southwestern Atlantic Limit: Post‐2019 Mass Bleaching Event Analysis
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Faqc.70031
https://www.proquest.com/docview/3149480645
https://www.proquest.com/docview/3165859028
Volume 34
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