Decadal Changes in Benthic Community Structure and Function in a Coral Community in the Northeastern Tropical Pacific

The high diversity and biomass of organisms associated with coral communities depend directly on the maintenance or changes in the benthic composition. Over a decade, we evaluated the spatiotemporal variation in the benthic structure and composition of an insular coral community in the Northeastern...

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Bibliographic Details
Published in:Diversity (Basel) 2024-07, Vol.16 (7), p.372
Main Authors: de Alba-Guzmán, Cassandra, Cabral-Tena, Rafael Andrés, Rodríguez-Zaragoza, Fabián Alejandro, Tortolero-Langarica, José de Jesús Adolfo, Cupul-Magaña, Amílcar Leví, Rodríguez-Troncoso, Alma Paola
Format: Article
Language:English
Subjects:
Algae
benthic ecology
benthic organisms
Biomass
Cold
Community composition
Community structure
Composition
coral community
Coral reefs
Corals
Ecological function
Ecosystems
El Nino
El Niño Southern Oscillation
Fishes
habitats
Heterogeneity
High temperature
La Nina
Mexican Pacific
Mortality
Salinity
Scleractinia
Southern Oscillation
structural metrics
Structure-function relationships
Temperature
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Summary:The high diversity and biomass of organisms associated with coral communities depend directly on the maintenance or changes in the benthic composition. Over a decade, we evaluated the spatiotemporal variation in the benthic structure and composition of an insular coral community in the Northeastern Tropical Pacific. Our results show that local conditions drive spatiotemporal differences, and benthic organisms such as sponges, crustose coralline algae, octocorals, and hydrocorals all increased in abundance (cover) in response to negative thermal anomalies caused by the 2010–2011 La Niña event. In contrast, abnormally high temperatures, such as those recorded during the 2015–2016 El Niño Southern Oscillation (ENSO) event, explain the loss of scleractinian corals and crustose coralline algae coverage, which reduced the benthic groups’ richness (BGR), diversity (H’BG), and evenness (J’BG), with evidence of a consequent decrease in ecosystem function recorded the following year. Our analysis also showed that sites with high habitat heterogeneity harbored higher average BRG and H’BG values and were less affected by environmental fluctuations than sites with high live scleractinian coral cover and lower BRG and H’BG values. Therefore, the benthic structure was impacted differently by the same perturbation, and changes in the benthic community composition affected the groups associated with the community and ecological functions. More importantly, regional stressors such as the ENSO event caused only temporary changes in the benthic community structure, demonstrating the high resilience of the community to annual and interannual stressors.
ISSN:1424-2818
1424-2818
DOI:10.3390/d16070372