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Autores principales: Kopecky, Kai L, Pavoni, Gaia, Corsini, Massimiliano, Brooks, Andrew J, DiFiore, Bartholomew P, Menna, Fabio, Nocerino, Erica
Formato: Artículo científico
Lenguaje:en
Publicado: Ecological applications : a publication of the Ecological Society of America 2025
Materias:
Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/40721269/
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author Kopecky, Kai L
Pavoni, Gaia
Corsini, Massimiliano
Brooks, Andrew J
DiFiore, Bartholomew P
Menna, Fabio
Nocerino, Erica
author_facet Kopecky, Kai L
Pavoni, Gaia
Corsini, Massimiliano
Brooks, Andrew J
DiFiore, Bartholomew P
Menna, Fabio
Nocerino, Erica
Kopecky, Kai L
Pavoni, Gaia
Corsini, Massimiliano
Brooks, Andrew J
DiFiore, Bartholomew P
Menna, Fabio
Nocerino, Erica
collection PubMed - marine biology
contents Removing dead coral after marine heatwaves can mitigate coral-algae competition and increase viable coral recruitment. Kopecky, Kai L Pavoni, Gaia Corsini, Massimiliano Brooks, Andrew J DiFiore, Bartholomew P Menna, Fabio Nocerino, Erica Anthozoa Animals Coral Reefs Seaweed Hot Temperature Ecological disturbance regimes are shifting and leaving behind novel legacies, like the remnant structures of dead foundation species, which have poorly known impacts on ecosystem resilience. We explored how dead coral skeletons produced by marine heatwaves-material legacies of increasingly common disturbances on coral reefs-influence spatial competition between corals and macroalgae, focusing on whether removing dead branching skeletons stimulates recovery of coral after disturbance. Following a marine heatwave, we removed dead skeletons from reef patches and then used underwater photogrammetry and AI-powered image analysis to quantify trajectories of coral and macroalgae. After four years, removal of dead skeletons resulted in 1.6 times more live coral remaining and reduced development of macroalgae by half, relative to patches where skeletons were left intact. Dead skeletons acted as an alternate substrate type that facilitated macroalgae development, and greater macroalgal abundance caused steeper declines in live coral. Lastly, removal of dead skeletons led to five times greater densities of coral recruits on stable (primary) reef substrate than on comparatively unstable branching coral skeletons. Our findings identify a promising avenue to manage for coral resilience (on reefs where carbonate budgets are not in a deficit) and reveal how material legacies of changing disturbance regimes can alter physical environments to sway the outcomes of spatial competition.
format Artículo científico
id pubmed_40721269
institution PubMed
language en
publishDate 2025
publisher Ecological applications : a publication of the Ecological Society of America
record_format pubmed
spellingShingle Removing dead coral after marine heatwaves can mitigate coral-algae competition and increase viable coral recruitment.
Kopecky, Kai L
Pavoni, Gaia
Corsini, Massimiliano
Brooks, Andrew J
DiFiore, Bartholomew P
Menna, Fabio
Nocerino, Erica
Anthozoa
Animals
Coral Reefs
Seaweed
Hot Temperature
Removing dead coral after marine heatwaves can mitigate coral-algae competition and increase viable coral recruitment. Kopecky, Kai L Pavoni, Gaia Corsini, Massimiliano Brooks, Andrew J DiFiore, Bartholomew P Menna, Fabio Nocerino, Erica Anthozoa Animals Coral Reefs Seaweed Hot Temperature Ecological disturbance regimes are shifting and leaving behind novel legacies, like the remnant structures of dead foundation species, which have poorly known impacts on ecosystem resilience. We explored how dead coral skeletons produced by marine heatwaves-material legacies of increasingly common disturbances on coral reefs-influence spatial competition between corals and macroalgae, focusing on whether removing dead branching skeletons stimulates recovery of coral after disturbance. Following a marine heatwave, we removed dead skeletons from reef patches and then used underwater photogrammetry and AI-powered image analysis to quantify trajectories of coral and macroalgae. After four years, removal of dead skeletons resulted in 1.6 times more live coral remaining and reduced development of macroalgae by half, relative to patches where skeletons were left intact. Dead skeletons acted as an alternate substrate type that facilitated macroalgae development, and greater macroalgal abundance caused steeper declines in live coral. Lastly, removal of dead skeletons led to five times greater densities of coral recruits on stable (primary) reef substrate than on comparatively unstable branching coral skeletons. Our findings identify a promising avenue to manage for coral resilience (on reefs where carbonate budgets are not in a deficit) and reveal how material legacies of changing disturbance regimes can alter physical environments to sway the outcomes of spatial competition.
title Removing dead coral after marine heatwaves can mitigate coral-algae competition and increase viable coral recruitment.
topic Anthozoa
Animals
Coral Reefs
Seaweed
Hot Temperature
url https://pubmed.ncbi.nlm.nih.gov/40721269/