# Centennial-scale gaps in a 5500-year acroporid growth trajectory from a Caribbean coral reef

**Authors:** Alexis Medina-Valmaseda, Paul Blanchon, Juan Pablo Bernal, Edlin Guerra-Castro, Liliana Corona-Martinez, Alexander Correa-Metrio

PMC · DOI: 10.1098/rsos.250363 · Royal Society Open Science · 2025-07-30

## TL;DR

This study shows that acroporid corals in the Caribbean have experienced long gaps in growth over thousands of years, but their recent decline is unprecedented and likely to persist without restoration.

## Contribution

The study provides a 5500-year reconstruction of acroporid coral growth, revealing centennial-scale gaps linked to hurricanes and slow recovery.

## Key findings

- Acroporid growth was punctuated by centennial-scale gaps coinciding with hurricane-frequency anomalies.
- Recolonization of acroporids after devastation took hundreds of years due to impaired sexual recruitment and substrate deterioration.
- The regional constancy of acroporid decline confirms their recent demise is unprecedented in the last 14,000 years.

## Abstract

Persistence of acroporid-dominated assemblages on Caribbean reefs throughout the Holocene and late Pleistocene implies that their rapid regional demise over the last 50 years is unprecedented. However, the palaeoecological trajectory of acroporid growth is largely unknown. Here, we reconstruct a 5500-year acroporid trajectory from a hurricane-prone fringing reef off the northeast Yucatan coast and find that growth is not constant but punctuated by centennial-scale gaps. Local coastal archives show these gaps coincide with hurricane-frequency anomalies, which is consistent with local extirpation of acroporids following intense hurricane strikes. On each devastated reef, acroporids took hundreds of years to recolonize their former habitat, probably owing to naturally impaired sexual recruitment combined with substrate deterioration. By comparing trajectories across the Caribbean, we show that extirpation-recolonization events occur at different times between reefs, so gaps do not coincide. The resulting regional constancy of this palaeoecological baseline affirms that the historical demise of acroporids is unprecedented over the last 14 000 years and portends their absence on degraded reefs for hundreds of years into the future unless mitigated by restoration.

## Full-text entities

- **Diseases:** pits (MESH:C536528), skeletal damage (MESH:C535850)
- **Chemicals:** 238U (MESH:D014501), Th (MESH:D013910), Uraninite (-), 233U (MESH:C000615174), 230Th (MESH:C000615163), 232Th (MESH:C000615164), 234U (MESH:C000615175)
- **Species:** Porites astreoides (species) [taxon 104758], Acropora cervicornis (staghorn coral, species) [taxon 6130], Siderastrea siderea (massive starlet coral, species) [taxon 130672], Dendrogyra cylindrus (species) [taxon 214965], Homo sapiens (human, species) [taxon 9606], Orbicella faveolata (species) [taxon 48498], Pseudodiploria strigosa (species) [taxon 1428006], Colpophyllia natans (boulder brain coral, species) [taxon 242718], Acropora palmata (elkhorn coral, species) [taxon 6131]

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12307057/full.md

## References

81 references — full list in the complete paper: https://tomesphere.com/paper/PMC12307057/full.md

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Source: https://tomesphere.com/paper/PMC12307057