AI Article Synopsis
- Large-scale ecological traits can reveal factors influencing coral health and stressors affecting their defenses against biofouling.
- Antimicrofouling defenses in corals, specifically in the Saudi Arabian Red Sea, are crucial for managing biofilm and infection risks, with significant environmental gradients impacting these defenses.
- Findings showed that while microfouling pressure was generally low, increased temperatures led to more mucus release, indicating a balance in antimicrobial strategies that may be challenged by future climate changes and increased bacterial pressures.
Article Abstract
Large scale patterns of ecologically relevant traits may help identify drivers of their variability and conditions beneficial or adverse to the expression of these traits. Antimicrofouling defenses in scleractinian corals regulate the establishment of the associated biofilm as well as the risks of infection. The Saudi Arabian Red Sea coast features a pronounced thermal and nutritional gradient including regions and seasons with potentially stressful conditions to corals. Assessing the patterns of antimicrofouling defenses across the Red Sea may hint at the susceptibility of corals to global change. We investigated microfouling pressure as well as the relative strength of 2 alternative antimicrofouling defenses (chemical antisettlement activity, mucus release) along the pronounced environmental gradient along the Saudi Arabian Red Sea coast in 2 successive years. Microfouling pressure was exceptionally low along most of the coast but sharply increased at the southernmost sites. Mucus release correlated with temperature. Chemical defense tended to anti-correlate with mucus release. As a result, the combined action of mucus release and chemical antimicrofouling defense seemed to warrant sufficient defense against microbes along the entire coast. In the future, however, we expect enhanced energetic strain on corals when warming and/or eutrophication lead to higher bacterial fouling pressure and a shift towards putatively more costly defense by mucus release.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4259301 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0106573 | PLOS |
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