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Authors Speare

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Speare, Lauren


Publications
2

CitationNamesAbstract
A dominant coral parasite, Candidatus Aquirickettsia rohweri, resists antibiotic exposure and thermal challenge below the bleaching threshold in disease-susceptible Acropora cervicornis Patton et al. (2026). “Aquirickettsia rohweri”
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Evaluating Candidatus Aquirickettsia rohweri gene expression upon nutrient enrichment in disease-susceptible Acropora cervicornis Speare et al. (2026). Frontiers in Microbiology 17 “Aquirickettsia rohweri”
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A dominant coral parasite, Candidatus Aquirickettsia rohweri, resists antibiotic exposure and thermal challenge below the bleaching threshold in disease-susceptible Acropora cervicornis
The critically endangered Caribbean staghorn coral Acropora cervicornis hosts microbiomes frequently dominated by the putatively parasitic intracellular bacterium Candidatus Aquirickettsia rohweri, which is associated with reduced coral growth and heightened disease susceptibility. Whether this dominance can be disrupted through antibiotic treatment and a sequential disturbance of thermal stress, remains unknown. In this study, we exposed disease-susceptible A. cervicornis fragments to broad-spectrum antibiotics, sub-bleaching thermal stress, or the combination of an antibiotic pre-treatment followed by thermal stress, and tracked changes in microbiome composition and diversity across all experimental phases using 16S rRNA amplicon sequencing and quantitative PCR (qPCR). We find that while the minor microbial fraction exhibits sustained compositional shifts in response to treatment, Ca. Aquirickettsia rohweri is resilient to antibiotic and thermal perturbation and may in fact increase in abundance following antibiotic exposure, suggesting that its dominance is actively maintained and not readily displaced by current disease mitigation strategies.These results indicate that antibiotic intervention is unlikely to be a viable strategy for disrupting Ca. A. rohweri dominance in disease-susceptible A. cervicornis, underscoring the urgency of understanding its transmission routes to inform microbiome rescue efforts.
Evaluating Candidatus Aquirickettsia rohweri gene expression upon nutrient enrichment in disease-susceptible Acropora cervicornis
Ocean warming, disease, and pollution have contributed to global declines in coral abundances and diversity. In the Caribbean, corals previously dominated reefs, providing an architectural framework for diverse ecological habitats, but have significantly declined due to infectious disease and anthropogenic climate change. Key species like the coral Acropora cervicornis are critically endangered, prompting researchers to focus on scientific endeavors to identify factors influencing coral disease resistance and resilience. We previously showed that disease susceptibility, growth rates, and bleaching risk were all associated with the abundance of a single bacterial parasite, Candidatus Aquirickettsia rohweri which proliferates in vivo under nutrient enrichment. Yet how nutrients influence parasite physiology in vivo remains unknown. Here, we analyzed parasite gene expression from a disease-susceptible A. cervicornis genotype exposed to ambient or nutrient enrichment conditions. Electron microscopy showed that Ca. A. rohweri was abundant in coral tissue and densely packed in mucocytes prior to nutrient enrichment. Under ambient conditions, the parasite upregulated genes involved in translation, protein maintenance, and cell envelope integrity, consistent with a conserve-and-maintain strategy. Nutrient enrichment induced expression of genes associated with central metabolism, nutrient import, stress response, host interaction, and two-component systems. Together, these results indicate that nutrient enrichment activates a growth-and-exploitation strategy, likely exacerbating parasitic pressure on A. cervicornis .
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