Microbiomes of a disease-resistant genotype of Acropora cervicornis are resistant to acute, but not chronic, nutrient enrichment

Klinges, J. Grace; Patel, Shalvi H; Duke, William C; Muller, Erinn M.; Thurber, Rebecca L. Vega

doi:10.1038/s41598-023-30615-x

Cited by 3 publications

(4 citation statements)

References 75 publications

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“…To test the impacts of nutrient enrichment on A. cervicornis health and microbiome community function, a six-week tank experiment was conducted as previously described (24,27) at the Mote Marine Laboratory International Center for Coral Reef Research & Restoration (24°39'41.9"N, 81°27'15.5"W) in Summerland Key, Florida from April to June 2019. The experiment was conducted in 4.7 L flow-through, temperature-controlled aquaria with natural locally-sourced sea water from the Atlantic side of the Keys.…”

Section: Experimental Design and Sample Collectionmentioning

confidence: 99%

“…A. rohweri specific marker gene) revealed that 'Ca.' A. rohweri responded positively to nutrient enrichment in both host genotypes, however it remained at low relative abundances in the disease-resistant genotype, ML-7 (<0.5% of the total bacterial community) (24). In the disease-susceptible genotype, M-50, 'Ca.'…”

Section: Introductionmentioning

confidence: 96%

“…A. rohweri (89.7%), while 'Ca.' A. rohweri makes up a minor constituent of disease resistant microbiomes (2.5%) (18,19,24). Further, 'Ca.'…”

Section: Introductionmentioning

confidence: 99%

“…Recently, we performed a manipulative tank experiment to disentangle the individual and combined impacts of eutrophication on 'Ca.' A. rohweri abundance within A. cervicornis microbiomes (24,27). We exposed a disease susceptible A. cervicornis genotype (ML-50) and a disease resistant A. cervicornis genotype (ML-7), to elevated levels of nitrate, ammonium, phosphate, or a combination of the three for six weeks and evaluated microbiome composition and host fitness.…”

Section: Introductionmentioning

confidence: 99%

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Nutrient enrichment alters gene expression in ‘Ca.’Aquarickettsia rohweri, promoting parasite expansion and horizontal transmission

Speare¹,

Klinges²,

Duke³

et al. 2023

Preprint

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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 microbial disease. Key species like coralAcropora cervicornis, are now considered critically endangered, prompting researchers to focus on scientific endeavors to identify factors that influence 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,′Ca.′Aquarickettsia rohweri which proliferates in vivo under nutrient enrichment. Yet how nutrients influence parasite physiology and life history strategies within its host are unknown. We performed microscopy and transcriptomic analyses of′Ca.′A. rohweri populations during a 6–week nutrient exposure experiment. Microscopy showed that this parasite was abundant in coral tissue and densely packed in mucocytes prior to nutrient enrichment.′Ca.′A. rohweri energy scavenging genes and those potentially involved in this habitat transition are significantly upregulated during enrichment. Specifically, transcripts involved in signaling, virulence, two-component systems, and nutrient import genes are elevated under higher nutrients. These data support the predicted role of′Ca.′A. rohweri as a highly active nutrient-responsiveA. cervicornisparasite, and provide a glimpse at the mechanism of induced disease susceptibility while implicating nutrient exposure in its horizontal transmission.

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Section: Experimental Design and Sample Collectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 96%

“…A. rohweri (89.7%), while 'Ca.' A. rohweri makes up a minor constituent of disease resistant microbiomes (2.5%) (18,19,24). Further, 'Ca.'…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Nutrient enrichment alters gene expression in ‘Ca.’Aquarickettsia rohweri, promoting parasite expansion and horizontal transmission

Speare¹,

Klinges²,

Duke³

et al. 2023

Preprint

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Efficiency comparison of DNA extraction kits for analysing the cockle gut bacteriome

Lourenço,

Almeida,

Soares

et al. 2024

Heliyon

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Antibiotic type and dose variably affect microbiomes of a disease-resistant Acropora cervicornis genotype

Patton,

Silva,

Fuques

et al. 2024

Preprint

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Background As coral diseases become more prevalent and frequent, the need for new intervention strategies also increases to counteract the rapid spread of disease. Recent advances in coral disease mitigation have resulted in increased use of antibiotics on reefs, as their application may halt disease lesion progression. Although efficacious, consequences of deliberate microbiome manipulation resulting from antibiotic administration are less well-understood – especially in non-diseased corals that appear visually healthy. Therefore, to understand how healthy corals are affected by antibiotics, we investigated how three individual antibiotics, and a mixture of the three, impact the microbiome structure and diversity of a disease-resistant Caribbean staghorn coral (Acropora cervicornis) genotype. Over a 96-hour, aquarium-based antibiotic exposure experiment, we collected and processed coral tissue and water samples for 16S rRNA gene analysis. Results We found that antibiotic type and dose distinctively impact microbiome alpha diversity, beta diversity, and community composition. In experimental controls, microbiome composition was dominated by an unclassified bacterial taxon from the order Campylobacterales, while each antibiotic treatment significantly reduced the relative abundance of this taxon. Those taxa that persisted following antibiotic treatment largely differed by antibiotic type and dose, thereby indicating that antibiotic treatment may result in varying potential for opportunist establishment. Conclusion Together, these data suggest that antibiotics induce microbiome dysbiosis – hallmarked by the loss of a dominant bacterium and the increase in taxa associated with coral stress responses. Understanding the off-target consequences of antibiotic administration is critical not only for informed, long-term coral restoration practices, but also for highlighting the importance of responsible antibiotic dissemination into natural environments.

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Microbiomes of a disease-resistant genotype of Acropora cervicornis are resistant to acute, but not chronic, nutrient enrichment

Cited by 3 publications

References 75 publications

Nutrient enrichment alters gene expression in ‘Ca.’Aquarickettsia rohweri, promoting parasite expansion and horizontal transmission

Nutrient enrichment alters gene expression in ‘Ca.’Aquarickettsia rohweri, promoting parasite expansion and horizontal transmission

Efficiency comparison of DNA extraction kits for analysing the cockle gut bacteriome

Antibiotic type and dose variably affect microbiomes of a disease-resistant Acropora cervicornis genotype

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