Bacterial Community Associated with the Reef Coral Mussismilia braziliensis's Momentum Boundary Layer over a Diel Cycle

Silveira, Cynthia B.; Gregoracci, Gustavo Bueno; Coutinho, Felipe H.; Silva, Genivaldo G. Z.; Haggerty, John M.; Oliveira, Louisi Souza de; Cabral, Anderson S.; Rezende, Carlos Eduardo de; Thompson, Cristiane C.; Francini‐Filho, Ronaldo B.; Edwards, Robert A.; Dinsdale, Elizabeth A.; Thompson, Fabiano L.

doi:10.3389/fmicb.2017.00784

Cited by 28 publications

(31 citation statements)

References 94 publications

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“…Despite the above findings, a few field-based investigations did not observe differences in the seawater microbial composition or function surrounding corals compared to seawater sampled further away from the reef substrate (e. g. Silveira et al 2017;Walsh et al 2017), demonstrating that there is still much to be learned about potential coral -microbial interactions and the significance of these interactions for pathogen/symbiont recruitment and benthic-pelagic coupling on coral reefs. For example, how do environmental differences between reef locations impact coral-microbial dynamics surrounding individual coral colonies?…”

Section: Near Coral Seawater Microbial Communities and Their Potentiamentioning

confidence: 95%

Characterizing the ecology of coral reef microorganisms across different scales within the Caribbean

Weber¹

2020

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Microorganisms sustain the high productivity of coral reefs and support one of the most diverse, valuable, and threatened ecosystems on Earth. Despite the importance of reef microorganisms, there is a lack of understanding about their ecology, especially on Caribbean reefs. Furthermore, the hastening degradation of reefs due to anthropogenic stressors has made it difficult to understand natural patterns in microbial communities in the context of larger-scale ecosystem changes. Using genomics and metabolomics approaches paired with biogeochemical and physicochemical measurements as well as quantification of cell abundances, this dissertation provides optimized methods for studying the coral microbiome, investigates potential interactions between corals and seawater microorganisms, measures changes in the composition and diversity of reef seawater microorganisms over different spatial and temporal scales, and provides baseline information about microbial ecology, biogeochemistry, and metabolite compositions of a protected and relatively-healthy Cuban coral reef-system to fill these critical knowledge gaps. I found that coral species and reef location influenced the composition of bacteria and archaea within the seawater surrounding coral colonies and this seawater was enriched with microbial colonization and interaction genes, providing evidence of a distinct microbial environment surrounding corals named the coral ecosphere. In a separate study, diel and daily variation superseded spatial variation in terms of influencing shifts in the microbial community. At a larger scale, seawater microbial communities collected from the protected reefsystem of Jardines de la Reina, Cuba had higher alpha diversity and community similarity, lower nutrient concentrations, and higher abundances of picocyanobacteria compared to less protected reef-systems within Los Canarreos, Cuba and the Florida Keys, U.S.A and seawater microbial communities collected from each reef-system were influenced by hydrogeography and environmental gradients. Lastly, the extracellular metabolite composition of reef seawater collected across Jardines de la Reina was highly similar, suggesting homogenous environmental and hydrogeographic conditions across these forereefs. Overall, this dissertation characterizes reef seawater microbial communities across different scales and provides novel, baseline information about a protected and understudied Cuban reef-system, offering critical information about the ecology of reef microorganisms within the Caribbean.Thesis Supervisor: Dr. Amy Apprill Title: Associate Scientist Woods Hole Oceanographic Institution Kelly et al. 2014;, potentially leading to further reef degradation.As a result of these anthropogenic-induced changes, there is a pressing need to address fundamental questions about reef microbial community ecology from relatively healthy reefs to provide baseline information about the composition, diversity, function, and variations of these communities. The goals of this dissertation were to provide crit...

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Section: Near Coral Seawater Microbial Communities and Their Potentiamentioning

confidence: 95%

Characterizing the ecology of coral reef microorganisms across different scales within the Caribbean

Weber¹

2020

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“…Ambient nutrient concentrations have been shown to impact the microbial communities of corals, with local variations from 5-11 imol L-in total nitrogen explaining up to 40% of the taxonomic dissimilarity among dominant genera in a community of the tropical stony coral Mussismilia braZiliensis on a single reef (Silveira et al, 2017). The rate data from the present study do display an apparent correlation with ambient DIN concentrations ( Figure 4.2), although a larger sample size and analysis of the same species across various sites would contribute to explaining this trend more rigorously.…”

Section: Other Variations Among Speciesmentioning

confidence: 99%

Tropical stony corals host diverse microbial nitrogen dynamics

Tamasi¹

2019

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“…Despite collecting large volumes (10 liters) of seawater that may have integrated the microbial heterogeneity that exists at smaller scales, Tout et al () found enrichment of copiotrophic bacteria near the corals, as well as genes used for bacterial motility, chemotaxis, membrane transport, iron acquisition, and metabolism of aromatic compounds in addition to other pathways. In contrast, Silveira et al () did not detect any significant differences in the functional or taxonomic microbial composition between large (80 liters) volume samples of near‐coral seawater (CSW) collected surrounding patches of the coral Mussismilia braziliensis and the water column. A study by Walsh et al () detected differences in the microbial communities of seawater within 5 cm of reef macro‐organisms compared to seawater sampled 3 m off of the reef except for the coral M. braziliensis , similar to the study conducted by Silveira et al ().…”

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confidence: 92%

“…In contrast, Silveira et al () did not detect any significant differences in the functional or taxonomic microbial composition between large (80 liters) volume samples of near‐coral seawater (CSW) collected surrounding patches of the coral Mussismilia braziliensis and the water column. A study by Walsh et al () detected differences in the microbial communities of seawater within 5 cm of reef macro‐organisms compared to seawater sampled 3 m off of the reef except for the coral M. braziliensis , similar to the study conducted by Silveira et al (). Finally, a recent study used syringes (50 mL volume) to sample seawater 0, 5, and 50 cm away from individual colonies of Acropora and Platygyra spp.…”

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confidence: 92%

“…Previous investigations of reef water microbial community dynamics have revealed relationships among the composition of reef macrofauna, the composition and metabolism of bacteria and archaea in reef seawater (RSW), the abundances of heterotrophic bacteria and virulence genes, and coral health (Dinsdale et al ; Kelly et al ; Kelly et al ; Haas et al ). In addition, recent studies have suggested the existence of a previously unrecognized coral‐associated microbial environment: the seawater adjacent to corals (Tout et al ; Silveira et al ; Walsh et al ; Ochsenkuhn et al ).…”

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confidence: 99%

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The coral ecosphere: A unique coral reef habitat that fosters coral–microbial interactions

Weber

González‐Díaz

Armenteros

et al. 2019

Limnology & Oceanography

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Scleractinian corals are bathed in a sea of planktonic and particle‐associated microorganisms. The metabolic products of corals influence the growth and composition of microorganisms, but interactions between corals and seawater microorganisms are underexplored. We conducted a field‐based survey to compare the biomass, diversity, composition, and functional capacity of microorganisms in small‐volume seawater samples collected adjacent to five coral species with seawater collected > 1 m away from the reef substrate on the same reefs. Seawater collected close to corals generally harbored copiotrophic‐type bacteria and its bacterial and archaeal composition was influenced by coral species as well as the local reef environment. Trends in picoplankton abundances were variable and either increased or decreased away from coral colonies based on coral species and picoplankton functional group. Genes characteristic of surface‐attached and potentially virulent microbial lifestyles were enriched in near‐coral seawater compared to reef seawater. There was a prominent association between the coral Porites astreoides and the coral symbiont Endozoicomonas, suggesting recruitment and/or shedding of these cells into the surrounding seawater. This evidence extends our understanding of potential species‐specific and reef site‐influenced microbial interactions that occur between corals and microorganisms within this near‐coral seawater environment that we propose to call the “coral ecosphere.” Microbial interactions that occur within the coral ecosphere could influence recruitment of coral‐associated microorganisms and facilitate the transfer of coral metabolites into the microbial food web, thus fostering reef biogeochemical cycling and a linkage between corals and the water column.

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Bacterial Community Associated with the Reef Coral Mussismilia braziliensis's Momentum Boundary Layer over a Diel Cycle

Cited by 28 publications

References 94 publications

Characterizing the ecology of coral reef microorganisms across different scales within the Caribbean

Characterizing the ecology of coral reef microorganisms across different scales within the Caribbean

Tropical stony corals host diverse microbial nitrogen dynamics

The coral ecosphere: A unique coral reef habitat that fosters coral–microbial interactions

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