2019
DOI: 10.1111/rec.13069
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Symbiodiniaceae probiotics for use in bleaching recovery

Abstract: Coral reefs are currently under threat as a consequence of local and global stressors, in particular, mass coral bleaching induced by climate warming. In conjunction with global cuts to carbon emissions, active restoration interventions are being investigated as an additional option to buy time while these stressors are mitigated. One intervention with the potential to improve recovery during or postbleaching involves the addition of probiotic treatments, that is the addition of microorganisms that provide ben… Show more

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Cited by 44 publications
(46 citation statements)
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“…Coral-Symbiodiniaceae partnerships have been increasingly disrupted over the past four decades, resulting in coral reef decline [ 28 , 67 ]. To help corals tolerate stress and mitigate reef degradation [ 47 ], probiotic solutions of beneficial Symbiodiniaceae [ 42 ] and bacteria [ 55 ] are currently being developed. We show that corallivores egest feces containing high densities of live Symbiodiniaceae cells directly onto corals.…”
Section: Resultsmentioning
confidence: 99%
“…Coral-Symbiodiniaceae partnerships have been increasingly disrupted over the past four decades, resulting in coral reef decline [ 28 , 67 ]. To help corals tolerate stress and mitigate reef degradation [ 47 ], probiotic solutions of beneficial Symbiodiniaceae [ 42 ] and bacteria [ 55 ] are currently being developed. We show that corallivores egest feces containing high densities of live Symbiodiniaceae cells directly onto corals.…”
Section: Resultsmentioning
confidence: 99%
“…Coral-Symbiodiniaceae partnerships have been increasingly disrupted over the past four decades, resulting in coral reef decline (Hughes et al, 2017; Wilkinson, 2008). To help corals tolerate stress and mitigate reef degradation (Peixoto et al, 2017), probiotic solutions of beneficial Symbiodiniaceae (Morgans et al, 2020) and bacteria (Rosado et al, 2019) are currently being developed. We show that corallivores egest feces containing high densities of live Symbiodiniaceae cells directly onto corals.…”
Section: Resultsmentioning
confidence: 99%
“…Unravelling the significance of the associated bacteria on Symbiodiniaceae health and functional diversity provides a conceptual shift in the factors determining the resilience of coral reef organisms to survive in a changing ocean, with wider implications for understanding algal–microbial interactions in extreme environments. We argue that systematic study of bacterial‐Symbiodiniaceae interactions is crucial, not least because a detailed understanding of the associated bacterial functions is imperative for conservation and restoration approaches leveraging the microbiome to alter host phenotype (van Oppen et al ., ; Peixoto et al ., ; Morgans et al ., ). Addressing these critical gaps in our knowledge is only now possible as a result of technological advances allowing for the manipulation of Symbiodiniaceae‐bacterial assemblages, and for examination of microorganism metabolic interactions.…”
Section: Discussionmentioning
confidence: 97%