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W4210703580 endingPage "2956" @default.
W4210703580 startingPage "2940" @default.
W4210703580 abstract "Fourteen percent of all living coral, equivalent to more than all the coral on the Great Barrier Reef, has died in the past decade as a result of climate change-driven bleaching. Inspired by the 'oxidative stress theory of coral bleaching', we investigated whether a bacterial consortium designed to scavenge free radicals could integrate into the host microbiome and improve thermal tolerance of the coral model, Exaiptasia diaphana.E. diaphana anemones were inoculated with a consortium of high free radical scavenging (FRS) bacteria, a consortium of congeneric low FRS bacteria, or sterile seawater as a control, then exposed to elevated temperature. Increases in the relative abundance of Labrenzia during the first 2 weeks following the last inoculation provided evidence for temporary inoculum integration into the E. diaphana microbiome. Initial uptake of other consortium members was inconsistent, and these bacteria did not persist either in E. diaphana's microbiome over time. Given their non-integration into the host microbiome, the ability of the FRS consortium to mitigate thermal stress could not be assessed. Importantly, there were no physiological impacts (negative or positive) of the bacterial inoculations on the holobiont.The introduced bacteria were not maintained in the anemone microbiome over time, thus, their protective effect is unknown. Achieving long-term integration of bacteria into cnidarian microbiomes remains a research priority.Microbiome engineering strategies to mitigate coral bleaching may assist coral reefs in their persistence until climate change has been curbed. This study provides insights that will inform microbiome manipulation approaches in coral bleaching mitigation research." @default.
W4210703580 created "2022-02-08" @default.
W4210703580 creator A5001763384 @default.
W4210703580 creator A5009838537 @default.
W4210703580 creator A5085783528 @default.
W4210703580 creator A5086971721 @default.
W4210703580 date "2022-04-01" @default.
W4210703580 modified "2023-10-10" @default.
W4210703580 title "Exploring microbiome engineering as a strategy for improved thermal tolerance in <i>Exaiptasia diaphana</i>" @default.
W4210703580 cites W1590050327 @default.
W4210703580 cites W1704456421 @default.
W4210703580 cites W1799545192 @default.
W4210703580 cites W1965688385 @default.
W4210703580 cites W1978062556 @default.
W4210703580 cites W1997790883 @default.
W4210703580 cites W2001975982 @default.
W4210703580 cites W2003409413 @default.
W4210703580 cites W2006284255 @default.
W4210703580 cites W2007164939 @default.
W4210703580 cites W2008733625 @default.
W4210703580 cites W2012752952 @default.
W4210703580 cites W2015045796 @default.
W4210703580 cites W2020610479 @default.
W4210703580 cites W2024806593 @default.
W4210703580 cites W2025898994 @default.
W4210703580 cites W2032627756 @default.
W4210703580 cites W2036897871 @default.
W4210703580 cites W2042515533 @default.
W4210703580 cites W2046949539 @default.
W4210703580 cites W2050169742 @default.
W4210703580 cites W2052426129 @default.
W4210703580 cites W2056279562 @default.
W4210703580 cites W2060667525 @default.
W4210703580 cites W2064749385 @default.
W4210703580 cites W2066452478 @default.
W4210703580 cites W2069200950 @default.
W4210703580 cites W2080017189 @default.
W4210703580 cites W2091317957 @default.
W4210703580 cites W2092311977 @default.
W4210703580 cites W2092789246 @default.
W4210703580 cites W2093116955 @default.
W4210703580 cites W2093684568 @default.
W4210703580 cites W2093956729 @default.
W4210703580 cites W2096973757 @default.
W4210703580 cites W2100837085 @default.
W4210703580 cites W2102278073 @default.
W4210703580 cites W2107707009 @default.
W4210703580 cites W2114294973 @default.
W4210703580 cites W2118077298 @default.
W4210703580 cites W2123402141 @default.
W4210703580 cites W2123438807 @default.
W4210703580 cites W2126740791 @default.
W4210703580 cites W2128635872 @default.
W4210703580 cites W2135250008 @default.
W4210703580 cites W2140661591 @default.
W4210703580 cites W2148357670 @default.
W4210703580 cites W2152395120 @default.
W4210703580 cites W2153514085 @default.
W4210703580 cites W2162470789 @default.
W4210703580 cites W2318802957 @default.
W4210703580 cites W2336802806 @default.
W4210703580 cites W2343086455 @default.
W4210703580 cites W2398598926 @default.
W4210703580 cites W2401404581 @default.
W4210703580 cites W2441063460 @default.
W4210703580 cites W2515611709 @default.
W4210703580 cites W2516325886 @default.
W4210703580 cites W2552757629 @default.
W4210703580 cites W2553768516 @default.
W4210703580 cites W2592058522 @default.
W4210703580 cites W2594335126 @default.
W4210703580 cites W2608188999 @default.
W4210703580 cites W2619701599 @default.
W4210703580 cites W2736008456 @default.
W4210703580 cites W2767307974 @default.
W4210703580 cites W2793656369 @default.
W4210703580 cites W2801529093 @default.
W4210703580 cites W2807194798 @default.
W4210703580 cites W2902539101 @default.
W4210703580 cites W2913322997 @default.
W4210703580 cites W2914951481 @default.
W4210703580 cites W2950795825 @default.
W4210703580 cites W2951928804 @default.
W4210703580 cites W2952463830 @default.
W4210703580 cites W2953499906 @default.
W4210703580 cites W2953836605 @default.
W4210703580 cites W2958042546 @default.
W4210703580 cites W2963276645 @default.
W4210703580 cites W2969313822 @default.
W4210703580 cites W2980750327 @default.
W4210703580 cites W2995268801 @default.
W4210703580 cites W2995318581 @default.
W4210703580 cites W2995699528 @default.
W4210703580 cites W3001402445 @default.
W4210703580 cites W3004698048 @default.
W4210703580 cites W3015114451 @default.
W4210703580 cites W3023619355 @default.
W4210703580 cites W3025971693 @default.