2022
DOI: 10.1016/j.aquabot.2022.103511
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A reciprocal transplant experiment sheds new light on a classic marine seagrass-algal symbiosis and suggests influence of epiphytic symbiont on seagrass microbiota

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Cited by 9 publications
(9 citation statements)
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“…Research indicates a complex and intimate interaction between plants and their associated microorganisms, whether in the rhizosphere microbiome ( Gabriel Nuto et al., 2023 ; Tang et al., 2023 ) or the phyllosphere microbiome ( Lehnen et al., 2016 ; Ettinger et al., 2017 ). Seagrasses are no exception, as changes in the structure and diversity of attached microbial communities, along with their responses to the environment, significantly impact the health, growth, and functions of seagrasses ( Chen et al., 2022 ; O’Connor et al., 2022 ). For instance, alterations in rhizosphere microbial communities play a pivotal role in the successful transplantation of seagrasses ( Christiaen et al., 2013 ).…”
Section: Discussionmentioning
confidence: 99%
“…Research indicates a complex and intimate interaction between plants and their associated microorganisms, whether in the rhizosphere microbiome ( Gabriel Nuto et al., 2023 ; Tang et al., 2023 ) or the phyllosphere microbiome ( Lehnen et al., 2016 ; Ettinger et al., 2017 ). Seagrasses are no exception, as changes in the structure and diversity of attached microbial communities, along with their responses to the environment, significantly impact the health, growth, and functions of seagrasses ( Chen et al., 2022 ; O’Connor et al., 2022 ). For instance, alterations in rhizosphere microbial communities play a pivotal role in the successful transplantation of seagrasses ( Christiaen et al., 2013 ).…”
Section: Discussionmentioning
confidence: 99%
“…Matched seasonal dynamics and bottom-up control of epiphytes and mesograzers may be also at play ( Fong et al., 2000 ; O’Connor et al., 2022 ). High currents in the study area likely contribute to the persistence of S. naiadum , as the constant replenishment of water can supply plentiful nutrients to both seagrass and epiphytes, and maintains a low turbidity water column which reduces competition for light ( O’Connor et al., 2022 ). Our inference of kelp's role in structuring the food web is also limited by the observational nature of our study data.…”
Section: Discussionmentioning
confidence: 99%
“…For example, the composition of the eelgrass leaf microbiome is variable at the meadow scale and may be due to disease prevalence, temperature, and geography (Beatty et al, 2022). Other studies find variation in the eelgrass microbiome associated with geography (Adamczyk et al, 2022;Bengtsson et al, 2017;Sanders-Smith et al, 2020) and epiphytic algae (O'Connor et al, 2022).…”
Section: Microbiome Composition Analysesmentioning
confidence: 99%
“…Plant‐associated microbes can improve host growth, health, and resilience (Ford & King, 2016; Trivedi et al, 2020; Turner et al, 2013). Microbiomes also serve as a first line of defence against pathogens, opportunistic bacteria, fouling, and grazing (Inaba et al, 2017; O'Connor et al, 2022; Trivedi et al, 2020). Even on land, the role of plant microbiomes in pathogen defence has been tested against only some types of pathogens, such as bacteria, oomycetes, and fungi (Bais et al, 2004; Berg & Koskella, 2018; Carisse et al, 2003; Chen et al, 2018), though, few manipulative experiments test the role of plant‐associated bacteria in defence against diverse disease agents.…”
Section: Introductionmentioning
confidence: 99%