Peer-Reviewed Journal Details
Mandatory Fields
Ihua, MW;FitzGerald, JA;Guiheneuf, F;Jackson, SA;Claesson, MJ;Stengel, DB;Dobson, ADW
2020
November
Plos One
Diversity of bacteria populations associated with different thallus regions of the brown alga Laminaria digitata
Validated
WOS: 11 ()
Optional Fields
FUNCTIONAL REDUNDANCY SEAWEED COMMUNITY SEQUENCE VARIABILITY MACROALGAE RESPONSES PATTERNS RATHER
15
Stipitate kelp species such as Laminaria digitata dominate most cold-water subtidal rocky shores and form underwater forests which are among the most productive coastal systems worldwide. Laminaria also sustains rich bacterial communities which offer a variety of biotechnological applications. However, to date, in-depth studies on the diversity and uniqueness of bacterial communities associated with this macroalgal species, their ecological role and their interactions with the alga are under-represented. To address this, the epibacterial populations associated with different thallus regions (holdfast, stipe, meristem, blade) of this brown seaweed were investigated using high-throughput Illumina sequencing of the 16S rRNA genes. The results show that epibacterial communities of the brown seaweed are significantly different and specific to the thallus region, with the shared bacterial population comprising of only 1.1% of the total amplicon sequence variants. The diverse holdfast and blade tissues formed distinct clusters while the meristem and stipe regions are more closely related. The data obtained further supports the hypothesis that macroalgal bacterial communities are shaped by morphological niches and display specificity.
SAN FRANCISCO
1932-6203
10.1371/journal.pone.0242675
Grant Details