Abstract
Host-associated microbial communities play a fundamental role in the life of eukaryotic hosts. It is increasingly argued that hosts and their microbiota must be studied together as 'holobionts' to better understand the effects of environmental stressors on host functioning. Disruptions of host–microbiota interactions by environmental stressors can negatively affect host performance and survival. Substantial ecological impacts are likely when the affected hosts are habitat-forming species (e.g., trees, kelps) that underpin local biodiversity. In marine systems, coastal urbanisation via the addition of artificial structures is a major source of stress to habitat formers, but its effect on their associated microbial communities is unknown. We characterised kelp-associated microbial communities in two of the most common and abundant artificial structures in Sydney Harbour—pier-pilings and seawalls—and in neighbouring natural rocky reefs. The kelp Ecklonia radiata is the dominant habitat-forming species along 8000 km of the temperate Australian coast. Kelp-associated microbial communities on pilings differed significantly from those on seawalls and natural rocky reefs, possibly due to differences in abiotic (e.g., shade) and biotic (e.g., grazing) factors between habitats. Many bacteria that were more abundant on kelp on pilings belonged to taxa often associated with macroalgal diseases, including tissue bleaching in Ecklonia. There were, however, no differences in kelp photosynthetic capacity between habitats. The observed differences in microbial communities may have negative effects on the host by promoting fouling by macroorganisms or by causing and spreading disease over time. This study demonstrates that urbanisation can alter the microbiota of key habitat-forming species with potential ecological consequences.
Highlights
Increasing evidence from a wide range of systems, such as human biology,[1] plant/soil interactions,[2] reef building corals[3] and seaweeds[4] suggest that host-associated microbial communities are critically important for the development,[5] health[6] and defence[1] of eukaryotic hosts
The relative abundance and composition of microbial communities associated with kelp on pilings differed significantly from those on seawalls and natural rocky reefs, which did not differ from each other (Fig. 2, Table 1)
Multivariate generalised linear models (GLMs) identified 27 operational taxonomic units (OTUs) whose relative abundances differed significantly among the different habitats, and for which the size of the effect was greater than twice the standard error (Fig. 3, Table S2)
Summary
Increasing evidence from a wide range of systems, such as human biology,[1] plant/soil interactions,[2] reef building corals[3] and seaweeds[4] suggest that host-associated microbial communities are critically important for the development,[5] health[6] and defence[1] of eukaryotic hosts. Only one study so far has investigated microbial communities associated directly with the substratum (biofilms) on natural (rocky reefs) and artificial (seawalls) habitats in coastal systems.[28] The structure of these intertidal bacterial communities differed between seawalls and rocky shores, suggesting that built infrastructure affects macroorganisms, and initial colonisation by biofilms on their surfaces.
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