Calcareous spherules produced by intracellular symbiotic bacteria protect the sponge Hemimycale columella from predation better than secondary metabolites

Garate, Leire; Blanquer, Andrea; Uriz, María Jesús

doi:10.3354/meps11196

Cited by 13 publications

(11 citation statements)

References 68 publications

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“…Conversely, it is generally accepted that for mutualistic symbioses to become evolutionaryly fixed, benefits at the species level should compensate for the costs to the associated partners 41 . The most obvious benefit to sponges from their association with calcifying bacteria is the ‘low cost’ construction of an exoskeleton, which may serve as structural purpose and deter potential sponge predators better than secondary metabolites 42 . Protection against an increase in predators has been proposed as an evolutionary driver of exoskeletons in ancient animals during the Cambrian explosion 43 .…”

Section: Discussionmentioning

confidence: 99%

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Endosymbiotic calcifying bacteria across sponge species and oceans

Garate

Sureda

Agell

et al. 2017

Sci Rep

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From an evolutionary point of view, sponges are ideal targets to study marine symbioses as they are the most ancient living metazoans and harbour highly diverse microbial communities. A recently discovered association between the sponge Hemimycale columella and an intracellular bacterium that generates large amounts of calcite spherules has prompted speculation on the possible role of intracellular bacteria in the evolution of the skeleton in early animals. To gain insight into this purportedly ancestral symbiosis, we investigated the presence of symbiotic bacteria in Mediterranean and Caribbean sponges. We found four new calcibacteria OTUs belonging to the SAR116 in two orders (Poecilosclerida and Clionaida) and three families of Demospongiae, two additional OTUs in cnidarians and one more in seawater (at 98.5% similarity). Using a calcibacteria targeted probe and CARD-FISH, we also found calcibacteria in Spirophorida and Suberitida and proved that the calcifying bacteria accumulated at the sponge periphery, forming a skeletal cortex, analogous to that of siliceous microscleres in other demosponges. Bacteria-mediated skeletonization is spread in a range of phylogenetically distant species and thus the purported implication of bacteria in skeleton formation and evolution of early animals gains relevance.

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Section: Discussionmentioning

confidence: 99%

“…Siliceous spicules were precipitated and then the pellet was discarded. The spicule-free homogenates were subjected to a series of centrifugations and re-suspensions 42 . One aliquot of the each final spherule suspensions (three per individual) was filtered through 0.2 μm pore filters and filters were CARD-FISH treated ( Table 1 ).…”

Section: Methodsmentioning

confidence: 99%

Endosymbiotic calcifying bacteria across sponge species and oceans

Garate

Sureda

Agell

et al. 2017

Sci Rep

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“…Sponges (phylum Porifera) are considered valuable model systems in host-microbiome research due to the abundance and diversity within their associated microbial communities (Pita, Fraune, & Hentschel, 2016), with a total of 52 bacterial phyla and candidate phyla discovered among sponge hosts (Thomas et al, 2016). Spongemicrobiome interactions are numerous and complex, and microbial symbionts may confer a number of benefits to their host including nutrition and waste metabolism (Freeman, Thacker, Baker, & Fogel, 2013;Karimi et al, 2018;Moitinho-Silva et al, 2017;Thomas, Rusch, et al, 2010), acclimation to ocean acidification (Ribes et al, 2016), reduction in host surface fouling (On, Lau, & Qian, 2006) and production of compounds that deter predation of the sponge host (Garate, Blanquer, & Uriz, 2015). Sponge-associated microbes are also of significant biotechnological interest due to their potential for production of novel, pharmaceutically active secondary metabolites .…”

Section: Introductionmentioning

confidence: 99%

Host genetics and geography influence microbiome composition in the spongeIrcinia campana

Griffiths

Antwis

Lenzi

et al. 2019

Journal of Animal Ecology

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Marine sponges are hosts to large, diverse communities of microorganisms. These microbiomes are distinct among sponge species and from seawater bacterial communities, indicating a key role of host identity in shaping its resident microbial community. However, the factors governing intraspecific microbiome variability are underexplored and may shed light on the evolutionary and ecological relationships between host and microbiome.Here, we examined the influence of genetic variation and geographic location on the composition of the Ircinia campana microbiome.We developed new microsatellite markers to genotype I. campana from two locations in the Florida Keys, USA, and characterized their microbiomes using V4 16S rRNA amplicon sequencing.We show that microbial community composition and diversity is influenced by host genotype, with more genetically similar sponges hosting more similar microbial communities. We also found that although I. campana was not genetically differentiated between sites, microbiome composition differed by location.Our results demonstrate that both host genetics and geography influence the composition of the sponge microbiome. Host genotypic influence on microbiome composition may be due to stable vertical transmission of the microbial community from parent to offspring, making microbiomes more similar by descent. Alternatively, sponge genotypic variation may reflect variation in functional traits that influence the acquisition of environmental microbes. This study reveals drivers of microbiome variation within and among locations, and shows the importance of intraspecific variability in mediating eco‐evolutionary dynamics of host‐associated microbiomes.

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“…Indeed, unbalancing of their microbial symbioses has been considered to trigger extensive mass mortalities of sponges in the Mediterranean (Webster et al, 2008; Cebrian et al, 2011), and Red Sea (Gao et al, 2014). In addition, some purported benefits that sponges may obtain from their associations with microbes have also been proposed such as, antifungal activity, production of bioactive compounds against predation, roles in nitrogen and carbon cycle and vitamin biosynthesis (Schmidt et al, 2000; Freeman and Thacker, 2011; Hentschel et al, 2012; Freeman et al, 2013), but rarely have been experimentally demonstrated (de Voogd et al, 2015; Garate et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Sponges and Their Microbiomes Show Similar Community Metrics Across Impacted and Well-Preserved Reefs

et al. 2019

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Sponge diversity has been reported to decrease from well-preserved to polluted environments, but whether diversity and intra-species variation of their associated microbiomes also change as function of environmental quality remains unknown. Our study aimed to assess whether microbiome composition and structure are related to the proliferation of some sponges and not others under degraded conditions. We characterized the most frequent sponges and their associated bacteria in two close areas (impacted and well-preserved) of Nha Trang Bay (Indo-Pacific). Sponge assemblages were richer and more diverse in the well-preserved reefs, but more abundant (individuals/m. transect) in the impacted environments, where two species ( Clathria reinwardti and Amphimedon paraviridis ) dominated. Sponge microbiomes from the polluted zones had, in general, lower bacterial diversity and core size and consequently, higher intra-species dispersion than microbiomes of sponges from the well-preserved environments. Microbial communities reflect the reduction of diversity and richness shown by their host sponges. In this sense, sponges with less complex and more variable microbiomes proliferate under degraded environmental conditions, following the ecological paradigm that negatively correlates community diversity and environmental degradation. Thereby, the diversity and structure of sponge microbiomes might indirectly determine the presence and proliferation of sponge species in certain habitats.

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Calcareous spherules produced by intracellular symbiotic bacteria protect the sponge Hemimycale columella from predation better than secondary metabolites

Cited by 13 publications

References 68 publications

Endosymbiotic calcifying bacteria across sponge species and oceans

Endosymbiotic calcifying bacteria across sponge species and oceans

Host genetics and geography influence microbiome composition in the spongeIrcinia campana

Sponges and Their Microbiomes Show Similar Community Metrics Across Impacted and Well-Preserved Reefs

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