GLORIA — GEOMAR Library Ocean Research Information Access

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Collection data, 16S microbiome and metabolome of Geodia barretti, Stryphnus fortis and Weberella bursa, in the Davis Strait (2019)

Steffen, Karin ; Indraningrat, Anak Agung Gede ; Erngren, Ida ; [et al.]

PANGAEA

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Publication Date: 2023-11-11

Description: Collection data of the marine sponge specimens studied; three species: Geodia barretti, Stryphnus fortis and Weberella bursa. Collection data includes locality, depth, salinity, bottom temperature, gear, date, cruise and station# and a collection number for every specimen (DFO Canada collections). NCBI SRA# of the 16S gene amplicon sequencing of their microbiome. Numbers of the UPLC-HRMS runs (four different modes for every specimen: HILIC+, HILIC-, RP+ and RP-). The raw UPLC-HRMS datasets are deposited in the repository metabolights (www.ebi.ac.uk/metabolights/MTBLS1388). QC runs are Quality Control runs for the UPLC-HRMS experiment (also deposited in metabolights).

Keywords: Accession number, genetics; Code; Cruise/expedition; DATE/TIME; Deep-sea; Deep-sea Sponge Grounds Ecosystems of the North Atlantic; DEPTH, water; Event label; Gear; Geodia barretti; Identification; LATITUDE; LONGITUDE; marine sponges; metabolomics; microbiome; PAA2011007; PAA2011007_Gb10; PAA2011007_Gb15; PAA2011007_Gb20; PAA2011007_Gb21; PAA2011007_Gb4; PAA2011007_Gb6; PAA2011007_Sf11; PAA2011007_Sf14; PAA2011007_Sf4; PAA2011007_Sf7; PAA2011007_Wb10; PAA2011007_Wb12; PAA2011007_Wb14; PAA2011007_Wb15; PAA2011007_Wb2; PAA2011007_Wb5; PAA2011007_Wb9; PAA2013008; PAA2013008_Gb1; PAA2013008_Gb12; PAA2013008_Gb14; PAA2013008_Gb18; PAA2013008_Gb19; PAA2013008_Gb2; PAA2013008_Gb8; PAA2013008_Gb9; PAA2013008_Sf10; PAA2013008_Sf13; PAA2013008_Sf2; PAA2013008_Sf6; PAA2013008_Wb1; PAA2013008_Wb11; PAA2013008_Wb16; PAA2013008_Wb17; PAA2013008_Wb4; PAA2013008_Wb8; PAA2014007; PAA2014007_Gb13; PAA2014007_Gb3; PAA2014007_Gb5; PAA2014007_Sf1; PAA2014007_Sf12; PAA2014007_Sf15; PAA2014007_Sf3; PAA2014007_Sf5; PAA2014007_Wb13; PAA2014007_Wb3; PAA2014007_Wb6; PAA2014007_Wb7; PAA2015007; PAA2015007_Gb11; PAA2015007_Gb17; PAA2015007_Gb7; PAA2015007_Sf8; PAA2015007_Sf9; Paamiut; Salinity; Set; Species; SponGES; Stryphnus fortis; Temperature, water; Weberella bursa; Year of observation

Type: Dataset

Format: text/tab-separated-values, 739 data points

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The sponge microbiome project (2017)

Moitinho-Silva, Lucas ; Nielsen, Shaun ; Amir, Amnon ; [et al.]

Oxford Univ. Press

In: GigaScience, 6 (8).

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Publication Date: 2020-02-06

Description: Marine sponges (phylum Porifera) are a diverse, phylogenetically deep-branching clade known for forming intimate partnerships with complex communities of microorganisms. To date, 16S rRNA gene sequencing studies have largely utilised different extraction and amplification methodologies to target the microbial communities of a limited number of sponge species, severely limiting comparative analyses of sponge microbial diversity and structure. Here, we provide an extensive and standardised dataset that will facilitate sponge microbiome comparisons across large spatial, temporal and environmental scales. Samples from marine sponges (n = 3569 specimens), seawater (n = 370), marine sediments (n = 65) and other environments (n = 29) were collected from different locations across the globe. This dataset incorporates at least 269 different sponge species, including several yet unidentified taxa. The V4 region of the 16S rRNA gene was amplified and sequenced from extracted DNA using standardised procedures. Raw sequences (total of 1.1 billion sequences) were processed and clustered with a) a standard protocol using QIIME closed-reference picking resulting in 39,543 Operational Taxonomic Units (OTU) at 97% sequence identity, b) a de novo protocol using Mothur resulting in 518,246 OTUs, and c) a new high-resolution Deblur protocol resulting in 83,908 unique bacterial sequences. Abundance tables, representative sequences, taxonomic classifications and metadata are provided. This dataset represents a comprehensive resource of sponge-associated microbial communities based on 16S rRNA gene sequences that can be used to address overarching hypotheses regarding host-associated prokaryotes, including host-specificity, convergent evolution, environmental drivers of microbiome structure and the sponge-associated rare biosphere.

Type: Article , PeerReviewed

Format: text

DOI: 10.1093/gigascience/gix077

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Comparative genomics highlights symbiotic capacities and high metabolic flexibility of the marine genus Pseudovibrio (2018)

Versluis, Dennis ; Nijsse, Bart ; Naim, Mohd Azrul ; [et al.]

Oxford University Press

In: Genome Biology and Evolution, 10 (1). pp. 125-142.

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Publication Date: 2021-02-08

Description: Pseudovibrio is a marine bacterial genus members of which are predominantly isolated from sessile marine animals, and particularly sponges. It has been hypothesised that Pseudovibrio spp. form mutualistic relationships with their hosts. Here, we studied Pseudovibrio phylogeny and genetic adaptations that may play a role in host colonization by comparative genomics of 31 Pseudovibrio strains, including 25 sponge isolates. All genomes were highly similar in terms of encoded core metabolic pathways, albeit with substantial differences in overall gene content. Based on gene composition, Pseudovibrio spp. clustered by geographic region, indicating geographic speciation. Furthermore, the fact that isolates from the Mediterranean Sea clustered by sponge species suggested host-specific adaptation or colonization. Genome analyses suggest that Pseudovibrio hongkongensis UST20140214-015BT is only distantly related to other Pseudovibrio spp., thereby challenging its status as typical Pseudovibrio member. All Pseudovibrio genomes were found to encode numerous proteins with SEL1 and tetratricopeptide repeats, which have been suggested to play a role in host colonization. For evasion of the host immune system, Pseudovibrio spp. may depend on type III, IV and VI secretion systems that can inject effector molecules into eukaryotic cells. Furthermore, Pseudovibrio genomes carry on average seven secondary metabolite biosynthesis clusters, reinforcing the role of Pseudovibrio spp. as potential producers of novel bioactive compounds. Tropodithietic acid, bacteriocin and terpene biosynthesis clusters were highly conserved within the genus, suggesting an essential role in survival e.g. through growth inhibition of bacterial competitors. Taken together, these results support the hypothesis that Pseudovibrio spp. have mutualistic relations with sponges.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

Format: archive

DOI: 10.1093/gbe/evx271

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Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome (2022)

Busch, Kathrin ; Slaby, Beate M. ; Bach, Wolfgang ; [et al.]

Nature Research

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Publication Date: 2024-02-07

Description: In the deep ocean symbioses between microbes and invertebrates are emerging as key drivers of ecosystem health and services. We present a large-scale analysis of microbial diversity in deep-sea sponges (Porifera) from scales of sponge individuals to ocean basins, covering 52 locations, 1077 host individuals translating into 169 sponge species (including understudied glass sponges), and 469 reference samples, collected anew during 21 ship-based expeditions. We demonstrate the impacts of the sponge microbial abundance status, geographic distance, sponge phylogeny, and the physical-biogeochemical environment as drivers of microbiome composition, in descending order of relevance. Our study further discloses that fundamental concepts of sponge microbiology apply robustly to sponges from the deep-sea across distances of 〉10,000 km. Deep-sea sponge microbiomes are less complex, yet more heterogeneous, than their shallow-water counterparts. Our analysis underscores the uniqueness of each deep-sea sponge ground based on which we provide critical knowledge for conservation of these vulnerable ecosystems.

Type: Article , PeerReviewed , info:eu-repo/semantics/article

Format: text

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Publisher Correction: Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome (2022)

Busch, Kathrin ; Slaby, Beate M ; Bach, Wolfgang ; [et al.]

Springer Nature

In: EPIC3Nature Communications, Springer Nature, 13(1), pp. 6546-6546, ISSN: 2041-1723

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Publication Date: 2023-07-25

Description: The original version of the Description of Additional Supplementary Files associated with this Article contained errors in the legends of Supplementary Data 5–8 and omitted legends for the Source Data. The HTML has been updated to include a corrected version of the Description of Additional Supplementary Files; the original incorrect version of this file can be found as Supplementary Information associated with this Correction.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev , info:eu-repo/semantics/article

Format: application/pdf

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Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome (2022)

Busch, Kathrin ; Slaby, Beate M. ; Bach, Wolfgang ; [et al.]

In: EPIC3Nature Communications, 13(1), ISSN: 2041-1723

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Publication Date: 2022-09-14

Description: In the deep ocean symbioses between microbes and invertebrates are emerging as key drivers of ecosystem health and services. We present a large-scale analysis of microbial diversity in deep-sea sponges (Porifera) from scales of sponge individuals to ocean basins, covering 52 locations, 1077 host individuals translating into 169 sponge species (including understudied glass sponges), and 469 reference samples, collected anew during 21 ship-based expeditions. We demonstrate the impacts of the sponge microbial abundance status, geographic distance, sponge phylogeny, and the physical-biogeochemical environment as drivers of microbiome composition, in descending order of relevance. Our study further discloses that fundamental concepts of sponge microbiology apply robustly to sponges from the deep-sea across distances of 〉10,000 km. Deep-sea sponge microbiomes are less complex, yet more heterogeneous, than their shallow-water counterparts. Our analysis underscores the uniqueness of each deep-sea sponge ground based on which we provide critical knowledge for conservation of these vulnerable ecosystems.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , NonPeerReviewed , info:eu-repo/semantics/article

Format: application/pdf

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