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List, processing details and taxonomic counts of planktonic foraminifera for the selected sediment samples of the study for morphologic analyses (Table S1) (2020)

Barrenechea Angeles, Ines ; Lejzerowicz, Franck ; Cordier, Tristan ; [et al.]

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Publication Date: 2024-02-14

Keywords: 494-2; 496-2; 509-2; 511-2; 512-1; 513-2; 528-2; 528-3; 529-2; 530-1; 531-2; 532-2; 534-2; 535-2; 536-1; 537-2; 538-1; Center for Marine Environmental Sciences; Dentigloborotalia anfracta; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; Elevation of event; Event label; Flemish Cap; Foraminifera; Foraminifera, planktic, total; GC; GeoB18515-2; GeoB18517-2; GeoB18530-2; GeoB18532-2; GeoB18533-1; GeoB18534-2; GeoB18549-2; GeoB18549-3; GeoB18550-2; GeoB18551-1; GeoB18552-2; GeoB18553-2; GeoB18555-2; GeoB18556-2; GeoB18557-1; GeoB18558-2; GeoB18559-1; Globigerina bulloides; Globigerina falconensis; Globigerinella calida; Globigerinella siphonifera; Globigerinita glutinata; Globigerinita minuta; Globigerinita uvula; Globigerinoides conglobatus; Globigerinoides elongatus; Globigerinoides ruber pink; Globigerinoides ruber white; Globorotalia hirsuta; Globorotalia inflata; Globorotalia menardii; Globorotalia truncatulinoides; Gravity corer; Latitude of event; Location of event; Longitude of event; Maria S. Merian; MARUM; Mass; Metabarcoding; microfossils; MSM39; MUC; MultiCorer; Neogloboquadrina dutertrei; Neogloboquadrina incompta; Neogloboquadrina pachyderma; North Atlantic; Orphan Basin; Orphan Knoll; Pulleniatina obliquiloculata; sedimentary ancient DNA; SE Grand Banks Slope; Size fraction; Split; SW Grand Banks Slope; Tenuitella fleisheri; Trilobatus sacculifer; Turborotalita quinqueloba; Wet mass

Type: Dataset

Format: text/tab-separated-values, 5199 data points

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List and processing details of the selected samples of the study for metabarcoding analyses (Table S2) (2020)

Barrenechea Angeles, Ines ; Lejzerowicz, Franck ; Cordier, Tristan ; [et al.]

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Publication Date: 2024-02-14

Keywords: 494-2; 496-2; 511-2; 512-1; 513-2; 528-2; 530-1; 532-2; 536-1; 538-1; Center for Marine Environmental Sciences; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; DNA concentration; Elevation of event; Event label; Flemish Cap; Foraminifera; Foraminifera, planktic, number of reads; GC; GeoB18515-2; GeoB18517-2; GeoB18532-2; GeoB18533-1; GeoB18534-2; GeoB18549-2; GeoB18551-1; GeoB18553-2; GeoB18557-1; GeoB18559-1; Globothalamea, number of reads; Gravity corer; Latitude of event; Location of event; Longitude of event; Maria S. Merian; MARUM; Metabarcoding; microfossils; Monothalamea, number of reads; MSM39; MUC; MultiCorer; North Atlantic; Operational taxonomic unit; Orphan Basin; Orphan Knoll; Ratio; Reads; Sample code/label; sedimentary ancient DNA; SE Grand Banks Slope; SW Grand Banks Slope; Tubothalamea, number of reads

Type: Dataset

Format: text/tab-separated-values, 1993 data points

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Taxonomic assignment of the ISU for the 334 PCR products (Table S3) (2021)

Barrenechea Angeles, Ines ; Lejzerowicz, Franck ; Cordier, Tristan ; [et al.]

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Publication Date: 2024-02-14

Keywords: 494-2; 496-2; 511-2; 512-1; 513-2; 528-2; 530-1; 532-2; 536-1; 538-1; Center for Marine Environmental Sciences; File format; File name; File size; Flemish Cap; Foraminifera; GC; GeoB18515-2; GeoB18517-2; GeoB18532-2; GeoB18533-1; GeoB18534-2; GeoB18549-2; GeoB18551-1; GeoB18553-2; GeoB18557-1; GeoB18559-1; Gravity corer; Maria S. Merian; MARUM; Metabarcoding; microfossils; MSM39; MUC; MultiCorer; North Atlantic; Orphan Basin; Orphan Knoll; sedimentary ancient DNA; SE Grand Banks Slope; SW Grand Banks Slope; Uniform resource locator/link to file

Type: Dataset

Format: text/tab-separated-values, 4 data points

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Planktonic foraminifera eDNA signature deposited on the seafloor remains preserved after burial in marine sediments (2020)

Barrenechea Angeles, Ines ; Lejzerowicz, Franck ; Cordier, Tristan ; [et al.]

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Publication Date: 2024-02-14

Description: Environmental DNA (eDNA) metabarcoding of marine sediments has revealed large amounts of sequences assigned to planktonic taxa. How this planktonic eDNA is delivered on the seafloor and preserved in the sediment is not well understood. We address these questions by comparing metabarcoding and microfossil foraminifera assemblages in sediment cores taken off Newfoundland across a strong ecological gradient. We detected planktonic foraminifera eDNA down to 30 cm and observed that the planktonic/benthic amplicon ratio changed with depth. The relative proportion of planktonic foraminiferal amplicons remained low from the surface down to 10 cm, likely due to the presence of DNA from living benthic foraminifera. Below 10 cm, the relative proportion of planktonic foraminifera amplicons rocketed, likely reflecting the higher proportion of planktonic eDNA in the DNA burial flux. In addition, the microfossil and metabarcoding assemblages showed a congruent pattern indicating that planktonic foraminifera eDNA is deposited without substantial lateral advection and preserves regional biogeographical patterns, indicating deposition by a similar mechanism as the foraminiferal shells. Our study shows that the planktonic eDNA preserved in marine sediments has the potential to record climatic and biotic changes in the pelagic community with the same spatial and temporal resolution as microfossils.

Keywords: Center for Marine Environmental Sciences; Foraminifera; MARUM; Metabarcoding; microfossils; North Atlantic; sedimentary ancient DNA

Type: Dataset

Format: application/zip, 3 datasets

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The Marine Microbial Eukaryote Transcriptome Sequencing Project (MMETSP): Illuminating the Functional Diversity of Eukaryotic Life in the Oceans through Transcriptome Sequencing (2014)

Keeling, Patrick J. ; Burki, Fabien ; Wilcox, Heather M. ; [et al.]

PUBLIC LIBRARY SCIENCE

In: EPIC3PLoS Biology, PUBLIC LIBRARY SCIENCE, 12(6), pp. e1001889, ISSN: 1544-9173

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Publication Date: 2014-07-01

Description: Current sampling of genomic sequence data from eukaryotes is relatively poor, biased, and inadequate to address important questions about their biology, evolution, and ecology; this Community Page describes a resource of 700 transcriptomes from marine microbial eukaryotes to help understand their role in the world's oceans.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

Format: application/pdf

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The Marine Microbial Eukaryote Transcriptome Sequencing Project (MMETSP) : illuminating the functional diversity of eukaryotic life in the oceans through transcriptome sequencing (2014)

Keeling, Patrick J. ; Burki, Fabien ; Wilcox, Heather M. ; [et al.]

Public Library of Science

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Publication Date: 2022-05-26

Description: © The Author(s), 2014. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in PLoS Biology 12 (2014): e1001889, doi:10.1371/journal.pbio.1001889.

Description: Microbial ecology is plagued by problems of an abstract nature. Cell sizes are so small and population sizes so large that both are virtually incomprehensible. Niches are so far from our everyday experience as to make their very definition elusive. Organisms that may be abundant and critical to our survival are little understood, seldom described and/or cultured, and sometimes yet to be even seen. One way to confront these problems is to use data of an even more abstract nature: molecular sequence data. Massive environmental nucleic acid sequencing, such as metagenomics or metatranscriptomics, promises functional analysis of microbial communities as a whole, without prior knowledge of which organisms are in the environment or exactly how they are interacting. But sequence-based ecological studies nearly always use a comparative approach, and that requires relevant reference sequences, which are an extremely limited resource when it comes to microbial eukaryotes. In practice, this means sequence databases need to be populated with enormous quantities of data for which we have some certainties about the source. Most important is the taxonomic identity of the organism from which a sequence is derived and as much functional identification of the encoded proteins as possible. In an ideal world, such information would be available as a large set of complete, well-curated, and annotated genomes for all the major organisms from the environment in question. Reality substantially diverges from this ideal, but at least for bacterial molecular ecology, there is a database consisting of thousands of complete genomes from a wide range of taxa, supplemented by a phylogeny-driven approach to diversifying genomics. For eukaryotes, the number of available genomes is far, far fewer, and we have relied much more heavily on random growth of sequence databases, raising the question as to whether this is fit for purpose.

Description: This project was funded by the Gordon and Betty Moore Foundation (GBMF; Grants GBMF2637 and GBMF3111) to the National Center for Genome Resources (NCGR) and the National Center for Marine Algae and Microbiota (NCMA).

Repository Name: Woods Hole Open Access Server

Type: Article

Format: application/msword

Format: application/pdf

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Taxonomy and biogeography of living species of the Family Notorotaliidae (Notorotalia, Parrellina, Porosorotalia, Buccella, Cristatavultus) (2023)

Wollenburg, Jutta ; Hayward, Bruce W ; Holzmann, Maria ; [et al.]

Micropaleontology Press

In: EPIC3Micropaleontology, Micropaleontology Press, 69, 44 p., ISSN: 0026-2803

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Publication Date: 2023-05-02

Description: DNA sequencing shows that species of the genera Notorotalia, Porosorotalia and Buccella form a distinct branch (Notorotaliidae) of Rotaloidea, and cluster as sister to Elphidiidae. In this review we report on the sequencing of three species of Buccella (from the Arctic Ocean, Patagonia and Chile) and one each of Notorotalia (New Zealand) and Porosorotalia (Chile). This information has been combined with all the morphological descriptive information on species of these genera plus the genera Cristatavultus and Parrellina to provide a global synthesis of living species of the Notorotaliidae. We recognize 11 species of the southern hemisphere genus Notorotalia, which has a centre of diversity around New Zealand (8 species). A second southern-hemisphere-restricted genus, restricted to eastern Australia is Parrellina (3 species) although specimens (possibly introduced) have been recorded from the Mediterranean Sea. Cristatavultus has a single species, with a tropical west Pacific distribution.We synonymize Cribrorotalia under Porosorotalia, which has a disjunct distribution with one species in the northwest Pacific and a second around the southern parts of South America. Buccella is the most diverse and widespread genus (16 species recognized) with its greatest abundance in the Arctic Ocean and around subantarctic-temperate South America. Five species of Buccella live in a belt along the west coast of central America, from USAto Peru, with some spillage into the Caribbean Sea and Gulf of Mexico. Two new species of Buccella are recognized: B. dejardini (from South Georgia) and Buccella n. sp. A (from Chile).

Repository Name: EPIC Alfred Wegener Institut

Type: Article , peerRev

Format: application/pdf

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Mitochondrial cytochrome c oxidase subunit I (COI) metabarcoding of Foraminifera communities using taxon-specific primers (2022)

Macher, J.N. (Jan) ; Bloska, Dimitra Maria ; Holzmann, Maria ; [et al.]

PeerJ

In: PeerJ vol. 10 no. e13952

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Publication Date: 2024-05-30

Description: Foraminifera are a species-rich phylum of rhizarian protists that are highly abundant in most marine environments. Molecular methods such as metabarcoding have revealed a high, yet undescribed diversity of Foraminifera. However, so far only one molecular marker, the 18S ribosomal RNA, was available for metabarcoding studies on Foraminifera. Primers that allow amplification of foraminiferal mitochondrial cytochrome oxidase I (COI) and identification of Foraminifera species were recently published. Here we test the performance of these primers for the amplification of whole foraminiferal communities, and compare their performance to that of the highly degenerate LerayXT primers, which amplify the same COI region in a wide range of eukaryotes. We applied metabarcoding to 48 samples taken along three transects spanning a North Sea beach in the Netherlands from dunes to the low tide level, and analysed both sediment samples and meiofauna samples, which contained taxa between 42 mm and 1 mm in body size obtained by decantation from sand samples. We used single-cell metabarcoding (Girard et al., 2022) to generate a COI reference library containing 32 species of Foraminifera, and used this to taxonomically annotate our community metabarcoding data. Our analyses show that the highly degenerate LerayXT primers do not amplify Foraminifera, while the Foraminifera primers are highly Foraminifera- specific, with about 90% of reads assigned to Foraminifera and amplifying taxa from all major groups, i.e., monothalamids, Globothalamea, and Tubothalamea. We identified 176 Foraminifera ASVs and found a change in Foraminifera community composition along the beach transects from high tide to low tide level, and a dominance of single-chambered monothalamid Foraminifera. Our results highlight that COI metabarcoding can be a powerful tool for assessing Foraminiferal communities.

Keywords: Foraminifera ; Metabarcoding ; Beach ; Community composition ; Intertidal ; Molecular ; biodiversity

Repository Name: National Museum of Natural History, Netherlands

Type: info:eu-repo/semantics/article

Format: application/pdf

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