Characterizing organisms from three domains of life with universal primers from throughout the global ocean

Jesse McNichol; Nathan L.R. Williams; Yubin Raut; Craig Carlson; Elisa R. Halewood; Kendra Turk-Kubo; Jonathan P. Zehr; Andrew P. Rees; Glen Tarran; Mary R. Gradoville; Matthias Wietz; Christina Bienhold; Katja Metfies; Sinhué Torres-Valdés; Thomas Mock; Sarah Lena Eggers; Wade Jeffrey; Joseph Moss; Paul Berube; Steven Biller; Levente Bodrossy; Jodie Van De Kamp; Mark Brown; Swan L.S. Sow; E. Virginia Armbrust; Jed Fuhrman

doi:10.1038/s41597-025-05423-9

Characterizing organisms from three domains of life with universal primers from throughout the global ocean

Jesse McNichol, Nathan L.R. Williams, Yubin Raut, Craig Carlson, Elisa R. Halewood, Kendra Turk-Kubo, Jonathan P. Zehr, Andrew P. Rees, Glen Tarran, Mary R. Gradoville, Matthias Wietz, Christina Bienhold, Katja Metfies, Sinhué Torres-Valdés, Thomas Mock, Sarah Lena Eggers, Wade Jeffrey, Joseph Moss, Paul Berube, Steven BillerLevente Bodrossy, Jodie Van De Kamp, Mark Brown, Swan L.S. Sow, E. Virginia Armbrust, Jed Fuhrman

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

We introduce the Global rRNA Universal Metabarcoding Plankton database (GRUMP), which consists of 1194 samples that were collected from 2003–2020 and cover extensive latitudinal and longitudinal transects, as well as depth profiles in all major ocean basins. DNA from unfractionated (>0.2 µm) seawater samples was amplified using the 515Y/926 R universal three-domain rRNA gene primers, simultaneously quantifying the relative abundance of amplicon sequencing variants (ASVs) from bacteria, archaea, eukaryotic nuclear 18S, and eukaryotic plastid 16S. Thus, the ratio between taxa in one sample is directly comparable to the ratio in any other GRUMP sample, regardless of gene copy number differences. This obviates a problem in prior global studies that used size-fractionation and different rRNA gene primers for bacteria, archaea, and eukaryotes, precluding comparisons across size fractions or domains. On average, bacteria contributed 71%, eukaryotes 19%, and archaea 8% to rRNA gene abundance, though eukaryotes contributed 32% at latitudes >40°. GRUMP is publicly available on the Simons Collaborative Marine Atlas Project (CMAP), promoting the global comparison of marine microbial dynamics.

Original language	English
Article number	1078
Journal	Scientific Data
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41597-025-05423-9
Publication status	Published - 1 Jul 2025

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McNichol, J., Williams, N. L. R., Raut, Y., Carlson, C., Halewood, E. R., Turk-Kubo, K., Zehr, J. P., Rees, A. P., Tarran, G., Gradoville, M. R., Wietz, M., Bienhold, C., Metfies, K., Torres-Valdés, S., Mock, T., Eggers, S. L., Jeffrey, W., Moss, J., Berube, P., ... Fuhrman, J. (2025). Characterizing organisms from three domains of life with universal primers from throughout the global ocean. Scientific Data, 12(1), Article 1078. https://doi.org/10.1038/s41597-025-05423-9

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title = "Characterizing organisms from three domains of life with universal primers from throughout the global ocean",

abstract = "We introduce the Global rRNA Universal Metabarcoding Plankton database (GRUMP), which consists of 1194 samples that were collected from 2003–2020 and cover extensive latitudinal and longitudinal transects, as well as depth profiles in all major ocean basins. DNA from unfractionated (>0.2 µm) seawater samples was amplified using the 515Y/926 R universal three-domain rRNA gene primers, simultaneously quantifying the relative abundance of amplicon sequencing variants (ASVs) from bacteria, archaea, eukaryotic nuclear 18S, and eukaryotic plastid 16S. Thus, the ratio between taxa in one sample is directly comparable to the ratio in any other GRUMP sample, regardless of gene copy number differences. This obviates a problem in prior global studies that used size-fractionation and different rRNA gene primers for bacteria, archaea, and eukaryotes, precluding comparisons across size fractions or domains. On average, bacteria contributed 71%, eukaryotes 19%, and archaea 8% to rRNA gene abundance, though eukaryotes contributed 32% at latitudes >40°. GRUMP is publicly available on the Simons Collaborative Marine Atlas Project (CMAP), promoting the global comparison of marine microbial dynamics.",

author = "Jesse McNichol and Williams, {Nathan L.R.} and Yubin Raut and Craig Carlson and Halewood, {Elisa R.} and Kendra Turk-Kubo and Zehr, {Jonathan P.} and Rees, {Andrew P.} and Glen Tarran and Gradoville, {Mary R.} and Matthias Wietz and Christina Bienhold and Katja Metfies and Sinhu{\'e} Torres-Vald{\'e}s and Thomas Mock and Eggers, {Sarah Lena} and Wade Jeffrey and Joseph Moss and Paul Berube and Steven Biller and Levente Bodrossy and {Van De Kamp}, Jodie and Mark Brown and Sow, {Swan L.S.} and Armbrust, {E. Virginia} and Jed Fuhrman",

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doi = "10.1038/s41597-025-05423-9",

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McNichol, J, Williams, NLR, Raut, Y, Carlson, C, Halewood, ER, Turk-Kubo, K, Zehr, JP, Rees, AP, Tarran, G, Gradoville, MR, Wietz, M, Bienhold, C, Metfies, K, Torres-Valdés, S, Mock, T, Eggers, SL, Jeffrey, W, Moss, J, Berube, P, Biller, S, Bodrossy, L, Van De Kamp, J, Brown, M, Sow, SLS, Armbrust, EV & Fuhrman, J 2025, 'Characterizing organisms from three domains of life with universal primers from throughout the global ocean', Scientific Data, vol. 12, no. 1, 1078. https://doi.org/10.1038/s41597-025-05423-9

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T1 - Characterizing organisms from three domains of life with universal primers from throughout the global ocean

AU - McNichol, Jesse

AU - Williams, Nathan L.R.

AU - Raut, Yubin

AU - Carlson, Craig

AU - Halewood, Elisa R.

AU - Turk-Kubo, Kendra

AU - Zehr, Jonathan P.

AU - Rees, Andrew P.

AU - Tarran, Glen

AU - Gradoville, Mary R.

AU - Wietz, Matthias

AU - Bienhold, Christina

AU - Metfies, Katja

AU - Torres-Valdés, Sinhué

AU - Mock, Thomas

AU - Eggers, Sarah Lena

AU - Jeffrey, Wade

AU - Moss, Joseph

AU - Berube, Paul

AU - Biller, Steven

AU - Bodrossy, Levente

AU - Van De Kamp, Jodie

AU - Brown, Mark

AU - Sow, Swan L.S.

AU - Armbrust, E. Virginia

AU - Fuhrman, Jed

PY - 2025/7/1

Y1 - 2025/7/1

N2 - We introduce the Global rRNA Universal Metabarcoding Plankton database (GRUMP), which consists of 1194 samples that were collected from 2003–2020 and cover extensive latitudinal and longitudinal transects, as well as depth profiles in all major ocean basins. DNA from unfractionated (>0.2 µm) seawater samples was amplified using the 515Y/926 R universal three-domain rRNA gene primers, simultaneously quantifying the relative abundance of amplicon sequencing variants (ASVs) from bacteria, archaea, eukaryotic nuclear 18S, and eukaryotic plastid 16S. Thus, the ratio between taxa in one sample is directly comparable to the ratio in any other GRUMP sample, regardless of gene copy number differences. This obviates a problem in prior global studies that used size-fractionation and different rRNA gene primers for bacteria, archaea, and eukaryotes, precluding comparisons across size fractions or domains. On average, bacteria contributed 71%, eukaryotes 19%, and archaea 8% to rRNA gene abundance, though eukaryotes contributed 32% at latitudes >40°. GRUMP is publicly available on the Simons Collaborative Marine Atlas Project (CMAP), promoting the global comparison of marine microbial dynamics.

AB - We introduce the Global rRNA Universal Metabarcoding Plankton database (GRUMP), which consists of 1194 samples that were collected from 2003–2020 and cover extensive latitudinal and longitudinal transects, as well as depth profiles in all major ocean basins. DNA from unfractionated (>0.2 µm) seawater samples was amplified using the 515Y/926 R universal three-domain rRNA gene primers, simultaneously quantifying the relative abundance of amplicon sequencing variants (ASVs) from bacteria, archaea, eukaryotic nuclear 18S, and eukaryotic plastid 16S. Thus, the ratio between taxa in one sample is directly comparable to the ratio in any other GRUMP sample, regardless of gene copy number differences. This obviates a problem in prior global studies that used size-fractionation and different rRNA gene primers for bacteria, archaea, and eukaryotes, precluding comparisons across size fractions or domains. On average, bacteria contributed 71%, eukaryotes 19%, and archaea 8% to rRNA gene abundance, though eukaryotes contributed 32% at latitudes >40°. GRUMP is publicly available on the Simons Collaborative Marine Atlas Project (CMAP), promoting the global comparison of marine microbial dynamics.

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DO - 10.1038/s41597-025-05423-9

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C2 - 40593763

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VL - 12

JO - Scientific Data

JF - Scientific Data

IS - 1

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ER -

Characterizing organisms from three domains of life with universal primers from throughout the global ocean

Abstract

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