An ecological framework for microbial metabolites in the ocean ecosystem

Bryndan P. Durham; Winifred M. Johnson; Catherine C. Bannon; Erin M. Bertrand; Anitra E. Ingalls; Bethanie R. Edwards; Amy Apprill; Angela K. Boysen; Randelle M. Bundy; Huan Chen; Frank X. Ferrer-González; Cara Fiore; Katherine R. Heal; Constanze Kuhlisch; Shuting Liu; Kaijun Lu; Laurel E. Meke; Sammy Pontrelli; Prabavathy Vaiyapuri Ramalingam; Alicia M. Reigel; Joshua S. Sacks; Jeremy E. Schreier; Jegan Sekar; Mario Uchimiya; Elizabeth B. Kujawinski

doi:10.1002/lol2.70046

An ecological framework for microbial metabolites in the ocean ecosystem

Bryndan P. Durham
, Winifred M. Johnson
, Catherine C. Bannon
, Erin M. Bertrand
, Anitra E. Ingalls
, Bethanie R. Edwards
, Amy Apprill
, Angela K. Boysen
, Randelle M. Bundy
, Huan Chen
, Frank X. Ferrer-González
, Cara Fiore
, Katherine R. Heal
, Constanze Kuhlisch
, Shuting Liu
, Kaijun Lu
, Laurel E. Meke
, Sammy Pontrelli
, Prabavathy Vaiyapuri Ramalingam
, Alicia M. Reigel

Joshua S. Sacks, Jeremy E. Schreier, Jegan Sekar, Mario Uchimiya, Elizabeth B. Kujawinski

Environmental Science

University of Florida
University of North Carolina at Wilmington
Max Planck Institute for Marine Microbiology
Dalhousie University
University of Washington
Earth and Planetary Science Department
Woods Hole Oceanographic Institution
Pacific Lutheran University
Florida State University
Appalachian State University
Pacific Northwest National Laboratory
Weizmann Institute of Science
University of Texas at Austin
Flanders Institute for Biotechnology
M S Swaminathan Research Foundation
Washington and Lee University
California Institute of Technology
University of Georgia

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

1 Scopus citations

Abstract

The ocean microbe-metabolite network involves thousands of individual metabolites that encompass a breadth of chemical diversity and biological functions. These microbial metabolites mediate biogeochemical cycles, facilitate ecological relationships, and impact ecosystem health. While analytical advancements have begun to illuminate such roles, a challenge in navigating the deluge of marine metabolomics information is to identify a subset of metabolites that have the greatest ecosystem impact. Here, we present an ecological framework to distill knowledge of fundamental metabolites that underpin marine ecosystems. We borrow terms from macroecology that describe important species, namely “dominant,” “keystone,” and “indicator” species, and apply these designations to metabolites within the ocean microbial metabolome. These selected metabolites may shape marine community structure, function, and health and provide focal points for enhanced study of microbe-metabolite networks. Applying ecological concepts to marine metabolites provides a path to leverage metabolomics data to better describe and predict marine microbial ecosystems.

Original language	English
Pages (from-to)	636-659
Number of pages	24
Journal	Limnology and Oceanography Letters
Volume	10
Issue number	5
DOIs	https://doi.org/10.1002/lol2.70046
State	Published - Sep 2025

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10.1002/lol2.70046

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Durham, B. P., Johnson, W. M., Bannon, C. C., Bertrand, E. M., Ingalls, A. E., Edwards, B. R., Apprill, A., Boysen, A. K., Bundy, R. M., Chen, H., Ferrer-González, F. X., Fiore, C., Heal, K. R., Kuhlisch, C., Liu, S., Lu, K., Meke, L. E., Pontrelli, S., Vaiyapuri Ramalingam, P., ... Kujawinski, E. B. (2025). An ecological framework for microbial metabolites in the ocean ecosystem. Limnology and Oceanography Letters, 10(5), 636-659. https://doi.org/10.1002/lol2.70046

@article{5dfecb74e78c4209891a7cdf4a179741,

title = "An ecological framework for microbial metabolites in the ocean ecosystem",

abstract = "The ocean microbe-metabolite network involves thousands of individual metabolites that encompass a breadth of chemical diversity and biological functions. These microbial metabolites mediate biogeochemical cycles, facilitate ecological relationships, and impact ecosystem health. While analytical advancements have begun to illuminate such roles, a challenge in navigating the deluge of marine metabolomics information is to identify a subset of metabolites that have the greatest ecosystem impact. Here, we present an ecological framework to distill knowledge of fundamental metabolites that underpin marine ecosystems. We borrow terms from macroecology that describe important species, namely “dominant,” “keystone,” and “indicator” species, and apply these designations to metabolites within the ocean microbial metabolome. These selected metabolites may shape marine community structure, function, and health and provide focal points for enhanced study of microbe-metabolite networks. Applying ecological concepts to marine metabolites provides a path to leverage metabolomics data to better describe and predict marine microbial ecosystems.",

author = "Durham, \{Bryndan P.\} and Johnson, \{Winifred M.\} and Bannon, \{Catherine C.\} and Bertrand, \{Erin M.\} and Ingalls, \{Anitra E.\} and Edwards, \{Bethanie R.\} and Amy Apprill and Boysen, \{Angela K.\} and Bundy, \{Randelle M.\} and Huan Chen and Ferrer-Gonz{\'a}lez, \{Frank X.\} and Cara Fiore and Heal, \{Katherine R.\} and Constanze Kuhlisch and Shuting Liu and Kaijun Lu and Meke, \{Laurel E.\} and Sammy Pontrelli and \{Vaiyapuri Ramalingam\}, Prabavathy and Reigel, \{Alicia M.\} and Sacks, \{Joshua S.\} and Schreier, \{Jeremy E.\} and Jegan Sekar and Mario Uchimiya and Kujawinski, \{Elizabeth B.\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Limnology and Oceanography Letters published by Wiley Periodicals LLC on behalf of Association for the Sciences of Limnology and Oceanography.",

year = "2025",

month = sep,

doi = "10.1002/lol2.70046",

language = "English",

volume = "10",

pages = "636--659",

journal = "Limnology and Oceanography Letters",

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Durham, BP, Johnson, WM, Bannon, CC, Bertrand, EM, Ingalls, AE, Edwards, BR, Apprill, A, Boysen, AK, Bundy, RM, Chen, H, Ferrer-González, FX, Fiore, C, Heal, KR, Kuhlisch, C, Liu, S, Lu, K, Meke, LE, Pontrelli, S, Vaiyapuri Ramalingam, P, Reigel, AM, Sacks, JS, Schreier, JE, Sekar, J, Uchimiya, M & Kujawinski, EB 2025, 'An ecological framework for microbial metabolites in the ocean ecosystem', Limnology and Oceanography Letters, vol. 10, no. 5, pp. 636-659. https://doi.org/10.1002/lol2.70046

TY - JOUR

T1 - An ecological framework for microbial metabolites in the ocean ecosystem

AU - Durham, Bryndan P.

AU - Johnson, Winifred M.

AU - Bannon, Catherine C.

AU - Bertrand, Erin M.

AU - Ingalls, Anitra E.

AU - Edwards, Bethanie R.

AU - Apprill, Amy

AU - Boysen, Angela K.

AU - Bundy, Randelle M.

AU - Chen, Huan

AU - Ferrer-González, Frank X.

AU - Fiore, Cara

AU - Heal, Katherine R.

AU - Kuhlisch, Constanze

AU - Liu, Shuting

AU - Lu, Kaijun

AU - Meke, Laurel E.

AU - Pontrelli, Sammy

AU - Vaiyapuri Ramalingam, Prabavathy

AU - Reigel, Alicia M.

AU - Sacks, Joshua S.

AU - Schreier, Jeremy E.

AU - Sekar, Jegan

AU - Uchimiya, Mario

AU - Kujawinski, Elizabeth B.

PY - 2025/9

Y1 - 2025/9

N2 - The ocean microbe-metabolite network involves thousands of individual metabolites that encompass a breadth of chemical diversity and biological functions. These microbial metabolites mediate biogeochemical cycles, facilitate ecological relationships, and impact ecosystem health. While analytical advancements have begun to illuminate such roles, a challenge in navigating the deluge of marine metabolomics information is to identify a subset of metabolites that have the greatest ecosystem impact. Here, we present an ecological framework to distill knowledge of fundamental metabolites that underpin marine ecosystems. We borrow terms from macroecology that describe important species, namely “dominant,” “keystone,” and “indicator” species, and apply these designations to metabolites within the ocean microbial metabolome. These selected metabolites may shape marine community structure, function, and health and provide focal points for enhanced study of microbe-metabolite networks. Applying ecological concepts to marine metabolites provides a path to leverage metabolomics data to better describe and predict marine microbial ecosystems.

AB - The ocean microbe-metabolite network involves thousands of individual metabolites that encompass a breadth of chemical diversity and biological functions. These microbial metabolites mediate biogeochemical cycles, facilitate ecological relationships, and impact ecosystem health. While analytical advancements have begun to illuminate such roles, a challenge in navigating the deluge of marine metabolomics information is to identify a subset of metabolites that have the greatest ecosystem impact. Here, we present an ecological framework to distill knowledge of fundamental metabolites that underpin marine ecosystems. We borrow terms from macroecology that describe important species, namely “dominant,” “keystone,” and “indicator” species, and apply these designations to metabolites within the ocean microbial metabolome. These selected metabolites may shape marine community structure, function, and health and provide focal points for enhanced study of microbe-metabolite networks. Applying ecological concepts to marine metabolites provides a path to leverage metabolomics data to better describe and predict marine microbial ecosystems.

UR - https://www.scopus.com/pages/publications/105011085422

U2 - 10.1002/lol2.70046

DO - 10.1002/lol2.70046

M3 - Article

AN - SCOPUS:105011085422

SN - 2378-2242

VL - 10

SP - 636

EP - 659

JO - Limnology and Oceanography Letters

JF - Limnology and Oceanography Letters

IS - 5

ER -

An ecological framework for microbial metabolites in the ocean ecosystem

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