Global importance of nitrogen fixation across inland and coastal waters

Robinson W. Fulweiler; Shelby Rinehart; Jason Taylor; Michelle C. Kelly; Megan E. Berberich; Nicholas E. Ray; Autumn Oczkowski; Sawyer Balint; Mar Benavides; Matthew J. Church; Brianna Loeks; Silvia Newell; Malin Olofsson; Jimmy Clifford Oppong; Sarah S. Roley; Carmella Vizza; Samuel T. Wilson; Subhadeep Chowdhury; Peter Groffman; J. Thad Scott; Amy M. Marcarelli

doi:10.1126/science.adt1511

Global importance of nitrogen fixation across inland and coastal waters

Robinson W. Fulweiler, Shelby Rinehart, Jason Taylor, Michelle C. Kelly, Megan E. Berberich, Nicholas E. Ray, Autumn Oczkowski, Sawyer Balint, Mar Benavides, Matthew J. Church, Brianna Loeks, Silvia Newell, Malin Olofsson, Jimmy Clifford Oppong, Sarah S. Roley, Carmella Vizza, Samuel T. Wilson, Subhadeep Chowdhury, Peter Groffman, J. Thad ScottAmy M. Marcarelli

Division of Biological and Biomedical Sciences

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

3 Scopus citations

Abstract

Biological nitrogen fixation is a key driver of global primary production and climate. Decades of effort have repeatedly updated nitrogen fixation estimates for terrestrial and open ocean systems, yet other aquatic systems in between have largely been ignored. Here we present an evaluation of nitrogen fixation for inland and coastal waters. We demonstrate that water column and sediment nitrogen fixation is ubiquitous across these diverse aquatic habitats, with rates ranging six orders of magnitude. We conservatively estimate that, despite accounting for less than 10% of the global surface area, inland and coastal aquatic systems fix 40 (30 to 54) teragrams of nitrogen per year, equivalent to 15% of the nitrogen fixed on land and in the open ocean. Inland systems contribute more than half of this biological nitrogen fixation.

Original language	English
Pages (from-to)	1205-1209
Number of pages	5
Journal	Science
Volume	388
Issue number	6752
DOIs	https://doi.org/10.1126/science.adt1511
State	Published - Jun 12 2025

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Fulweiler, R. W., Rinehart, S., Taylor, J., Kelly, M. C., Berberich, M. E., Ray, N. E., Oczkowski, A., Balint, S., Benavides, M., Church, M. J., Loeks, B., Newell, S., Olofsson, M., Oppong, J. C., Roley, S. S., Vizza, C., Wilson, S. T., Chowdhury, S., Groffman, P., ... Marcarelli, A. M. (2025). Global importance of nitrogen fixation across inland and coastal waters. Science, 388(6752), 1205-1209. https://doi.org/10.1126/science.adt1511

@article{117b1764d43f42f1bf0c9cbe108fbc70,

title = "Global importance of nitrogen fixation across inland and coastal waters",

abstract = "Biological nitrogen fixation is a key driver of global primary production and climate. Decades of effort have repeatedly updated nitrogen fixation estimates for terrestrial and open ocean systems, yet other aquatic systems in between have largely been ignored. Here we present an evaluation of nitrogen fixation for inland and coastal waters. We demonstrate that water column and sediment nitrogen fixation is ubiquitous across these diverse aquatic habitats, with rates ranging six orders of magnitude. We conservatively estimate that, despite accounting for less than 10\% of the global surface area, inland and coastal aquatic systems fix 40 (30 to 54) teragrams of nitrogen per year, equivalent to 15\% of the nitrogen fixed on land and in the open ocean. Inland systems contribute more than half of this biological nitrogen fixation.",

author = "Fulweiler, \{Robinson W.\} and Shelby Rinehart and Jason Taylor and Kelly, \{Michelle C.\} and Berberich, \{Megan E.\} and Ray, \{Nicholas E.\} and Autumn Oczkowski and Sawyer Balint and Mar Benavides and Church, \{Matthew J.\} and Brianna Loeks and Silvia Newell and Malin Olofsson and Oppong, \{Jimmy Clifford\} and Roley, \{Sarah S.\} and Carmella Vizza and Wilson, \{Samuel T.\} and Subhadeep Chowdhury and Peter Groffman and Scott, \{J. Thad\} and Marcarelli, \{Amy M.\}",

year = "2025",

month = jun,

day = "12",

doi = "10.1126/science.adt1511",

language = "English",

volume = "388",

pages = "1205--1209",

journal = "Science",

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Fulweiler, RW, Rinehart, S, Taylor, J, Kelly, MC, Berberich, ME, Ray, NE, Oczkowski, A, Balint, S, Benavides, M, Church, MJ, Loeks, B, Newell, S, Olofsson, M, Oppong, JC, Roley, SS, Vizza, C, Wilson, ST, Chowdhury, S, Groffman, P, Scott, JT & Marcarelli, AM 2025, 'Global importance of nitrogen fixation across inland and coastal waters', Science, vol. 388, no. 6752, pp. 1205-1209. https://doi.org/10.1126/science.adt1511

TY - JOUR

T1 - Global importance of nitrogen fixation across inland and coastal waters

AU - Fulweiler, Robinson W.

AU - Rinehart, Shelby

AU - Taylor, Jason

AU - Kelly, Michelle C.

AU - Berberich, Megan E.

AU - Ray, Nicholas E.

AU - Oczkowski, Autumn

AU - Balint, Sawyer

AU - Benavides, Mar

AU - Church, Matthew J.

AU - Loeks, Brianna

AU - Newell, Silvia

AU - Olofsson, Malin

AU - Oppong, Jimmy Clifford

AU - Roley, Sarah S.

AU - Vizza, Carmella

AU - Wilson, Samuel T.

AU - Chowdhury, Subhadeep

AU - Groffman, Peter

AU - Scott, J. Thad

AU - Marcarelli, Amy M.

PY - 2025/6/12

Y1 - 2025/6/12

N2 - Biological nitrogen fixation is a key driver of global primary production and climate. Decades of effort have repeatedly updated nitrogen fixation estimates for terrestrial and open ocean systems, yet other aquatic systems in between have largely been ignored. Here we present an evaluation of nitrogen fixation for inland and coastal waters. We demonstrate that water column and sediment nitrogen fixation is ubiquitous across these diverse aquatic habitats, with rates ranging six orders of magnitude. We conservatively estimate that, despite accounting for less than 10% of the global surface area, inland and coastal aquatic systems fix 40 (30 to 54) teragrams of nitrogen per year, equivalent to 15% of the nitrogen fixed on land and in the open ocean. Inland systems contribute more than half of this biological nitrogen fixation.

AB - Biological nitrogen fixation is a key driver of global primary production and climate. Decades of effort have repeatedly updated nitrogen fixation estimates for terrestrial and open ocean systems, yet other aquatic systems in between have largely been ignored. Here we present an evaluation of nitrogen fixation for inland and coastal waters. We demonstrate that water column and sediment nitrogen fixation is ubiquitous across these diverse aquatic habitats, with rates ranging six orders of magnitude. We conservatively estimate that, despite accounting for less than 10% of the global surface area, inland and coastal aquatic systems fix 40 (30 to 54) teragrams of nitrogen per year, equivalent to 15% of the nitrogen fixed on land and in the open ocean. Inland systems contribute more than half of this biological nitrogen fixation.

UR - https://www.scopus.com/pages/publications/105009358147

U2 - 10.1126/science.adt1511

DO - 10.1126/science.adt1511

M3 - Article

AN - SCOPUS:105009358147

SN - 0036-8075

VL - 388

SP - 1205

EP - 1209

JO - Science

JF - Science

IS - 6752

ER -

Global importance of nitrogen fixation across inland and coastal waters

Abstract

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