Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide

Pedro M. Tognetti; Suzanne M. Prober; Selene Báez; Enrique J. Chaneton; Jennifer Firn; Anita C. Risch; Martin Schuetz; Anna K. Simonsen; Laura Yahdjian; Elizabeth T. Borer; Eric W. Seabloom; Carlos Alberto Arnillas; Jonathan D. Bakker; Cynthia S. Brown; Marc W. Cadotte; Maria C. Caldeira; Pedro Daleo; John M. Dwyer; Philip A. Fay; Laureano A. Gherardi; Nicole Hagenah; Yann Hautier; Kimberly J. Komatsu; Rebecca L. McCulley; Jodi N. Price; Rachel J. Standish; Carly J. Stevens; Peter D. Wragg; Mahesh Sankaran

doi:10.1073/pnas.2023718118

Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide

Pedro M. Tognetti, Suzanne M. Prober, Selene Báez, Enrique J. Chaneton, Jennifer Firn, Anita C. Risch, Martin Schuetz, Anna K. Simonsen, Laura Yahdjian, Elizabeth T. Borer, Eric W. Seabloom, Carlos Alberto Arnillas, Jonathan D. Bakker, Cynthia S. Brown, Marc W. Cadotte, Maria C. Caldeira, Pedro Daleo, John M. Dwyer, Philip A. Fay, Laureano A. GherardiNicole Hagenah, Yann Hautier, Kimberly J. Komatsu, Rebecca L. McCulley, Jodi N. Price, Rachel J. Standish, Carly J. Stevens, Peter D. Wragg, Mahesh Sankaran

Plant and Soil Sciences

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

63 Scopus citations

Abstract

Anthropogenic nutrient enrichment is driving global biodiversity decline and modifying ecosystem functions. Theory suggests that plant functional types that fix atmospheric nitrogen have a competitive advantage in nitrogen-poor soils, but lose this advantage with increasing nitrogen supply. By contrast, the addition of phosphorus, potassium, and other nutrients may benefit such species in lownutrient environments by enhancing their nitrogen-fixing capacity. We present a global-scale experiment confirming these predictions for nitrogen-fixing legumes (Fabaceae) across 45 grasslands on six continents. Nitrogen addition reduced legume cover, richness, and biomass, particularly in nitrogen-poor soils, while cover of non-nitrogenfixing plants increased. The addition of phosphorous, potassium, and other nutrients enhanced legume abundance, but did not mitigate the negative effects of nitrogen addition. Increasing nitrogen supply thus has the potential to decrease the diversity and abundance of grassland legumes worldwide regardless of the availability of other nutrients, with consequences for biodiversity, food webs, ecosystem resilience, and genetic improvement of protein-rich agricultural plant species.

Original language	English
Article number	e2023718118
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	28
DOIs	https://doi.org/10.1073/pnas.2023718118
State	Published - Jul 13 2021

Bibliographical note

Publisher Copyright:
© 2021 National Academy of Sciences. All rights reserved.

Keywords

Eutrophication
Fabaceae
Legumes
N deposition
Nutrient Network

ASJC Scopus subject areas

General

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10.1073/pnas.2023718118

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Tognetti, P. M., Prober, S. M., Báez, S., Chaneton, E. J., Firn, J., Risch, A. C., Schuetz, M., Simonsen, A. K., Yahdjian, L., Borer, E. T., Seabloom, E. W., Arnillas, C. A., Bakker, J. D., Brown, C. S., Cadotte, M. W., Caldeira, M. C., Daleo, P., Dwyer, J. M., Fay, P. A., ... Sankaran, M. (2021). Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide. Proceedings of the National Academy of Sciences of the United States of America, 118(28), Article e2023718118. https://doi.org/10.1073/pnas.2023718118

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title = "Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide",

abstract = "Anthropogenic nutrient enrichment is driving global biodiversity decline and modifying ecosystem functions. Theory suggests that plant functional types that fix atmospheric nitrogen have a competitive advantage in nitrogen-poor soils, but lose this advantage with increasing nitrogen supply. By contrast, the addition of phosphorus, potassium, and other nutrients may benefit such species in lownutrient environments by enhancing their nitrogen-fixing capacity. We present a global-scale experiment confirming these predictions for nitrogen-fixing legumes (Fabaceae) across 45 grasslands on six continents. Nitrogen addition reduced legume cover, richness, and biomass, particularly in nitrogen-poor soils, while cover of non-nitrogenfixing plants increased. The addition of phosphorous, potassium, and other nutrients enhanced legume abundance, but did not mitigate the negative effects of nitrogen addition. Increasing nitrogen supply thus has the potential to decrease the diversity and abundance of grassland legumes worldwide regardless of the availability of other nutrients, with consequences for biodiversity, food webs, ecosystem resilience, and genetic improvement of protein-rich agricultural plant species.",

keywords = "Eutrophication, Fabaceae, Legumes, N deposition, Nutrient Network",

author = "Tognetti, {Pedro M.} and Prober, {Suzanne M.} and Selene B{\'a}ez and Chaneton, {Enrique J.} and Jennifer Firn and Risch, {Anita C.} and Martin Schuetz and Simonsen, {Anna K.} and Laura Yahdjian and Borer, {Elizabeth T.} and Seabloom, {Eric W.} and Arnillas, {Carlos Alberto} and Bakker, {Jonathan D.} and Brown, {Cynthia S.} and Cadotte, {Marc W.} and Caldeira, {Maria C.} and Pedro Daleo and Dwyer, {John M.} and Fay, {Philip A.} and Gherardi, {Laureano A.} and Nicole Hagenah and Yann Hautier and Komatsu, {Kimberly J.} and McCulley, {Rebecca L.} and Price, {Jodi N.} and Standish, {Rachel J.} and Stevens, {Carly J.} and Wragg, {Peter D.} and Mahesh Sankaran",

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Tognetti, PM, Prober, SM, Báez, S, Chaneton, EJ, Firn, J, Risch, AC, Schuetz, M, Simonsen, AK, Yahdjian, L, Borer, ET, Seabloom, EW, Arnillas, CA, Bakker, JD, Brown, CS, Cadotte, MW, Caldeira, MC, Daleo, P, Dwyer, JM, Fay, PA, Gherardi, LA, Hagenah, N, Hautier, Y, Komatsu, KJ, McCulley, RL, Price, JN, Standish, RJ, Stevens, CJ, Wragg, PD & Sankaran, M 2021, 'Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 28, e2023718118. https://doi.org/10.1073/pnas.2023718118

TY - JOUR

T1 - Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide

AU - Tognetti, Pedro M.

AU - Prober, Suzanne M.

AU - Báez, Selene

AU - Chaneton, Enrique J.

AU - Firn, Jennifer

AU - Risch, Anita C.

AU - Schuetz, Martin

AU - Simonsen, Anna K.

AU - Yahdjian, Laura

AU - Borer, Elizabeth T.

AU - Seabloom, Eric W.

AU - Arnillas, Carlos Alberto

AU - Bakker, Jonathan D.

AU - Brown, Cynthia S.

AU - Cadotte, Marc W.

AU - Caldeira, Maria C.

AU - Daleo, Pedro

AU - Dwyer, John M.

AU - Fay, Philip A.

AU - Gherardi, Laureano A.

AU - Hagenah, Nicole

AU - Hautier, Yann

AU - Komatsu, Kimberly J.

AU - McCulley, Rebecca L.

AU - Price, Jodi N.

AU - Standish, Rachel J.

AU - Stevens, Carly J.

AU - Wragg, Peter D.

AU - Sankaran, Mahesh

PY - 2021/7/13

Y1 - 2021/7/13

N2 - Anthropogenic nutrient enrichment is driving global biodiversity decline and modifying ecosystem functions. Theory suggests that plant functional types that fix atmospheric nitrogen have a competitive advantage in nitrogen-poor soils, but lose this advantage with increasing nitrogen supply. By contrast, the addition of phosphorus, potassium, and other nutrients may benefit such species in lownutrient environments by enhancing their nitrogen-fixing capacity. We present a global-scale experiment confirming these predictions for nitrogen-fixing legumes (Fabaceae) across 45 grasslands on six continents. Nitrogen addition reduced legume cover, richness, and biomass, particularly in nitrogen-poor soils, while cover of non-nitrogenfixing plants increased. The addition of phosphorous, potassium, and other nutrients enhanced legume abundance, but did not mitigate the negative effects of nitrogen addition. Increasing nitrogen supply thus has the potential to decrease the diversity and abundance of grassland legumes worldwide regardless of the availability of other nutrients, with consequences for biodiversity, food webs, ecosystem resilience, and genetic improvement of protein-rich agricultural plant species.

AB - Anthropogenic nutrient enrichment is driving global biodiversity decline and modifying ecosystem functions. Theory suggests that plant functional types that fix atmospheric nitrogen have a competitive advantage in nitrogen-poor soils, but lose this advantage with increasing nitrogen supply. By contrast, the addition of phosphorus, potassium, and other nutrients may benefit such species in lownutrient environments by enhancing their nitrogen-fixing capacity. We present a global-scale experiment confirming these predictions for nitrogen-fixing legumes (Fabaceae) across 45 grasslands on six continents. Nitrogen addition reduced legume cover, richness, and biomass, particularly in nitrogen-poor soils, while cover of non-nitrogenfixing plants increased. The addition of phosphorous, potassium, and other nutrients enhanced legume abundance, but did not mitigate the negative effects of nitrogen addition. Increasing nitrogen supply thus has the potential to decrease the diversity and abundance of grassland legumes worldwide regardless of the availability of other nutrients, with consequences for biodiversity, food webs, ecosystem resilience, and genetic improvement of protein-rich agricultural plant species.

KW - Eutrophication

KW - Fabaceae

KW - Legumes

KW - N deposition

KW - Nutrient Network

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AN - SCOPUS:85109436052

SN - 0027-8424

VL - 118

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 28

M1 - e2023718118

ER -

Negative effects of nitrogen override positive effects of phosphorus on grassland legumes worldwide

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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