Nutrient identity modifies the destabilising effects of eutrophication in grasslands

Oliver Carroll; Evan Batzer; Siddharth Bharath; Elizabeth T. Borer; Sofía Campana; Ellen Esch; Yann Hautier; Timothy Ohlert; Eric W. Seabloom; Peter B. Adler; Jonathan D. Bakker; Lori Biederman; Miguel N. Bugalho; Maria Caldeira; Qingqing Chen; Kendi F. Davies; Philip A. Fay; Johannes M.H. Knops; Kimberly Komatsu; Jason P. Martina; Kevin S. McCann; Joslin L. Moore; John W. Morgan; Taofeek O. Muraina; Brooke Osborne; Anita C. Risch; Carly Stevens; Peter A. Wilfahrt; Laura Yahdjian; Andrew S. MacDougall

doi:10.1111/ele.13946

Nutrient identity modifies the destabilising effects of eutrophication in grasslands

Oliver Carroll, Evan Batzer, Siddharth Bharath, Elizabeth T. Borer, Sofía Campana, Ellen Esch, Yann Hautier, Timothy Ohlert, Eric W. Seabloom, Peter B. Adler, Jonathan D. Bakker, Lori Biederman, Miguel N. Bugalho, Maria Caldeira, Qingqing Chen, Kendi F. Davies, Philip A. Fay, Johannes M.H. Knops, Kimberly Komatsu, Jason P. MartinaKevin S. McCann, Joslin L. Moore, John W. Morgan, Taofeek O. Muraina, Brooke Osborne, Anita C. Risch, Carly Stevens, Peter A. Wilfahrt, Laura Yahdjian, Andrew S. MacDougall

Ecology, Evolution and Behavior

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

15 Scopus citations

Abstract

Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-limitation by multiple nutrients potentially intensifying these effects. Here, we test how factorial additions of nitrogen (N), phosphorus (P) and potassium with essential nutrients (K+) affect the stability (mean/standard deviation) of aboveground biomass in 34 grasslands over 7 years. Destabilisation with fertilisation was prevalent but was driven by single nutrients, not synergistic nutrient interactions. On average, N-based treatments increased mean biomass production by 21–51% but increased its standard deviation by 40–68% and so consistently reduced stability. Adding P increased interannual variability and reduced stability without altering mean biomass, while K+ had no general effects. Declines in stability were largest in the most nutrient-limited grasslands, or where nutrients reduced species richness or intensified species synchrony. We show that nutrients can differentially impact the stability of biomass production, with N and P in particular disproportionately increasing its interannual variability.

Original language	English (US)
Pages (from-to)	754-765
Number of pages	12
Journal	Ecology letters
Volume	25
Issue number	4
DOIs	https://doi.org/10.1111/ele.13946
State	Published - Apr 2022

Bibliographical note

Publisher Copyright:
© 2021 John Wiley & Sons Ltd.

Keywords

biodiversity loss
biomass
co-limitation
ecosystem function
ecosystem stability
nutrient Network (NutNet)
nutrient enrichment
synchrony
variability

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Carroll, O., Batzer, E., Bharath, S., Borer, E. T., Campana, S., Esch, E., Hautier, Y., Ohlert, T., Seabloom, E. W., Adler, P. B., Bakker, J. D., Biederman, L., Bugalho, M. N., Caldeira, M., Chen, Q., Davies, K. F., Fay, P. A., Knops, J. M. H., Komatsu, K., ... MacDougall, A. S. (2022). Nutrient identity modifies the destabilising effects of eutrophication in grasslands. Ecology letters, 25(4), 754-765. https://doi.org/10.1111/ele.13946

Carroll, O, Batzer, E, Bharath, S, Borer, ET, Campana, S, Esch, E, Hautier, Y, Ohlert, T, Seabloom, EW, Adler, PB, Bakker, JD, Biederman, L, Bugalho, MN, Caldeira, M, Chen, Q, Davies, KF, Fay, PA, Knops, JMH, Komatsu, K, Martina, JP, McCann, KS, Moore, JL, Morgan, JW, Muraina, TO, Osborne, B, Risch, AC, Stevens, C, Wilfahrt, PA, Yahdjian, L & MacDougall, AS 2022, 'Nutrient identity modifies the destabilising effects of eutrophication in grasslands', Ecology letters, vol. 25, no. 4, pp. 754-765. https://doi.org/10.1111/ele.13946

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abstract = "Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-limitation by multiple nutrients potentially intensifying these effects. Here, we test how factorial additions of nitrogen (N), phosphorus (P) and potassium with essential nutrients (K+) affect the stability (mean/standard deviation) of aboveground biomass in 34 grasslands over 7 years. Destabilisation with fertilisation was prevalent but was driven by single nutrients, not synergistic nutrient interactions. On average, N-based treatments increased mean biomass production by 21–51% but increased its standard deviation by 40–68% and so consistently reduced stability. Adding P increased interannual variability and reduced stability without altering mean biomass, while K+ had no general effects. Declines in stability were largest in the most nutrient-limited grasslands, or where nutrients reduced species richness or intensified species synchrony. We show that nutrients can differentially impact the stability of biomass production, with N and P in particular disproportionately increasing its interannual variability.",

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doi = "10.1111/ele.13946",

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AU - Carroll, Oliver

AU - Batzer, Evan

AU - Bharath, Siddharth

AU - Borer, Elizabeth T.

AU - Campana, Sofía

AU - Esch, Ellen

AU - Hautier, Yann

AU - Ohlert, Timothy

AU - Seabloom, Eric W.

AU - Adler, Peter B.

AU - Bakker, Jonathan D.

AU - Biederman, Lori

AU - Bugalho, Miguel N.

AU - Caldeira, Maria

AU - Chen, Qingqing

AU - Davies, Kendi F.

AU - Fay, Philip A.

AU - Knops, Johannes M.H.

AU - Komatsu, Kimberly

AU - Martina, Jason P.

AU - McCann, Kevin S.

AU - Moore, Joslin L.

AU - Morgan, John W.

AU - Muraina, Taofeek O.

AU - Osborne, Brooke

AU - Risch, Anita C.

AU - Stevens, Carly

AU - Wilfahrt, Peter A.

AU - Yahdjian, Laura

AU - MacDougall, Andrew S.

PY - 2022/4

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N2 - Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-limitation by multiple nutrients potentially intensifying these effects. Here, we test how factorial additions of nitrogen (N), phosphorus (P) and potassium with essential nutrients (K+) affect the stability (mean/standard deviation) of aboveground biomass in 34 grasslands over 7 years. Destabilisation with fertilisation was prevalent but was driven by single nutrients, not synergistic nutrient interactions. On average, N-based treatments increased mean biomass production by 21–51% but increased its standard deviation by 40–68% and so consistently reduced stability. Adding P increased interannual variability and reduced stability without altering mean biomass, while K+ had no general effects. Declines in stability were largest in the most nutrient-limited grasslands, or where nutrients reduced species richness or intensified species synchrony. We show that nutrients can differentially impact the stability of biomass production, with N and P in particular disproportionately increasing its interannual variability.

AB - Nutrient enrichment can simultaneously increase and destabilise plant biomass production, with co-limitation by multiple nutrients potentially intensifying these effects. Here, we test how factorial additions of nitrogen (N), phosphorus (P) and potassium with essential nutrients (K+) affect the stability (mean/standard deviation) of aboveground biomass in 34 grasslands over 7 years. Destabilisation with fertilisation was prevalent but was driven by single nutrients, not synergistic nutrient interactions. On average, N-based treatments increased mean biomass production by 21–51% but increased its standard deviation by 40–68% and so consistently reduced stability. Adding P increased interannual variability and reduced stability without altering mean biomass, while K+ had no general effects. Declines in stability were largest in the most nutrient-limited grasslands, or where nutrients reduced species richness or intensified species synchrony. We show that nutrients can differentially impact the stability of biomass production, with N and P in particular disproportionately increasing its interannual variability.

KW - biodiversity loss

KW - biomass

KW - co-limitation

KW - ecosystem function

KW - ecosystem stability

KW - nutrient Network (NutNet)

KW - nutrient enrichment

KW - synchrony

KW - variability

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JO - Ecology letters

JF - Ecology letters

IS - 4

ER -

Nutrient identity modifies the destabilising effects of eutrophication in grasslands

Abstract

Bibliographical note

Keywords

UN SDGs

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