Increased grassland arthropod production with mammalian herbivory and eutrophication: a test of mediation pathways

Eric M. Lind; Kimberly J. La Pierre; Eric W. Seabloom; Juan Alberti; Oscar Iribarne; Jennifer Firn; Daniel S. Gruner; Adam D. Kay; Jesus Pascal; Justin P. Wright; Louie Yang; Elizabeth T. Borer

doi:10.1002/ecy.2029

Increased grassland arthropod production with mammalian herbivory and eutrophication: a test of mediation pathways

Eric M. Lind, Kimberly J. La Pierre, Eric W. Seabloom, Juan Alberti, Oscar Iribarne, Jennifer Firn, Daniel S. Gruner, Adam D. Kay, Jesus Pascal, Justin P. Wright, Louie Yang, Elizabeth T. Borer

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

38 Scopus citations

Abstract

Increases in nutrient availability and alterations to mammalian herbivore communities are a hallmark of the Anthropocene, with consequences for the primary producer communities in many ecosystems. While progress has advanced understanding of plant community responses to these perturbations, the consequences for energy flow to higher trophic levels in the form of secondary production are less well understood. We quantified arthropod biomass after manipulating soil nutrient availability and wild mammalian herbivory, using identical methods across 13 temperate grasslands. Of experimental increases in nitrogen, phosphorus, and potassium, only treatments including nitrogen resulted in significantly increased arthropod biomass. Wild mammalian herbivore removal had a marginal, negative effect on arthropod biomass, with no interaction with nutrient availability. Path analysis including all sites implicated nutrient content of the primary producers as a driver of increased arthropod mean size, which we confirmed using 10 sites for which we had foliar nutrient data. Plant biomass and physical structure mediated the increase in arthropod abundance, while the nitrogen treatments accounted for additional variation not explained by our measured plant variables. The mean size of arthropod individuals was 2.5 times more influential on the plot-level total arthropod biomass than was the number of individuals. The eutrophication of grasslands through human activity, especially nitrogen deposition, thus may contribute to higher production of arthropod consumers through increases in nutrient availability across trophic levels.

Original language	English (US)
Pages (from-to)	3022-3033
Number of pages	12
Journal	Ecology
Volume	98
Issue number	12
DOIs	https://doi.org/10.1002/ecy.2029
State	Published - Dec 2017

Bibliographical note

Funding Information:
We acknowledge the contribution of Nutrient Network investigators who collected plant data used in this manuscript. We especially appreciate the sampling design and methodology developed for this project by Elizabeth M. Wolkovich. This work was generated using data from the Nutrient Network (http://www.nutnet.org) experiment, funded at the site-scale by individual researchers. Coordination and data management have been supported by funding to E. Borer and E. Seabloom from the National Science Foundation Research Coordination Network (NSF-DEB-1042132) and Long Term Ecological Research (NSF-DEB-1234162 to Cedar Creek LTER) programs, and the Institute on the Environment (DG-0001-13). We also thank the Minnesota Supercomputer Institute for hosting project data and the Institute on the Environment for hosting Network meetings.

Publisher Copyright:
© 2017 by the Ecological Society of America

Keywords

Nutrient Network
arthropod community
grazing
nutrient limitation
secondary production
structural equation model

Publisher link

10.1002/ecy.2029

https://eprints.qut.edu.au/112245/1/__qut.edu.au_Documents_StaffHome_staffgroupW%24_wu75_Documents_ePrints_112245Lind_et_al-2017-Ecology.pdf

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@article{437ad693bbce47b7bef57c92663c4f37,

title = "Increased grassland arthropod production with mammalian herbivory and eutrophication: a test of mediation pathways",

abstract = "Increases in nutrient availability and alterations to mammalian herbivore communities are a hallmark of the Anthropocene, with consequences for the primary producer communities in many ecosystems. While progress has advanced understanding of plant community responses to these perturbations, the consequences for energy flow to higher trophic levels in the form of secondary production are less well understood. We quantified arthropod biomass after manipulating soil nutrient availability and wild mammalian herbivory, using identical methods across 13 temperate grasslands. Of experimental increases in nitrogen, phosphorus, and potassium, only treatments including nitrogen resulted in significantly increased arthropod biomass. Wild mammalian herbivore removal had a marginal, negative effect on arthropod biomass, with no interaction with nutrient availability. Path analysis including all sites implicated nutrient content of the primary producers as a driver of increased arthropod mean size, which we confirmed using 10 sites for which we had foliar nutrient data. Plant biomass and physical structure mediated the increase in arthropod abundance, while the nitrogen treatments accounted for additional variation not explained by our measured plant variables. The mean size of arthropod individuals was 2.5 times more influential on the plot-level total arthropod biomass than was the number of individuals. The eutrophication of grasslands through human activity, especially nitrogen deposition, thus may contribute to higher production of arthropod consumers through increases in nutrient availability across trophic levels.",

keywords = "Nutrient Network, arthropod community, grazing, nutrient limitation, secondary production, structural equation model",

author = "Lind, {Eric M.} and {La Pierre}, {Kimberly J.} and Seabloom, {Eric W.} and Juan Alberti and Oscar Iribarne and Jennifer Firn and Gruner, {Daniel S.} and Kay, {Adam D.} and Jesus Pascal and Wright, {Justin P.} and Louie Yang and Borer, {Elizabeth T.}",

note = "Funding Information: We acknowledge the contribution of Nutrient Network investigators who collected plant data used in this manuscript. We especially appreciate the sampling design and methodology developed for this project by Elizabeth M. Wolkovich. This work was generated using data from the Nutrient Network (http://www.nutnet.org) experiment, funded at the site-scale by individual researchers. Coordination and data management have been supported by funding to E. Borer and E. Seabloom from the National Science Foundation Research Coordination Network (NSF-DEB-1042132) and Long Term Ecological Research (NSF-DEB-1234162 to Cedar Creek LTER) programs, and the Institute on the Environment (DG-0001-13). We also thank the Minnesota Supercomputer Institute for hosting project data and the Institute on the Environment for hosting Network meetings. Publisher Copyright: {\textcopyright} 2017 by the Ecological Society of America",

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month = dec,

doi = "10.1002/ecy.2029",

language = "English (US)",

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AU - Lind, Eric M.

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AU - Seabloom, Eric W.

AU - Alberti, Juan

AU - Iribarne, Oscar

AU - Firn, Jennifer

AU - Gruner, Daniel S.

AU - Kay, Adam D.

AU - Pascal, Jesus

AU - Wright, Justin P.

AU - Yang, Louie

AU - Borer, Elizabeth T.

N1 - Funding Information: We acknowledge the contribution of Nutrient Network investigators who collected plant data used in this manuscript. We especially appreciate the sampling design and methodology developed for this project by Elizabeth M. Wolkovich. This work was generated using data from the Nutrient Network (http://www.nutnet.org) experiment, funded at the site-scale by individual researchers. Coordination and data management have been supported by funding to E. Borer and E. Seabloom from the National Science Foundation Research Coordination Network (NSF-DEB-1042132) and Long Term Ecological Research (NSF-DEB-1234162 to Cedar Creek LTER) programs, and the Institute on the Environment (DG-0001-13). We also thank the Minnesota Supercomputer Institute for hosting project data and the Institute on the Environment for hosting Network meetings. Publisher Copyright: © 2017 by the Ecological Society of America

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N2 - Increases in nutrient availability and alterations to mammalian herbivore communities are a hallmark of the Anthropocene, with consequences for the primary producer communities in many ecosystems. While progress has advanced understanding of plant community responses to these perturbations, the consequences for energy flow to higher trophic levels in the form of secondary production are less well understood. We quantified arthropod biomass after manipulating soil nutrient availability and wild mammalian herbivory, using identical methods across 13 temperate grasslands. Of experimental increases in nitrogen, phosphorus, and potassium, only treatments including nitrogen resulted in significantly increased arthropod biomass. Wild mammalian herbivore removal had a marginal, negative effect on arthropod biomass, with no interaction with nutrient availability. Path analysis including all sites implicated nutrient content of the primary producers as a driver of increased arthropod mean size, which we confirmed using 10 sites for which we had foliar nutrient data. Plant biomass and physical structure mediated the increase in arthropod abundance, while the nitrogen treatments accounted for additional variation not explained by our measured plant variables. The mean size of arthropod individuals was 2.5 times more influential on the plot-level total arthropod biomass than was the number of individuals. The eutrophication of grasslands through human activity, especially nitrogen deposition, thus may contribute to higher production of arthropod consumers through increases in nutrient availability across trophic levels.

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Increased grassland arthropod production with mammalian herbivory and eutrophication: a test of mediation pathways

Abstract

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