Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation

Dorothee Hodapp; Elizabeth T. Borer; W. Stanley Harpole; Eric M. Lind; Eric W. Seabloom; Peter B. Adler; Juan Alberti; Carlos A. Arnillas; Jonathan D. Bakker; Lori Biederman; Marc Cadotte; Elsa E. Cleland; Scott Collins; Philip A. Fay; Jennifer Firn; Nicole Hagenah; Yann Hautier; Oscar Iribarne; Johannes M.H. Knops; Rebecca L. McCulley; Andrew MacDougall; Joslin L. Moore; John W. Morgan; Brent Mortensen; Kimberly J. La Pierre; Anita C. Risch; Martin Schütz; Pablo Peri; Carly J. Stevens; Justin Wright; Helmut Hillebrand

doi:10.1111/ele.13102

Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation

Dorothee Hodapp^*, Elizabeth T. Borer, W. Stanley Harpole, Eric M. Lind, Eric W. Seabloom, Peter B. Adler, Juan Alberti, Carlos A. Arnillas, Jonathan D. Bakker, Lori Biederman, Marc Cadotte, Elsa E. Cleland, Scott Collins, Philip A. Fay, Jennifer Firn, Nicole Hagenah, Yann Hautier, Oscar Iribarne, Johannes M.H. Knops, Rebecca L. McCulleyAndrew MacDougall, Joslin L. Moore, John W. Morgan, Brent Mortensen, Kimberly J. La Pierre, Anita C. Risch, Martin Schütz, Pablo Peri, Carly J. Stevens, Justin Wright, Helmut Hillebrand

^*Corresponding author for this work

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

39 Citations (Scopus)

Abstract

Environmental change can result in substantial shifts in community composition. The associated immigration and extinction events are likely constrained by the spatial distribution of species. Still, studies on environmental change typically quantify biotic responses at single spatial (time series within a single plot) or temporal (spatial beta diversity at single time points) scales, ignoring their potential interdependence. Here, we use data from a global network of grassland experiments to determine how turnover responses to two major forms of environmental change – fertilisation and herbivore loss – are affected by species pool size and spatial compositional heterogeneity. Fertilisation led to higher rates of local extinction, whereas turnover in herbivore exclusion plots was driven by species replacement. Overall, sites with more spatially heterogeneous composition showed significantly higher rates of annual turnover, independent of species pool size and treatment. Taking into account spatial biodiversity aspects will therefore improve our understanding of consequences of global and anthropogenic change on community dynamics.

Original language	English
Pages (from-to)	1364-1371
Number of pages	8
Journal	Ecology Letters
Volume	21
Issue number	9
DOIs	https://doi.org/10.1111/ele.13102
Publication status	Published - Sept 2018
Externally published	Yes

Keywords

Beta diversity
Nutrient Network (NutNet)
diversity
fertilisation
grassland
nitrogen
spatial heterogeneity
species composition
temporal turnover

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10.1111/ele.13102

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Hodapp, D., Borer, E. T., Harpole, W. S., Lind, E. M., Seabloom, E. W., Adler, P. B., Alberti, J., Arnillas, C. A., Bakker, J. D., Biederman, L., Cadotte, M., Cleland, E. E., Collins, S., Fay, P. A., Firn, J., Hagenah, N., Hautier, Y., Iribarne, O., Knops, J. M. H., ... Hillebrand, H. (2018). Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation. Ecology Letters, 21(9), 1364-1371. https://doi.org/10.1111/ele.13102

@article{c5b455ae72bc4ef8addbe6d29a638c74,

title = "Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation",

abstract = "Environmental change can result in substantial shifts in community composition. The associated immigration and extinction events are likely constrained by the spatial distribution of species. Still, studies on environmental change typically quantify biotic responses at single spatial (time series within a single plot) or temporal (spatial beta diversity at single time points) scales, ignoring their potential interdependence. Here, we use data from a global network of grassland experiments to determine how turnover responses to two major forms of environmental change – fertilisation and herbivore loss – are affected by species pool size and spatial compositional heterogeneity. Fertilisation led to higher rates of local extinction, whereas turnover in herbivore exclusion plots was driven by species replacement. Overall, sites with more spatially heterogeneous composition showed significantly higher rates of annual turnover, independent of species pool size and treatment. Taking into account spatial biodiversity aspects will therefore improve our understanding of consequences of global and anthropogenic change on community dynamics.",

keywords = "Beta diversity, Nutrient Network (NutNet), diversity, fertilisation, grassland, nitrogen, spatial heterogeneity, species composition, temporal turnover",

author = "Dorothee Hodapp and Borer, {Elizabeth T.} and Harpole, {W. Stanley} and Lind, {Eric M.} and Seabloom, {Eric W.} and Adler, {Peter B.} and Juan Alberti and Arnillas, {Carlos A.} and Bakker, {Jonathan D.} and Lori Biederman and Marc Cadotte and Cleland, {Elsa E.} and Scott Collins and Fay, {Philip A.} and Jennifer Firn and Nicole Hagenah and Yann Hautier and Oscar Iribarne and Knops, {Johannes M.H.} and McCulley, {Rebecca L.} and Andrew MacDougall and Moore, {Joslin L.} and Morgan, {John W.} and Brent Mortensen and {La Pierre}, {Kimberly J.} and Risch, {Anita C.} and Martin Sch{\"u}tz and Pablo Peri and Stevens, {Carly J.} and Justin Wright and Helmut Hillebrand",

note = "Funding Information: DH and HH acknowledge funding by the Ministry of Science and Culture, State of Lower Saxony, through the project BEFmate. 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 Publisher Copyright: {\textcopyright} 2018 John Wiley & Sons Ltd/CNRS",

year = "2018",

month = sep,

doi = "10.1111/ele.13102",

language = "English",

volume = "21",

pages = "1364--1371",

journal = "Ecology Letters",

issn = "1461-023X",

number = "9",

}

Hodapp, D, Borer, ET, Harpole, WS, Lind, EM, Seabloom, EW, Adler, PB, Alberti, J, Arnillas, CA, Bakker, JD, Biederman, L, Cadotte, M, Cleland, EE, Collins, S, Fay, PA, Firn, J, Hagenah, N, Hautier, Y, Iribarne, O, Knops, JMH, McCulley, RL, MacDougall, A, Moore, JL, Morgan, JW, Mortensen, B, La Pierre, KJ, Risch, AC, Schütz, M, Peri, P, Stevens, CJ, Wright, J & Hillebrand, H 2018, 'Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation', Ecology Letters, vol. 21, no. 9, pp. 1364-1371. https://doi.org/10.1111/ele.13102

TY - JOUR

T1 - Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation

AU - Hodapp, Dorothee

AU - Borer, Elizabeth T.

AU - Harpole, W. Stanley

AU - Lind, Eric M.

AU - Seabloom, Eric W.

AU - Adler, Peter B.

AU - Alberti, Juan

AU - Arnillas, Carlos A.

AU - Bakker, Jonathan D.

AU - Biederman, Lori

AU - Cadotte, Marc

AU - Cleland, Elsa E.

AU - Collins, Scott

AU - Fay, Philip A.

AU - Firn, Jennifer

AU - Hagenah, Nicole

AU - Hautier, Yann

AU - Iribarne, Oscar

AU - Knops, Johannes M.H.

AU - McCulley, Rebecca L.

AU - MacDougall, Andrew

AU - Moore, Joslin L.

AU - Morgan, John W.

AU - Mortensen, Brent

AU - La Pierre, Kimberly J.

AU - Risch, Anita C.

AU - Schütz, Martin

AU - Peri, Pablo

AU - Stevens, Carly J.

AU - Wright, Justin

AU - Hillebrand, Helmut

N1 - Funding Information: DH and HH acknowledge funding by the Ministry of Science and Culture, State of Lower Saxony, through the project BEFmate. 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 Publisher Copyright: © 2018 John Wiley & Sons Ltd/CNRS

PY - 2018/9

Y1 - 2018/9

N2 - Environmental change can result in substantial shifts in community composition. The associated immigration and extinction events are likely constrained by the spatial distribution of species. Still, studies on environmental change typically quantify biotic responses at single spatial (time series within a single plot) or temporal (spatial beta diversity at single time points) scales, ignoring their potential interdependence. Here, we use data from a global network of grassland experiments to determine how turnover responses to two major forms of environmental change – fertilisation and herbivore loss – are affected by species pool size and spatial compositional heterogeneity. Fertilisation led to higher rates of local extinction, whereas turnover in herbivore exclusion plots was driven by species replacement. Overall, sites with more spatially heterogeneous composition showed significantly higher rates of annual turnover, independent of species pool size and treatment. Taking into account spatial biodiversity aspects will therefore improve our understanding of consequences of global and anthropogenic change on community dynamics.

AB - Environmental change can result in substantial shifts in community composition. The associated immigration and extinction events are likely constrained by the spatial distribution of species. Still, studies on environmental change typically quantify biotic responses at single spatial (time series within a single plot) or temporal (spatial beta diversity at single time points) scales, ignoring their potential interdependence. Here, we use data from a global network of grassland experiments to determine how turnover responses to two major forms of environmental change – fertilisation and herbivore loss – are affected by species pool size and spatial compositional heterogeneity. Fertilisation led to higher rates of local extinction, whereas turnover in herbivore exclusion plots was driven by species replacement. Overall, sites with more spatially heterogeneous composition showed significantly higher rates of annual turnover, independent of species pool size and treatment. Taking into account spatial biodiversity aspects will therefore improve our understanding of consequences of global and anthropogenic change on community dynamics.

KW - Beta diversity

KW - Nutrient Network (NutNet)

KW - diversity

KW - fertilisation

KW - grassland

KW - nitrogen

KW - spatial heterogeneity

KW - species composition

KW - temporal turnover

UR - http://www.scopus.com/inward/record.url?scp=85051228083&partnerID=8YFLogxK

U2 - 10.1111/ele.13102

DO - 10.1111/ele.13102

M3 - Letter

C2 - 29952114

AN - SCOPUS:85051228083

SN - 1461-023X

VL - 21

SP - 1364

EP - 1371

JO - Ecology Letters

JF - Ecology Letters

IS - 9

ER -

Spatial heterogeneity in species composition constrains plant community responses to herbivory and fertilisation

Abstract

Keywords

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