Species identity influences belowground arthropod assemblages via functional traits

Courtney E. Gorman; Quentin D. Read; Michael E. Van Nuland; Jessica A.M. Bryant; Jessica N. Welch; Joseph T. Altobelli; Morgan J. Douglas; Mark A. Genung; Elliot N. Haag; Devin N. Jones; Hannah E. Long; Adam D. Wilburn; Jennifer A. Schweitzer; Joseph K. Bailey

doi:10.1093/aobpla/plt049

Species identity influences belowground arthropod assemblages via functional traits

Courtney E. Gorman, Quentin D. Read, Michael E. Van Nuland, Jessica A.M. Bryant, Jessica N. Welch, Joseph T. Altobelli, Morgan J. Douglas, Mark A. Genung, Elliot N. Haag, Devin N. Jones, Hannah E. Long, Adam D. Wilburn, Jennifer A. Schweitzer, Joseph K. Bailey

Remote Sensing & Environmental Informati

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

6 Scopus citations

Abstract

Plant species influence belowground communities in a variety of ways, ultimately impacting nutrient cycling. Functional plant traits provide a means whereby species identity can influence belowground community interactions, but little work has examined whether species identity influences belowground community processes when correcting for evolutionary history. Specifically, we hypothesized that closely related species would exhibit (i) more similar leaf and root functional traits than more distantly related species, and (ii) more similar associated soil arthropod communities. We found that after correcting for evolutionary history, tree species identity influenced belowground arthropod communities through plant functional traits. These data suggest that plant species structure may be an important predictor in shaping associated soil arthropod communities and further suggest the importance of better understanding the extended consequences of evolutionary history on ecological processes, as similarity in traits may not always reflect similar ecology.

Original language	English
Article number	plt049
Journal	AoB PLANTS
Volume	5
DOIs	https://doi.org/10.1093/aobpla/plt049
State	Published - 2013

Keywords

Belowground processes
Community similarity
Functional plant traits
Soil macroinvertebrates
Soils
Species identity

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10.1093/aobpla/plt049

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Gorman, C. E., Read, Q. D., Van Nuland, M. E., Bryant, J. A. M., Welch, J. N., Altobelli, J. T., Douglas, M. J., Genung, M. A., Haag, E. N., Jones, D. N., Long, H. E., Wilburn, A. D., Schweitzer, J. A., & Bailey, J. K. (2013). Species identity influences belowground arthropod assemblages via functional traits. AoB PLANTS, 5, Article plt049. https://doi.org/10.1093/aobpla/plt049

@article{69056e9452e044d4b3851ca834af47c6,

title = "Species identity influences belowground arthropod assemblages via functional traits",

abstract = "Plant species influence belowground communities in a variety of ways, ultimately impacting nutrient cycling. Functional plant traits provide a means whereby species identity can influence belowground community interactions, but little work has examined whether species identity influences belowground community processes when correcting for evolutionary history. Specifically, we hypothesized that closely related species would exhibit (i) more similar leaf and root functional traits than more distantly related species, and (ii) more similar associated soil arthropod communities. We found that after correcting for evolutionary history, tree species identity influenced belowground arthropod communities through plant functional traits. These data suggest that plant species structure may be an important predictor in shaping associated soil arthropod communities and further suggest the importance of better understanding the extended consequences of evolutionary history on ecological processes, as similarity in traits may not always reflect similar ecology.",

keywords = "Belowground processes, Community similarity, Functional plant traits, Soil macroinvertebrates, Soils, Species identity",

author = "Gorman, \{Courtney E.\} and Read, \{Quentin D.\} and \{Van Nuland\}, \{Michael E.\} and Bryant, \{Jessica A.M.\} and Welch, \{Jessica N.\} and Altobelli, \{Joseph T.\} and Douglas, \{Morgan J.\} and Genung, \{Mark A.\} and Haag, \{Elliot N.\} and Jones, \{Devin N.\} and Long, \{Hannah E.\} and Wilburn, \{Adam D.\} and Schweitzer, \{Jennifer A.\} and Bailey, \{Joseph K.\}",

year = "2013",

doi = "10.1093/aobpla/plt049",

language = "English",

volume = "5",

journal = "AoB PLANTS",

issn = "2041-2851",

publisher = "Oxford University Press",

}

TY - JOUR

T1 - Species identity influences belowground arthropod assemblages via functional traits

AU - Gorman, Courtney E.

AU - Read, Quentin D.

AU - Van Nuland, Michael E.

AU - Bryant, Jessica A.M.

AU - Welch, Jessica N.

AU - Altobelli, Joseph T.

AU - Douglas, Morgan J.

AU - Genung, Mark A.

AU - Haag, Elliot N.

AU - Jones, Devin N.

AU - Long, Hannah E.

AU - Wilburn, Adam D.

AU - Schweitzer, Jennifer A.

AU - Bailey, Joseph K.

PY - 2013

Y1 - 2013

N2 - Plant species influence belowground communities in a variety of ways, ultimately impacting nutrient cycling. Functional plant traits provide a means whereby species identity can influence belowground community interactions, but little work has examined whether species identity influences belowground community processes when correcting for evolutionary history. Specifically, we hypothesized that closely related species would exhibit (i) more similar leaf and root functional traits than more distantly related species, and (ii) more similar associated soil arthropod communities. We found that after correcting for evolutionary history, tree species identity influenced belowground arthropod communities through plant functional traits. These data suggest that plant species structure may be an important predictor in shaping associated soil arthropod communities and further suggest the importance of better understanding the extended consequences of evolutionary history on ecological processes, as similarity in traits may not always reflect similar ecology.

AB - Plant species influence belowground communities in a variety of ways, ultimately impacting nutrient cycling. Functional plant traits provide a means whereby species identity can influence belowground community interactions, but little work has examined whether species identity influences belowground community processes when correcting for evolutionary history. Specifically, we hypothesized that closely related species would exhibit (i) more similar leaf and root functional traits than more distantly related species, and (ii) more similar associated soil arthropod communities. We found that after correcting for evolutionary history, tree species identity influenced belowground arthropod communities through plant functional traits. These data suggest that plant species structure may be an important predictor in shaping associated soil arthropod communities and further suggest the importance of better understanding the extended consequences of evolutionary history on ecological processes, as similarity in traits may not always reflect similar ecology.

KW - Belowground processes

KW - Community similarity

KW - Functional plant traits

KW - Soil macroinvertebrates

KW - Soils

KW - Species identity

UR - https://www.scopus.com/pages/publications/84893563602

U2 - 10.1093/aobpla/plt049

DO - 10.1093/aobpla/plt049

M3 - Article

AN - SCOPUS:84893563602

SN - 2041-2851

VL - 5

JO - AoB PLANTS

JF - AoB PLANTS

M1 - plt049

ER -

Species identity influences belowground arthropod assemblages via functional traits

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Keywords

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