Apparent competition drives community-wide parasitism rates and changes in host abundance across ecosystem boundaries

Carol M. Frost; Guadalupe Peralta; Tatyana A. Rand; Raphael K. Didham; Arvind Varsani; Jason M. Tylianakis

doi:10.1038/ncomms12644

Apparent competition drives community-wide parasitism rates and changes in host abundance across ecosystem boundaries

Carol M. Frost, Guadalupe Peralta, Tatyana A. Rand, Raphael K. Didham, Arvind Varsani, Jason M. Tylianakis

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

54 Scopus citations

Abstract

Species have strong indirect effects on others, and predicting these effects is a central challenge in ecology. Prey species sharing an enemy (predator or parasitoid) can be linked by apparent competition, but it is unknown whether this process is strong enough to be a community-wide structuring mechanism that could be used to predict future states of diverse food webs. Whether species abundances are spatially coupled by enemy movement across different habitats is also untested. Here, using a field experiment, we show that predicted apparent competitive effects between species, mediated via shared parasitoids, can significantly explain future parasitism rates and herbivore abundances. These predictions are successful even across edges between natural and managed forests, following experimental reduction of herbivore densities by aerial spraying of insecticide over 20 hectares. This result shows that trophic indirect effects propagate across networks and habitats in important, predictable ways, with implications for landscape planning, invasion biology and biological control.

Original language	English (US)
Article number	12644
Journal	Nature communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms12644
State	Published - Aug 31 2016
Externally published	Yes

ASJC Scopus subject areas

Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)
Physics and Astronomy(all)

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10.1038/ncomms12644

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@article{deadb11865254e82ae82485a2c7f3b38,

title = "Apparent competition drives community-wide parasitism rates and changes in host abundance across ecosystem boundaries",

abstract = "Species have strong indirect effects on others, and predicting these effects is a central challenge in ecology. Prey species sharing an enemy (predator or parasitoid) can be linked by apparent competition, but it is unknown whether this process is strong enough to be a community-wide structuring mechanism that could be used to predict future states of diverse food webs. Whether species abundances are spatially coupled by enemy movement across different habitats is also untested. Here, using a field experiment, we show that predicted apparent competitive effects between species, mediated via shared parasitoids, can significantly explain future parasitism rates and herbivore abundances. These predictions are successful even across edges between natural and managed forests, following experimental reduction of herbivore densities by aerial spraying of insecticide over 20 hectares. This result shows that trophic indirect effects propagate across networks and habitats in important, predictable ways, with implications for landscape planning, invasion biology and biological control.",

author = "Frost, {Carol M.} and Guadalupe Peralta and Rand, {Tatyana A.} and Didham, {Raphael K.} and Arvind Varsani and Tylianakis, {Jason M.}",

note = "Funding Information: We thank Nelson Forests Ltd., Merrill & Ring, Hancock Timber Resource Group, M. Turbitt, D. Bryant, N. Buchanan, L. and P. Douglas, and the Department of Conservation for forest access. J. Dugdale, J. Berry, and R. Schnitzler provided taxonomic assistance. Members of the Ladley family (J., B., D., D., and S.) D. Conder, N. Etheridge, and D. Payton assisted with field and lab logistics. Y. Brindle, C. Hohe, S. Litchwark, S. Hunt, A. McLeod, L. O'Brien, A. Knight, L. Williamson, T. Lambert, H. McFarland, E. Allen, C. Thomas, R. McGee, K. Trotter, T. Watson, V. Nguyen, A. Young, D. Davies, and M. Bartlett assisted with caterpillar collection and rearing. The Tylianakis and Stouffer labs, J. Beggs, H.C.J. Godfray, K.S. McCann, and T. Roslin provided comments on the manuscript. C.M.F. was supported by the Natural Sciences and Engineering Research Council of Canada, Education New Zealand, and the University of Canterbury. The project itself, J.M.T and G.P. were supported by the Marsden Fund (UOC-0802). R.K.D. was funded by an Australian Research Council Future Fellowship FT100100040. A.V. is supported by the National Research Foundation of South Africa. J.M.T. is funded by a Rutherford Discovery Fellowship, administered by the Royal Society of New Zealand. Publisher Copyright: {\textcopyright} 2016 The Author(s).",

year = "2016",

month = aug,

day = "31",

doi = "10.1038/ncomms12644",

language = "English (US)",

volume = "7",

journal = "Nature communications",

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AU - Frost, Carol M.

AU - Peralta, Guadalupe

AU - Rand, Tatyana A.

AU - Didham, Raphael K.

AU - Varsani, Arvind

AU - Tylianakis, Jason M.

N1 - Funding Information: We thank Nelson Forests Ltd., Merrill & Ring, Hancock Timber Resource Group, M. Turbitt, D. Bryant, N. Buchanan, L. and P. Douglas, and the Department of Conservation for forest access. J. Dugdale, J. Berry, and R. Schnitzler provided taxonomic assistance. Members of the Ladley family (J., B., D., D., and S.) D. Conder, N. Etheridge, and D. Payton assisted with field and lab logistics. Y. Brindle, C. Hohe, S. Litchwark, S. Hunt, A. McLeod, L. O'Brien, A. Knight, L. Williamson, T. Lambert, H. McFarland, E. Allen, C. Thomas, R. McGee, K. Trotter, T. Watson, V. Nguyen, A. Young, D. Davies, and M. Bartlett assisted with caterpillar collection and rearing. The Tylianakis and Stouffer labs, J. Beggs, H.C.J. Godfray, K.S. McCann, and T. Roslin provided comments on the manuscript. C.M.F. was supported by the Natural Sciences and Engineering Research Council of Canada, Education New Zealand, and the University of Canterbury. The project itself, J.M.T and G.P. were supported by the Marsden Fund (UOC-0802). R.K.D. was funded by an Australian Research Council Future Fellowship FT100100040. A.V. is supported by the National Research Foundation of South Africa. J.M.T. is funded by a Rutherford Discovery Fellowship, administered by the Royal Society of New Zealand. Publisher Copyright: © 2016 The Author(s).

PY - 2016/8/31

Y1 - 2016/8/31

N2 - Species have strong indirect effects on others, and predicting these effects is a central challenge in ecology. Prey species sharing an enemy (predator or parasitoid) can be linked by apparent competition, but it is unknown whether this process is strong enough to be a community-wide structuring mechanism that could be used to predict future states of diverse food webs. Whether species abundances are spatially coupled by enemy movement across different habitats is also untested. Here, using a field experiment, we show that predicted apparent competitive effects between species, mediated via shared parasitoids, can significantly explain future parasitism rates and herbivore abundances. These predictions are successful even across edges between natural and managed forests, following experimental reduction of herbivore densities by aerial spraying of insecticide over 20 hectares. This result shows that trophic indirect effects propagate across networks and habitats in important, predictable ways, with implications for landscape planning, invasion biology and biological control.

AB - Species have strong indirect effects on others, and predicting these effects is a central challenge in ecology. Prey species sharing an enemy (predator or parasitoid) can be linked by apparent competition, but it is unknown whether this process is strong enough to be a community-wide structuring mechanism that could be used to predict future states of diverse food webs. Whether species abundances are spatially coupled by enemy movement across different habitats is also untested. Here, using a field experiment, we show that predicted apparent competitive effects between species, mediated via shared parasitoids, can significantly explain future parasitism rates and herbivore abundances. These predictions are successful even across edges between natural and managed forests, following experimental reduction of herbivore densities by aerial spraying of insecticide over 20 hectares. This result shows that trophic indirect effects propagate across networks and habitats in important, predictable ways, with implications for landscape planning, invasion biology and biological control.

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Apparent competition drives community-wide parasitism rates and changes in host abundance across ecosystem boundaries

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