Perspective

Thomas W. Schoener; David A. Spiller

doi:10.1017/CBO9780511736551.005

Chapter Two - Perspective

kinds of trait-mediated indirect effects in ecological communities. A synthesis

Published online by Cambridge University Press: 05 February 2013

Thomas W. Schoener and

Edited by

Oswald Schmitz and

Thomas W. Schoener: Affiliation:
Department of Evolution and Ecology and Center for Population Biology, University of California – Davis
David A. Spiller: Affiliation:
Department of Evolution and Ecology and Center for Population Biology, University of California – Davis
Takayuki Ohgushi: Affiliation:
Kyoto University, Japan
Oswald Schmitz: Affiliation:
Yale University, Connecticut
Robert D. Holt: Affiliation:
University of Florida

Book contents

Get access

Summary

Introduction

Our assessment of the importance of trait-mediated indirect effects (TMIEs) relative to density-mediated indirect effects (DMIEs) in ecological communities continues to rise. It seems only yesterday that the landmark experiment of Beckerman et al. (1997) was published, showing that grasshoppers, in the presence of ‘disabled’ spiders incapable of consumption, were intimidated enough to reduce their feeding activity and thereby maintain strong trophic cascades to the producer level. The first comprehensive review, by Werner and Peacor, appeared 6 years later and summarized numerous studies of TMIEs, including some that were able to calculate the relative importance of trait versus density effects; they concluded ‘trait effects are often as strong or stronger than density effects’. A short time before, the same authors published an experiment (Peacor and Werner 2001) on a community consisting of an odonate predator and two competing anuran prey species; the predator consumed and intimidated one of the prey species, reducing its competitive effect on the second anuran species. The impact via the trait effect was 76–86%, as compared to 14–24% via the density effect. A second review by Peacor and Werner (2004) concluded that the effect of predators on prey traits modifies the magnitude of an effect farther along the pathway by 20–90%. In the same year, Schmitz et al. (2004) published a review of TMIEs and DMIEs in trophic cascades, whose title gives the conclusion ‘Trophic cascades: the primacy of trait-mediated indirect interactions’. Shortly after, Preisser et al. (2005) did a meta-analysis of trait and density effects, finding for simple predator–prey interactions that certain trait effects (which they call ‘intimidation’) were at least as strong as density effects (which they call ‘direct consumption’), being 63% versus 51%, respectively; the density effect actually declined along tritrophic cascades, while the trait effect climbed to 85% of the total effect. More recently again, Creel and Christianson (2008) reviewed risk effects and concluded that they ‘can be large, sometimes substantially larger than direct effects’. One of their examples was an elegant experiment by Pangle et al. (2007) showing that the risk effects of predatory water fleas on the population growth of their zooplankton prey were more than seven times larger than the consumptive (direct predation) effects.

Type: Chapter
Information: Trait-Mediated Indirect Interactions
Ecological and Evolutionary Perspectives
, pp. 9 - 27

DOI: https://doi.org/10.1017/CBO9780511736551.005 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abrams, P. 1995 Implications of dynamically variable traits for identifying, classifying, and measuring direct and indirect effects in ecological communitiesAmerican Naturalist 146 112CrossRef Google Scholar

Abrams, P. A. 2010 Implications of flexible foraging for interspecific interactions: lessons from simple modelsFunctional Ecology 24 7CrossRef Google Scholar

Abrams, P. A.Menge, B. A.Mittelbach, G. G.Spiller, D. A.Yodzis, P. 1996 The role of indirect effects in food websPolis, G. A.Winemiller, K. O.Food Webs: Integration of Pattern and DynamicsNew YorkChapman and HallGoogle Scholar

Abramsky, Z.Rosenzweig, M. L.Subach, A. 1998 Do gerbils care more about competition or predation?Oikos 83CrossRef Google Scholar

Anholt, B. R.Werner, E. E. 1995 Interaction between food availability and predation mortality mediated by adaptive behaviorEcology 76 2230CrossRef Google Scholar

Beckerman, A. P.Uriarte, M.Schmitz, O. J. 1997 Experimental evidence for a behavior-mediated trophic cascade in a terrestrial food chainProceedings of the National Academy of Sciences of the United States of America 94 10735CrossRef Google Scholar

Beckerman, A.Petchey, O. L.Morin, P. J. 2010 Adaptive foragers and community ecology: linking individuals to communities and ecosystemsFunctional Ecology 24 1CrossRef Google Scholar

Borer, E. T.Seabloom, E. W.Shurin, J. B. 2005 What determines the strength of a trophic cascade?Ecology 86 528CrossRef Google Scholar

Briand, F.Cohen, J. E. 1987 Environmental correlates of food-chain lengthScience 238 956CrossRef Google Scholar PubMed

Brower, L. P.Zandt Brower, J.Corvino, J. M. 1967 Plant poisons in a terrestrial food chainProceedings of the National Academy of Sciences of the United States of America 57 893CrossRef Google Scholar

Carpenter, S. R.Kitchell, J. F.Hodgson, J. R. 1987 68

Creel, S.Christianson, D. 2008 Relationships between direct predation and risk effectsTrends in Ecology and Evolution 23 194CrossRef Google Scholar PubMed

Sassi, C.Müller, C. B.Krauss, J. 2006 Fungal plant endosymbionts alter life history and reproductive success of aphid predatorsProceedings of the Royal Society of London, Series B 273 1301CrossRef Google Scholar PubMed

Denno, R. F.Kaplan, I. 2007 Plant-mediated interactions in herbivorous insects: mechanisms, symmetry, and challenging the paradigms of competition pastOhgushi, T.Craig, T. P.Price, P. WEcological Communities: Plant Mediation in Indirect Interaction WebsCambridgeCambridge University Press19CrossRef Google Scholar

Finkes, L. K.Cady, A. B.Mulroy, J. C.Clay, K.Rudgers, J. A. 2006 Plant-fungus mutualism affects spider composition in successional fieldsEcology Letters 9 344CrossRef Google Scholar PubMed

Harmon, J. P.Ives, A. R.Losey, J. E.Olson, A. C.Rauwald, K. S. 2000 Coleomegilla maculataOecologia 125 543CrossRef

Holt, R. D. 1977 Predation, apparent competition, and the structure of prey communitiesTheoretical Population Biology 12 197CrossRef Google Scholar PubMed

Holt, R. D.Holdo, R. M.Veen, F. J. F. 2010 Theoretical perspectives on trophic cascades: Current trends and future directionsTerborgh, J.Estes, J. A.Trophic CascadesWashington DCIsland Press301Google Scholar

Huang, C. F.Sih, A. 1990 Experimental studies on behaviorally mediated, indirect interactions through a shared predatorEcology 71 1515CrossRef Google Scholar

Losos, J. B. 1994 Integrative approaches to evolutionary ecology: lizards as model systemsAnnual Review Ecology Systematics 25 467CrossRef Google Scholar

Losos, J. B.Schoener, T. W.Langerhans, R. B.Spiller, D. A. 2006 Rapid temporal reversal in predator-driven natural selectionScience 314 1111CrossRef Google Scholar PubMed

Miner, B. G.Sultan, S. E.Morgan, S. G.Padilla, D. K.Relyea, R. A. 2005 Ecological consequences of phenotypic plasticityTrends in Ecology and Evolution 20 685CrossRef Google Scholar PubMed

Ohgushi, T. 2005 Indirect interaction webs: herbivore-induced effects through trait change in plantsAnnual Review of Ecology, Evolution, Systematics 36 81CrossRef Google Scholar

Orr, M. R.Selke, S. H.Benson, W. W.Gilbert, L. E. 1995 Flies suppress fire antsNature 373 292CrossRef Google Scholar

Paine, R. T. 1988 Road maps of interactions or grist for theoretical developmentEcology 69 1648CrossRef Google Scholar

Pangle, K. L.Peacor, S. D.Johannsson, O. 2007 Large nonlethal effects of an invasive invertebrate predator on zooplankton population growth rateEcology 88 402CrossRef Google Scholar PubMed

Peacor, S.Werner, E. E. 1997 Trait-mediated indirect interactions in a simple aquatic food webEcology 78 1146CrossRef Google Scholar

Peacor, S.Werner, E. E. 2001 The contribution of trait-mediated indirect effects to the net effects of a predatorProceedings of the National Academy of Sciences of the United States of America 98 3904CrossRef Google Scholar PubMed

Peacor, S.Werner, E. E. 2004 85 2754

Pearson, D. E. 2010 Trait- and density-mediated indirect interactions initiated by an exotic invasive plant autogenic ecosystem engineerAmerican Naturalist 176 394CrossRef Google Scholar PubMed

Persson, L. 1985 Asymmetrical competition: are larger animals competitively superior?American Naturalist 126 261CrossRef Google Scholar

Piovia-Scott, J.Spiller, D. A.Schoener, T. W. 2011 Effects of experimental seaweed deposition on lizard and ant predation in an island food webScience 331 461CrossRef Google Scholar

Preisser, E. L.Bolnick, D. I.Bernard, M. F. 2005 Scared to death? The effects of intimidation and consumption in predator–prey interactionsEcology 86 501CrossRef Google Scholar

Raimondi, P. T.Forde, S. E.Delph, L. F.Lively, C. M. 2000 Processes structuring communities: evidence for trait-mediated indirect effects through induced polymorphismsOikos 91 353CrossRef Google Scholar

Reznick, D. N.Ghalambor, C. K. 2001 112–113 183

Ripple, W. J.Rooney, T. P.Beschta, R. L. 2010 Large predators, deer, and trophic cascades in boreal and temperate ecosystemsTerborgh, J.Estes, J. A.Trophic CascadesWashington DCIsland Press141Google Scholar

Schmitt, R. J. 1987 Indirect interactions between prey: apparent competition, predator aggregation, and habitat segregationEcology 68 1887CrossRef Google Scholar PubMed

Schmitz, O. J. 1997 Press perturbations and the predictability of ecological interactions in a food webEcology 78 55Google Scholar

Schmitz, O. J.Hawlena, D.Trussell, G. C. 2010 Predator control of ecosystem nutrient dynamicsEcology Letters 13 1CrossRef Google Scholar PubMed

Schmitz, O. J.Krivan, V.Ovadia, O. 2004 Trophic cascades: the primacy of trait- mediated indirect interactionsEcology Letters 7 153CrossRef Google Scholar

Schoener, T. W. 1983 Field experiments on interspecific competitionAmerican Naturalist 122 240CrossRef Google Scholar

Schoener, T. W. 1989 Food webs from the small to the largeEcology 70 1559CrossRef Google Scholar

Schoener, T. W. 1993 On the relative importance of direct versus indirect effects in ecological communitiesKawanabe, H.Cohen, J. E.Iwasaki, K.Mutualism and Community OrganizationOxfordOxford University Press365Google Scholar

Schoener, T. W. 2011 The newest synthesis: understanding the interplay of evolutionary and ecological dynamicsScience 330 426CrossRef Google Scholar

Soluk, D. A.Collins, N. C. 1988 Synergistic interactions between fish and stoneflies: facilitation and interference among stream predatorsOikos 52 94CrossRef Google Scholar

Stelzer, R. S.Lamberti, G. A. 1999 Independent and interactive effects of crayfish and darters on a stream benthic communityJournal of the North American Benthological Society 18 524CrossRef Google Scholar

Werner, E. E.Peacor, S. D. 2003 A review of trait-mediated indirect interactions in ecological communitiesEcology 84 1083CrossRef Google Scholar

Yodzis, P. 1988 The indeterminancy of ecological ineractions as perceived through perturbation experimentsEcology 69 508CrossRef Google Scholar

Book contents

Chapter Two - Perspective

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive