A Genetic Basis to Community Repeatability and Stability

Overview

Journal Ecology

Specialty Environmental Health

Date 2010 Dec 15

PMID 21141200

Citations 28

Authors

Arthur R Keith

Joseph K Bailey

Thomas G Whitham

Affiliations

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Abstract

Recent studies have shown that genetically based traits of plants can structure associated arthropod and microbial communities, but whether the effects are consistent and repeatable across years is unknown. If communities are both heritable (i.e., related individuals tend to support similar communities) and repeatable (i.e., the same patterns observed over multiple years), then plant genetics may also affect community properties previously thought to be emergent, such as "stability." Using replicated clones of narrowleaf cottonwood (Populus angustifolia) and examining an arthropod community of 103 species, we found that (1) individual tree genotypes supported significantly different arthropod communities, which exhibited broad-sense heritability; (2) these findings were highly repeatable over three consecutive years (repeatability = 0.91) indicating that community responses to individual tree genotypes are consistent from year to year; (3) differences among tree genotypes in community stability (i.e., changes in community composition over multiple years) exhibited broad-sense heritability (H(C)2 = 0.32). In combination, these findings suggest that an emergent property such as stability can be genetically based and thus subject to natural selection.

Citing Articles

Community-level evolutionary processes: Linking community genetics with replicator-interactor theory.

Lean C, Doolittle W, Bielawski J Proc Natl Acad Sci U S A. 2022; 119(46):e2202538119.

PMID: 36322791 PMC: 9674955. DOI: 10.1073/pnas.2202538119.

Simulating selection and evolution at the community level using common garden data.

Shuster S, Keith A, Whitham T Ecol Evol. 2022; 12(3):e8696.

PMID: 35342594 PMC: 8928883. DOI: 10.1002/ece3.8696.

Tree genotypes affect rock lichens and understory plants: examples of trophic-independent interactions.

Naesborg R, Lau M, Michalet R, Williams C, Whitham T Ecology. 2021; 103(2):e03589.

PMID: 34787902 PMC: 9285738. DOI: 10.1002/ecy.3589.

Consistent community genetic effects in the context of strong environmental and temporal variation in Eucalyptus.

Gosney B, Potts B, Forster L, Whiteley C, OReilly-Wapstra J Oecologia. 2021; 195(2):367-382.

PMID: 33471200 DOI: 10.1007/s00442-020-04835-1.

Local adaptation and rapid evolution of aphids in response to genetic interactions with their cottonwood hosts.

Wooley S, Smith D, Lonsdorf E, Brown S, Whitham T, Shuster S Ecol Evol. 2020; 10(19):10532-10542.

PMID: 33072278 PMC: 7548174. DOI: 10.1002/ece3.6709.