Impacts of seedling herbivory on plant competition and implications for species coexistence

Authors: Hanley, M. E.; Sykes, R. J.

Source: Annals of Botany, Volume 103, Number 8, 7 June 2009 , pp. 1347-1353(7)

Publisher: Oxford University Press

Abstract:

Background and Aims

Although the causes and consequences of seedling herbivory for plant community composition are well understood, the mechanisms by which herbivores influence plant species recruitment to the established phase remain less clear. The aim was to examine how variation in the intensity of seedling herbivory interacts with growth-defence trade-offs and herbivore feeding preferences to affect plant community development.

Methods

Using 14-d-old seedlings of Trifolium pratense and T. repens, relative growth and susceptibility to herbivory by the snail Helix aspersa was quantified to elucidate putative growth-defence trade-offs for these species. Then mixed assemblages of 14-d-old Trifolium seedlings were exposed to herbivory by zero, two, five or ten snails and determined how variation in the intensity of herbivory affected competitive interactions into the mature phase (as measured by total plant biomass at 120 d old).

Key Results

In the absence of herbivory, communities were dominated by T. pratense; a result expected on the basis that it yielded larger and presumably more competitive seedlings. However, when seedlings were exposed to herbivory, the balance of competition shifted. At low levels of herbivory (two snails), both Trifolium species contributed equally to total plant biomass. More intense herbivory (five snails) resulted in almost total mortality of T. pratense and dominance of the mature community by T. repens. The most intense herbivory (ten snails) effectively removed all seedlings from the experimental community.

Conclusions

The study illustrates a mechanism whereby spatio-temporal fluctuations in seedling herbivory, when coupled with species-specific variation in competitive ability and sensitivity to herbivore attack, can differentially influence plant recruitment into the mature phase. This mechanism may be a key element in our attempts to understand plant species coexistence, since fluctuations in plant recruitment are fundamental to the many theories that view coexistence as a consequence of a spatio-temporal lottery for dominance over regeneration micro-sites.

Keywords: Growth-defence trade-off; lottery models; plantanimal interactions; plant size variability; seedling acceptability; seedling defence; spatio-temporal niches; Trifolium pratense; Trifolium repens

Document Type: Research article

DOI: http://dx.doi.org/10.1093/aob/mcp081

Publication date: 2009-06-07

More about this publication?

• Annals of Botany is an international plant science journal with editorial offices in Australia, China, Japan, Mainland Europe, UK and USA. It is published monthly in both electronic and printed forms with at least one extra issue each year that focuses on a particular theme in plant biology. The Journal is managed by the Annals of Botany Company, a not-for-profit educational charity established to promote plant science worldwide.

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