Grasses and the resource availability hypothesis: the importance of silica-based defences

Authors

  • FERGUS P. MASSEY,

    1. Department of Biology and Environmental Science, University of Sussex, Falmer, East Sussex BN1 9QG, UK and Faculty of Life Sciences, University of Manchester, 3.614 Stopford Building, Oxford Road, Manchester M13 9PT, UK
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  • A. ROLAND ENNOS,

    1. Department of Biology and Environmental Science, University of Sussex, Falmer, East Sussex BN1 9QG, UK and Faculty of Life Sciences, University of Manchester, 3.614 Stopford Building, Oxford Road, Manchester M13 9PT, UK
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  • SUE E. HARTLEY

    1. Department of Biology and Environmental Science, University of Sussex, Falmer, East Sussex BN1 9QG, UK and Faculty of Life Sciences, University of Manchester, 3.614 Stopford Building, Oxford Road, Manchester M13 9PT, UK
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Fergus P. Massey (tel. +44 (0)1273 873502; fax +44 (0)1273 6784333; e-mail F.P.Massey@sussex.ac.uk).

Summary

  • 1The resource availability hypothesis (RAH) predicts that allocation of resources to anti-herbivore defences differs between species according to their growth rate. We tested this hypothesis by assessing the growth and defence investment strategies of 18 grass species and comparing them against vole feeding preferences. In addition, we assessed the effectiveness of silica, the primary defence in many grasses, in influencing vole feeding behaviour.
  • 2Across species, we found that there was a strong negative relationship between the overall investment in defence and growth rate, thus supporting predictions of the RAH. However, no such relationship was found when assessing the various individual anti-herbivore defences, suggesting that different grass species show significant variation in their relative investment in strategies such as phenolic concentration, silica concentration and leaf toughness.
  • 3Silica was the most influential defensive factor in determining vole feeding preference. Experimentally induced increases in leaf silica concentration deterred vole feeding in three of the five species tested, and altered feeding preference ranks between species. The strong positive relationship between silica concentration and leaf abrasiveness, when assessed both within and between species, suggests that increased abrasiveness is the mechanism by which silica deters feeding.
  • 4Although grasses are often considered to be tolerant of herbivore damage rather then defended against it, they do follow predictions of defence allocation strategy based on their growth rates, and this affects the feeding behaviour of generalist grass-feeding herbivores.

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