Abstract

Neighboring plants can decrease or increase each other’s likelihood of damage from herbivores through associational resistance or susceptibility, respectively. Associational effects (AE) can transpire through changes in herbivore or plant traits that affect herbivore movement, densities, and feeding behaviors to ultimately affect plant damage. While much work has focused on understanding the mechanisms that underlie associational effects, we know little about how these mechanisms are influenced by neighborhood composition, i.e., plant density or relative frequency which is necessary to make predictions about when AE should occur in nature. Using a series of field and greenhouse experiments, I examined how plant density and relative frequency affected plant damage to Solanum carolinense and four mechanisms that underlie AE; (i) accumulation of insect herbivores and arthropod predators, (ii) microclimate conditions, (iii) plant resistance, and (iv) specialist herbivore preference. I found a positive relationship between S. carolinense damage and the relative frequency of a non-focal neighbor (Solidago altissima) and all four AE mechanisms were influenced by one or multiple neighborhood components. Frequency-dependence in S. carolinense damage is most likely due to greater generalist herbivore load on S. carolinense (through spillover from S. altissima) with microclimate variables, herbivore preference, predation pressures, and plant resistance having relatively weaker effects. Associational effects may have long-term consequences for these two plant species during plant succession and understanding context-dependent herbivory has insect pest management implication for other plant species in agriculture and forestry.

Highlights

  • The topic of associational effects (AE) has a long history in applied fields such as agriculture and forestry [2] and previous empirical and theoretical studies suggest that AE can transpire through neighboring plant effects on both plant traits and herbivore traits to affect herbivore densities and subsequent damage to plants [3,4]

  • While much effort has been put towards understanding the mechanisms that underlie AE, challenges still exist in predicting when AE should occur in nature under different neighborhood conditions

  • This is because we have little understanding of how AE mechanisms relate to plant density and relative frequency which makes it impossible to predict the occurrence and magnitude of AE in nature

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Summary

Introduction

While much effort has been put towards understanding the mechanisms that underlie AE (reviewed by [3]), challenges still exist in predicting when AE should occur in nature under different neighborhood conditions. This is because we have little understanding of how AE mechanisms relate to plant density and relative frequency which makes it impossible to predict the occurrence and magnitude of AE in nature. Recent interest in understanding the longterm consequences of AE for plant competition and coexistence has emerged [3,5,6,7,8], understanding how damage relates to plant density and relative frequency has community-wide implications

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