Abstract
Quantifying the per capita effects of invasive alien species is crucial for assessing their ecological impact. A major challenge to risk assessment of invasive species was to understand the factors that cause per capita effects to vary in different ecological contexts, particularly in a warming world. By conducting functional response experiments, we estimated the per capita effects (attack rate and maximum feeding rate) of an invasive herbivorous snail, Pomacea canaliculata, toward ten host plant species. We tested whether variation in these effects is related to plant nutritional and physical properties (total N and dry matter content (DMC)) and examined how increasing temperature can shift these relationships. We observed stronger per capita effects (i.e., higher attack rate and maximum feeding rate) by the snail on plants with higher total N, but no direct relationship was found with DMC. A significant interaction effect of total N and DMC on the attack rate indicated that DMC probably adjusted the feeding indirectly. Warmer temperatures reduced correlations between snail functional responses and host plant nutritional properties (total N) by increasing maximum feeding rate for plants of low nutrition, but there was no such effect on attack rates. However, given the nonreplacement design used in our study, the nonsignificant effect of temperature on the attack rate should be caveated. Our result suggests that characterizing the per capita effects of herbivores using functional responses can reveal the mechanisms by which climate change may alter herbivore–plant interactions and, thus, the ecological impacts of introduced herbivores.
Highlights
A predictive understanding of the ecological impacts of invasive alien species is a central goal of invasion ecology (Pyšek & Richardson, 2010; Ricciardi, Hoopes, Marchetti, & Lockwood, 2013)
Functional response (FR) analysis is a promising new method to understand the impact of invaders, providing important insights into consumer–resource interactions and per capita effects (Dick et al, 2014), and has been used to explain and predict the
The problems with choosing one particular level of resource availability, or providing the resource in excess, is that the per capita effect of consumer impact cannot be characterized and that differences in consumer impact may be missed as no opportunity is given for FR types and magnitudes to emerge and perhaps diverge (Dick et al, 2014)
Summary
A predictive understanding of the ecological impacts of invasive alien species is a central goal of invasion ecology (Pyšek & Richardson, 2010; Ricciardi, Hoopes, Marchetti, & Lockwood, 2013). Functional response (FR) analysis is a promising new method to understand the impact of invaders, providing important insights into consumer–resource interactions and per capita effects (Dick et al, 2014), and has been used to explain and predict the. | 8778 ecological impacts of alien predators (Alexander, Dick, Weyl, Robinson, & Richardson, 2014; Bollache, Dick, Farnsworth, & Montgomery, 2008; Dick et al, 2013; Dodd et al, 2014) This method has been extended to predict the potential impacts of alien herbivores (Xu et al, 2016), but it is still underapplied to herbivores, in spite of offering a convenient experimental design and meaningful mechanistic understanding of resource consumption. We examined how temperature may alter the influence these plant properties on per capita effects and ecological impact
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