Abstract
Intraspecific variation in growth and defence among plant populations can be driven by differences in (a)biotic conditions, such as herbivory and resources. Introduction of species to novel environments affects simultaneously herbivory encountered by a plant and resource availability both directly and via altered competitive environment. Here, we address the question of how growth (leaf mass per area (LMA), plant size) and resistance traits (leaf alkaloids, leaf trichomes, resistance to a generalist snail) vary and covary between native and introduced populations of the garden lupine, Lupinus polyphyllus. We focused specifically on evolved differences among populations by measuring traits from plants grown from seed in a common environment. Plants from the introduced populations were more resistant against the generalist snail, Arianta arbustorum, and they had more leaf trichomes and higher LMA than plants from the native populations. The composition of alkaloids differed between native and introduced populations, with the native populations having more diversity in alkaloids among them. Resistance was positively associated with plant size and LMA across all populations. Other trait associations differed between native and introduced areas, implying that certain trade-offs may be fundamentally different between native and introduced populations. Our results suggest that, for the introduced populations, the loss of native herbivores and the alterations in resource availability have led to a lower diversity in leaf alkaloids among populations and may facilitate the evolution of novel trait optima without compensatory trade-offs. Such phytochemical similarity among introduced populations provides novel insights into mechanisms promoting successful plant invasions.
Highlights
Herbivory of plant tissues is an ordinary sight that, can have substantial negative effects on the growth and fitness of an individual plant (Belsky 1986; Turcotte et al 2014)
Based on climate data from 1970–2000, mean annual precipitation is higher in the native compared to the introduced range, but mean annual temperatures do not differ between the populations in the two countries (Ramula and Kalske 2020)
Individuals of Lupinus polyphyllus were more damaged by herbivores in the native populations than in the introduced populations
Summary
Herbivory of plant tissues is an ordinary sight that, can have substantial negative effects on the growth and fitness of an individual plant (Belsky 1986; Turcotte et al 2014) Because of these negative effects, herbivores can select for traits that protect plants from being eaten, such as chemical and physical defences (Agrawal et al 2012; Kessler and Kalske 2018). The negative impact of herbivory on a plant depends on the amount or type of damage, and on resource availability (Hawkes and Sullivan 2001) Variation in both herbivory and resources can interact to determine the spatial patterns of intraspecific variation in plant defence phenotypes and genotypes (Woods et al 2012; Burghardt 2016)
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