Abstract
Animals on islands often exhibit dramatic differences in morphology and behaviour compared with mainland individuals, a phenomenon known as the 'island syndrome'. These differences are thought to be adaptations to island environments, but the extent to which they have a genetic basis or instead represent plastic responses to environmental extremes is often unknown. Here, we revisit a classic case of island syndrome in deer mice (Peromyscus maniculatus) from British Columbia. We first show that Saturna Island mice and those from neighbouring islands are approximately 35% (approx. 5 g) heavier than mainland mice and diverged approximately 10 000 years ago. We then establish laboratory colonies and find that Saturna Island mice are heavier both because they are longer and have disproportionately more lean mass. These trait differences are maintained in second-generation captive-born mice raised in a common environment. In addition, island-mainland hybrids reveal a maternal genetic effect on body weight. Using behavioural testing in the laboratory, we also find that wild-caught island mice are less aggressive than mainland mice; however, laboratory-raised mice born to these founders do not differ in aggression. Together, our results reveal that these mice have different responses to the environmental conditions on islands-a heritable change in a morphological trait and a plastic response in a behavioural trait.
Highlights
Islands offer some of the most tractable examples of evolutionary adaptation and diversification [1]
We investigated the genetic basis of morphological and behavioural traits associated with the island syndrome in deer mice
Previous work in the 1970s reported that wild-caught Saturna Island deer mice had higher body weight [16,17] and reduced aggression levels compared with mainland mice [12,13]
Summary
Islands offer some of the most tractable examples of evolutionary adaptation and diversification [1]. Many island populations of animals share consistent differences in demography, body size, reproductive rate, antipredator behaviour and territorial aggression—a phenomenon known as the ‘island syndrome’ [2,3,4,5,6]. A key challenge in differentiating heritable and plastic components underlying island traits has been that most reports are based on experiments in the field, or for behavioural traits, wild-caught individuals subsequently tested in the laboratory We investigate the extent of and mechanisms driving the genetic and/or environmental components underlying morphological and behavioural island traits by measuring body size and aggressive behaviour both in wild-caught island and mainland deer mice as well as in their captive-born offspring
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