Abstract
Partial migration, where a proportion of a population migrates, while other individuals remain resident, is widespread across most migratory lineages. However, the mechanisms driving individual differences in migratory tendency are still relatively poorly understood in most taxa, but may be influenced by morphological, physiological, and behavioral traits, controlled by phenotypic plasticity and the underlying genetic complex. Insects differ from vertebrates in that partial migration is often associated with pronounced morphological differences between migratory and resident phenotypes, such as wing presence or length. In contrast, the mechanisms influencing migratory tendency in wing-monomorphic insects is less clear. Insects are the most abundant and diverse group of terrestrial migrants, with trillions of animals moving across the globe annually, and understanding the drivers and extent of partial migration across populations will have considerable implications for ecosystem services, such as the management of pests and the conservation of threatened or beneficial species. Here, we present an overview of our current but incomplete knowledge of partial migration in insects. We discuss the factors that lead to the maintenance of partial migration within populations, and the conditions that may influence individual decision making, particularly in the context of individual fitness and reproductive tradeoffs. Finally, we highlight current gaps in knowledge and areas of future research that should prove fruitful in understanding the ecological and evolutionary drivers, and consequences of partial migration in insects.
Highlights
Vast numbers of animals migrate seasonally across large geographic scales, usually due to shifts in resource availability—the importance of habitat ephemerality as a primary driver of insect migration has long been recognized (Southwood, 1962; Denno et al, 1991; Dingle, 2014)—and in response to increased predation, parasitism and pathogen pressure (Altizer et al, 2011; Chapman et al, 2015)
Other movement ecology researchers might categorize some of the examples we provide in our review as dispersal instead of migration, but we adopt this broad view in order to discuss insect examples in the context of the established framework for partial migration
Three types of partial migration are often recognized in the literature, “breeding,” where a population remains together during the non-breeding season, but migrants and residents breed separately, “non-breeding” where a population breeds in the same habitat, but migrants and residents spend the non-breeding season separately and “skipped-breeding” where a population spends the non-breeding season in one location, but part of the population remains and does not breed, while the other migrates to breed (Chapman et al, 2011; Shaw and Levin, 2011; Dingle, 2014)
Summary
Partial migration, where a proportion of a population migrates, while other individuals remain resident, is widespread across most migratory lineages. The mechanisms driving individual differences in migratory tendency are still relatively poorly understood in most taxa, but may be influenced by morphological, physiological, and behavioral traits, controlled by phenotypic plasticity and the underlying genetic complex. Insects differ from vertebrates in that partial migration is often associated with pronounced morphological differences between migratory and resident phenotypes, such as wing presence or length. We present an overview of our current but incomplete knowledge of partial migration in insects. We highlight current gaps in knowledge and areas of future research that should prove fruitful in understanding the ecological and evolutionary drivers, and consequences of partial migration in insects
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