Abstract
Polyphenism, in which multiple discrete phenotypes develop from a single genotype, is considered to have contributed to the evolutionary success of aphids. Of the various polyphenisms observed in the complex life cycle of aphids, the reproductive and wing polyphenisms seen in most aphid species are conspicuous. In reproductive polyphenism, the reproductive modes can change between viviparous parthenogenesis and sexual reproduction in response to the photoperiod. Under short-day conditions in autumn, sexual morphs (males and oviparous females) are produced parthenogenetically. Winged polyphenism is observed in viviparous generations during summer, when winged or wingless (flightless) aphids are produced depending on a variety of environmental conditions (e.g., density, predators). Here, we review the physiological mechanisms underlying reproductive and wing polyphenism in aphids. In reproductive polyphenism, morph determination (male, oviparous or viviparous female) within mother aphids is regulated by juvenile hormone (JH) titers in the mothers. In wing polyphenism, although JH is considered to play an important role in phenotype determination (winged or wingless), the role is still controversial. In both cases, the acquisition of viviparity in Aphididae is considered to be the basis for maternal regulation of these polyphenisms, and through which environmental cues can be transferred to developing embryos through the physiological state of the mother. Although the mechanisms by which mothers alter the developmental programs of their progeny have not yet been clarified, continued developments in molecular biology will likely unravel these questions.
Highlights
In an attempt to understand the basis for the morphological diversity observed in organisms, studies focusing on developmental regulation and the evolution thereof have become a central theme in modern biology
An extreme example of phenotypic plasticity is “polyphenism,” in which discrete alternative phenotypes are produced from the same genotype in response to extrinsic factors (Nijhout, 1999, 2003)
Aphid polyphenism and viviparity et al, 2008; Davis, 2012), and in social aphids, caste polyphenism results in the production of soldier aphids which appear to defend their gall [Aoki, 1977; Hattori et al, 2013; reviewed in Itô (1989); Stern and Foster (1996); Shibao et al (2010)]. Since these flexible phenotypes of aphids should contribute to the remarkable adaptations seen in aphids (Dixon, 1998), the characteristics of these diverse and plastic phenotypes are important in the areas of ecology, evolutionary biology, and developmental biology
Summary
In an attempt to understand the basis for the morphological diversity observed in organisms, studies focusing on developmental regulation and the evolution thereof have become a central theme in modern biology. In all known cases of polyphenisms in insects, the switching mechanisms of developmental pathways leading to alternative phenotypes are mediated by either the timing of hormone secretion, the timing of a hormone sensitive period, or the threshold of hormone sensitivity (Nijhout, 1999). In addition to wing (winged/macropterous, brachypterous or wingless) and reproductive (sexual reproduction or parthenogenesis) polymorphisms (Miyazaki, 1987; Dixon, 1998; Le Trionnaire et al, 2008; Brisson, 2010), aphids exhibit body-color and caste polymorphisms (Aoki, 1977; Miyazaki, 1987; Fukatsu, 2010; Tsuchida et al, 2010), most of which are recognized as being polyphenisms. Many aphid species show wing polyphenism in which winged morphs appear in response to changes in environmental factors in order to facilitate migration to new host plants or habitats (Dixon, 1998; Braendle et al, 2006; Brisson, 2010). Reproductive polyphenism, in which sexual reproduction and parthenogenesis are switched depending on seasonal conditions, is exhibited by many aphid lineages
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