Geographic Variation in Body Size and Sexual Size Dimorphism of a Seed‐Feeding Beetle

Stillwell, R. Craig; Morse, Geoffrey E.; Fox, Charles

doi:10.1086/520118

Cited by 123 publications

(182 citation statements)

References 70 publications

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“…Environmental gradients are important determinants of resource variation, and in many species, body size varies along gradients of temperature (Ashton and Feldman, 2003;James, 1970), primary productivity (Beaupre, 1995a), and/or seasonality (Ashton, 2001;Boyce, 1979). Additionally, body size in males and females may respond differently to environmental gradients and thus result in geographic variation in sexual size dimorphism (SSD; Dobson and Wigginton, 1996;Stillwell et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

“…Temperature is often discussed as the primary driver behind large-scale patterns of body size clines (Stillwell et al, 2007). In general, body sizes of endotherms are negatively (i.e., Bergmann's Rule) and ectotherms positively correlated with temperature (Ashton and Feldman, 2003;James, 1970; but see: Olalla-Tárraga et al, 2006), but there is no general agreement on the proximate determinants responsible for these patterns.…”

Section: Introductionmentioning

confidence: 99%

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Potential environmental influences on variation in body size and sexual size dimorphism among Arizona populations of the western diamond-backed rattlesnake (Crotalus atrox)

Amarello

Nowak

Taylor

et al. 2010

Journal of Arid Environments

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Potential environmental influences on variation in body size and sexual size dimorphism among Arizona populations of the western diamond-backed rattlesnake (Crotalus atrox)

Amarello

Nowak

Taylor

et al. 2010

Journal of Arid Environments

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“…We estimated SSD of each age group (year) for each population using the SDI index (Lovich and Gibbons 1992), where SDI = [mean size of the larger sex/(mean size of the smaller sex-1)]. This index has the best statistical properties of all dimorphism indexes that have been proposed (Smith 1999;Stillwell et al 2007). We also calculated sex ratios (male:female) of each age group for each population.…”

Section: Discussionmentioning

confidence: 99%

Geographical variation in body size and sexual size dimorphism of introduced American bullfrogs in southwestern China

McGarrity³

2009

Biol Invasions

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Invasive species often exhibit geographical variations in life history traits that may allow them to successfully invade different environments. We investigated geographical variation in body size and sexual size dimorphism (SSD) of invasive bullfrogs in southwestern China, by sampling two breeding populations (descendants of a single source population) inhabiting sites at low (1,412 m, Shiping) and high (2,692 m, Luguhu) altitudes. Both populations exhibited significant SSD, with females larger than males. At high altitude, mean body size of both sexes and the degree of SSD were significantly reduced; the reduction in mean body size with increasing altitude was more pronounced in females, although not significantly so. Female bullfrogs also showed a significant decrease in average age at high altitude that may be a major factor related to this pattern; average age of male bullfrogs did not vary significantly with altitude. Growth rate of both sexes was also lower at high altitude. Our results provide the first evidence that introduced bullfrog's exhibit geographical variation in morphology in invaded areas in response to different environments, likely due to changes in climate. Additional research is required to determine the mechanism of this variation (i.e., physiological or developmental plasticity, mortality rate, selective pressure) and most importantly, to evaluate the potential for variation in the impacts of introduced bullfrogs on native ecosystems in China.

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“…The direction and magnitude of SSD varies considerably among the major taxa and among species due to variation in the sources of selection acting in concert to create SSD: variation among taxa/species in the magnitude of sexual selection favouring large size in males (owing to male -male competition or female choice), variation in fecundity selection favouring large size in females (larger females produce more eggs) and variation in a variety of sources of selection favouring small size in both sexes ). In addition, recent studies have shown that the magnitude of SSD, but often not the direction, changes considerably among populations within species (Blanckenhorn et al 2006(Blanckenhorn et al , 2007Stillwell et al 2007a). Although much of this intraspecific variation in SSD is partly genetically based and hence due to selection, some of this variation is also probably due to a sex difference in phenotypic plasticity in body size (Fairbairn 2005;.…”

Section: Introductionmentioning

confidence: 99%

“…Although many environmental and ecological variables induce plasticity in body size and other traits of ectothermic animals (Stillwell et al 2007a;Teder et al 2008;Blanckenhorn 2009), two are particularly important in inducing plasticity in growth and life-history traits: diet quantity/quality and temperature Stillwell et al 2007b). Insects typically mature at larger sizes when raised at lower temperatures and when raised on higher quality diets (Atkinson 1994;Berrigan & Charnov 1994;Stillwell & Fox 2005;Stillwell et al 2007b;Kingsolver & Huey 2008).…”

Section: Introductionmentioning

confidence: 99%

Sex differences in phenotypic plasticity of a mechanism that controls body size: implications for sexual size dimorphism

Stillwell

Davidowitz

2010

Proc. R. Soc. B.

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The degree and/or direction of sexual size dimorphism (SSD) varies considerably among species and among populations within species. Although this variation is in part genetically based, much of it is probably due to the sexes exhibiting differences in body size plasticity. Here, we use the hawkmoth, Manduca sexta, to test the hypothesis that moths reared on different diet qualities and at different temperatures will exhibit sex-specific body size plasticity. In addition, we explore the proximate mechanisms that potentially create sex-specific plasticity by examining three physiological variables known to regulate body size in this insect: the growth rate, the critical weight (which measures the cessation of juvenile hormone secretion from the corpora allata) and the interval to cessation of growth (ICG; which measures the time interval between the critical weight and the secretion of the ecdysteroids that regulate pupation and metamorphosis). We found that peak larval mass of males and females did not exhibit sex-specific plasticity in response to diet or temperature. However, the sexes did exhibit sex-specific plasticity in the mechanism that controls size; males and females exhibited sex-specific plasticity in the growth rate and the critical weight in response to both diet and temperature, whereas the ICG only exhibited sex-specific plasticity in response to diet. Our results suggest it is important for the sexes to maintain the same degree of SSD across environments and that this is accomplished by the sexes exhibiting differential sensitivity of the physiological factors that determine body size to environmental variation.

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Geographic Variation in Body Size and Sexual Size Dimorphism of a Seed‐Feeding Beetle

Cited by 123 publications

References 70 publications

Potential environmental influences on variation in body size and sexual size dimorphism among Arizona populations of the western diamond-backed rattlesnake (Crotalus atrox)

Potential environmental influences on variation in body size and sexual size dimorphism among Arizona populations of the western diamond-backed rattlesnake (Crotalus atrox)

Geographical variation in body size and sexual size dimorphism of introduced American bullfrogs in southwestern China

Sex differences in phenotypic plasticity of a mechanism that controls body size: implications for sexual size dimorphism

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