Colias eurytheme

Orange sulphur
	Dorsal view
	Ventral view
Conservation status
	Not evaluated (IUCN 3.1)
Scientific classification
Kingdom:	Animalia
Phylum:	Arthropoda
Class:	Insecta
Order:	Lepidoptera
Family:	Pieridae
Genus:	Colias
Species:	Colias eurytheme
Binomial name
	Colias eurytheme; Boisduval, 1852

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Colias eurytheme, the orange sulphur, also known as the alfalfa butterfly and in its larval stage as the alfalfa caterpillar, is a butterfly of the family Pieridae, where it belongs to the lowland group of "clouded yellows and sulphurs" subfamily Coliadinae. It is found throughout North America from southern Canada to Mexico, but is absent from the central and southeastern USA.

Other members of this lineage including the common or clouded sulphur (C. philodice) and Colias eriphyle and Colias vitabunda that are often included in C. philodice as subspecies. Hybridization runs rampant between these, making phylogenetic analyses exclusively utilizing one type of data (especially mtDNA sequences) unreliable. Therefore, little more can be said about its relationships, except that it is perhaps closer to C. (p.) eriphyle than generally assumed, strengthening the view that the latter should be considered a good species.^[1]

The orange sulphur's caterpillars feed off various species in the pea family (Fabaceae) and are usually only found feeding at night. Occasionally this species multiplies to high numbers, and can become a serious pest to alfalfa (Medicago sativa) crops.

Distribution

Colias eurytheme butterflies can be found from southern Mexico to almost all throughout North America. Historically, they were distributed primarily in the Nearctic regions of the west, but were displaced to the east by logging and alfalfa field planting.^[2]

Appearance

Wing pattern

Male Colias eurytheme hind wings demonstrate an ultraviolet reflectance pattern while female Colias eurytheme hind wings demonstrate ultraviolet absorbing patterns. According to studies, these ultraviolet reflecting wing scales found in males also contain pterin pigments that absorb wavelengths below 550 nm. Although this may seem paradoxical, the pterin pigments have been found to decrease the amount of diffuse ultraviolet reflectance that comes from the wing scales. By suppressing the diffuse ultraviolet reflectance, the directionality and spectral purity of the iridescence is heightened. In addition, the presence of the pterin pigments increases the signal’s chromaticity and potential signal content, suggesting that these pigments are responsible for amplifying the contrast between ultraviolet reflectance and background colors as a male’s wings move during flight.^[3] Further studies have found that the ultraviolet reflectance signal is brightest within a wing beat cycle when viewed from directly above the male. This supports the idea that male wing color should be able to be readily distinguished from that of females and the visual background that consists mostly of UV-absorbing vegetation.^[4]

Genetic inheritance

Studies have suggested that most of the genes controlling male courtship signals are inherited as a co-adapted gene complex on the X-chromosome. The X-chromosome carries most of the genes controlling production of 13-methyl heptacosane, the main component of pheromones involved in sexual selection, and the ultraviolet wing reflectance pattern. Expression of the ultraviolet wing reflectance pattern found in male Colias eurytheme is controlled by a recessive allele on the X-chromosome. This trait is sex limited and not expressed in females of the same species.^[5]

Reproduction

Reproductive behavior

Unlike that of many other butterfly species, the courtship of the Colias eurytheme is very brief and does not involve many elaborate displays. Mature female butterflies participate in mate selection by utilizing a specific refusal posture that prevents any undesired mating with both conspecific and non-conspecific males.^[6]

These butterflies exhibit a polyandrous mating system. Upon mating, male Colias eurytheme donate a nutritious spermatophore to the female, which will erode over time as nutrients are extracted for egg production and somatic maintenance. Females have a refractory period during which time they do not mate, but after they have depleted their spermatophore, they will search for another one and thus look for a new mate. In this mating system, females remate once every 4 to 6 days in summer, and mate a lifetime total of up to 4 times.^[7]

Sexual selection

Male Colias eurytheme have a visual cue (ultraviolet reflectance) and an olfactory cue (pheromones), both of which are suggested to be important in mate choice. Studies have suggested that pheromones may be more important in mediating female choice within a species, while ultraviolet reflectance may be more important in mediating female choice between species, such as between the very similar sulfur butterflies Colias eurytheme and C. philodice.^[8] The pheromone, located on the dorsal surface of the hindwing, consists of cuticular hydrocarbons n-heptacosane (C27), 13-methylheptacosane (13-MeC27), and possibly n-noncosane (C29).^[9] In addition, wing scales located on the dorsal wing surfaces in male Colias eurytheme contain ridges with lamellae that produce iridescent ultraviolet reflectance via thin-film interference.^[3]

Colias eurytheme males rely on visual cues to locate and identify females. Instead of using chemical stimuli to find mates, males are attracted to the ultraviolet absorbing color of female hind wings. Studies have shown that males respond to paper dummies of the appropriate color and even attempt to mate with them. On the contrary, the ultraviolet reflection found on males strongly inhibits approaches from other males. This suggests that ultraviolet reflectance is also used by males as an inhibitory signal directed towards other males.^[6]

Unlike sexual selection in males, visible color differences among males do not play an important role in mate selection by females. Females preferentially mate with males whose wings reflect ultraviolet light.^[6] Studies have suggested that this trait was the strongest and most informative predictor of male courtship success. This may be because it has the potential to be an honest indicator of male condition, viability, and/or age.^[8]

Due to the widespread cultivation of the alfalfa, the host plant for Colias eurytheme and C. philodice, the species was able to expand their ranges across most of North America. These two species of sulfur butterflies have retained a large degree of genetic compatibility that allows them the produce viable and fertile offspring.^[10] As a result of the recent sympatry and possible hybridization between these two species of sulfur butterflies, numerous studies have been conducted on intraspecific and interspecific mating.^[11] In terms of mating under natural conditions, the males do not discriminate between the species, but females maintain nearly complete reproductive isolation. Studies suggest that the females do so by looking for the ultraviolet reflectance pattern on the dorsal wing surface of Colias eurytheme males.^[10] Therefore, it was suggested that Colias eurytheme and C. philodice do not randomly mate with each other. Instead, mating was found to be positively assertive and mostly conspecific.^[11]

Sexual selection theory

Previous studies have suggested that males make a nutrient investment during copulation. This idea agrees with the sexual selection theory, which predicts that females would act in ways to maximize the nutrient material they receive and predicts that males would act in ways to maximize the return on their investments. Studies support this theory by showing that younger males (males with less wing wear) are more successful in courtship than older males, males accepted by females are significantly less variable in size than males rejected by females, persistence increases a male’s chance of copulating up to a point, and the size of females accepted by males is less variable than that of rejected females.^[12] The amount of protein in a male’s spermatophore is negatively correlated with age because it is more likely for older males to have mated previously. Females therefore prefer younger mates perhaps to secure large ejaculates, as smaller males and males that have mated previously produce smaller ejaculates.^[7] The brightness of ultraviolet reflectance and pheromone descriptors, both important factors in mate selection, are also negatively correlated with age. However, variation between these two traits (visual and olfactory) is mostly uncorrelated. Since ultraviolet brightness emerges as the best predictor of male mating success, female preferences for brighter males may also indicate its relation to a material benefit.^[8] In addition, studies have shown a longevity difference between virgin and mated females, suggesting a cost to mating. It is hypothesized that there is a toxic side effect of the male ejaculate. However, it is still unclear how this longevity cost influences the evolution of lifetime mating schedules. The supposed cost also does not affect the number of eggs a female lays in its lifetime.^[13]

Gallery

Male Orange Sulphur Megan McCarty18.jpg

Upper side of male orange sulphur
Underside pattern
Cloudless sulphur male (left) and orange sulphur male (right)
Albino Female Orange Sulphur, Megan McCarty57.jpg

Albino female laying an egg

References

↑ Wheat, Christopher W. & Watt, Ward B. (2008). A mitochondrial-DNA-based phylogeny for some evolutionary-genetic model species of Colias butterflies (Lepidoptera, Pieridae). Mol. Phylogenet. Evol. 47(3):893-902. doi:10.1016/j.ympev.2008.03.013 (HTML abstract, supplement available to subscribers)
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↑ ^3.0 ^3.1 Rutowski, R.l, J. Macedonia, N. Morehouse, and L. Taylor-Taft. (2005). Pterin Pigments Amplify Iridescent Ultraviolet Signal in Males of the Orange Sulphur Butterfly, Colias Eurytheme. Proceedings of the Royal Society B: Biological Sciences 272(1578):2329-35.
↑ Rutowski, Ronald L., Joseph M. Macedonia, Justin W. Merry, Nathan I. Morehouse, Kasey Yturralde, Laura Taylor-Taft, Diann Gaalema, Darrell J. Kemp, and Randi S. Papke. (2007). Iridescent Ultraviolet Signal in the Orange Sulphur Butterfly (Colias eurytheme): Spatial, Temporal and Spectral Properties. Biological Journal of the Linnean Society 90(2):349-64.
↑ Grula, John W., and Orley R. Taylor. (1979). The Inheritance of Pheromone Production in the Sulphur Butterflies Colias eurytheme and C. Philodice. Heredity 42(3):359-71.
↑ ^6.0 ^6.1 ^6.2 Silberglied, Robert E., and Orley R. Taylor. (1978). Ultraviolet Reflection and Its Behavioral Role in the Courtship of the Sulfur Butterflies Colias eurytheme and C. philodice (Lepidoptera, Pieridae). Behavioral Ecology and Sociobiology 3(3):203-43.
↑ ^7.0 ^7.1 Lua error in package.lua at line 80: module 'strict' not found.
↑ ^8.0 ^8.1 ^8.2 Papke, Randi S., Darell J. Kemp, and Ronald L. Rutowski. (2007). Multimodal Signalling: Structural Ultraviolet Reﬂectance Predicts Male Mating Success Better than Pheromones in the Butterﬂy Colias eurytheme L. (Pieridae). Animal Behavior 73:47-54.
↑ Sappington, T. W. (1990). Disruptive Sexual Selection in Colias Eurytheme Butterflies. Proceedings of the National Academy of Sciences 87(16):6132-5.
↑ ^10.0 ^10.1 Grula, John W., and Orley R. Taylor. (1980). The Effect of X-Chromosome Inheritance on Mate-Selection Behavior in the Sulfur Butterflies, Colias eurytheme and C. Philodice. Evolution 34(4):688-95.
↑ ^11.0 ^11.1 Taylor, Orley R., Jr. (1970). Random vs. Non-Random Mating in the Sulfur Butterflies, Colias eurytheme and Colias philodice (Lepidoptera: Pieridae). Evolution 26(3):344-56.
↑ Rutowski, Ronald L. (1985). Evidence for Mate Choice in a Sulphur Butterfly (Colias eurytheme). Zeitschrift für Tierpsychologie 70(2):103-14.
↑ Kemp, Darell J., and Ronald L. Rutowski. (2004). A Survival Cost to Mating in a Polyandrous Butterfly, Colias eurytheme. Oikos 105(1):65-70.

External links

Northern Prairie Wildlife Research Center
The Dallas County Lepidopterists' Society
Orange sulphur, Butterflies of Canada

[:0-1] Wheat, Christopher W. & Watt, Ward B. (2008). A mitochondrial-DNA-based phylogeny for some evolutionary-genetic model species of Colias butterflies (Lepidoptera, Pieridae). Mol. Phylogenet. Evol. 47(3):893-902. doi:10.1016/j.ympev.2008.03.013 (HTML abstract, supplement available to subscribers)

[Barton-2] Lua error in package.lua at line 80: module 'strict' not found.

[:3-3] 3.0 ^3.1 Rutowski, R.l, J. Macedonia, N. Morehouse, and L. Taylor-Taft. (2005). Pterin Pigments Amplify Iridescent Ultraviolet Signal in Males of the Orange Sulphur Butterfly, Colias Eurytheme. Proceedings of the Royal Society B: Biological Sciences 272(1578):2329-35.

[4] Rutowski, Ronald L., Joseph M. Macedonia, Justin W. Merry, Nathan I. Morehouse, Kasey Yturralde, Laura Taylor-Taft, Diann Gaalema, Darrell J. Kemp, and Randi S. Papke. (2007). Iridescent Ultraviolet Signal in the Orange Sulphur Butterfly (Colias eurytheme): Spatial, Temporal and Spectral Properties. Biological Journal of the Linnean Society 90(2):349-64.

[5] Grula, John W., and Orley R. Taylor. (1979). The Inheritance of Pheromone Production in the Sulphur Butterflies Colias eurytheme and C. Philodice. Heredity 42(3):359-71.

[:1-6] 6.0 ^6.1 ^6.2 Silberglied, Robert E., and Orley R. Taylor. (1978). Ultraviolet Reflection and Its Behavioral Role in the Courtship of the Sulfur Butterflies Colias eurytheme and C. philodice (Lepidoptera, Pieridae). Behavioral Ecology and Sociobiology 3(3):203-43.

[mace-7] 7.0 ^7.1 Lua error in package.lua at line 80: module 'strict' not found.

[:2-8] 8.0 ^8.1 ^8.2 Papke, Randi S., Darell J. Kemp, and Ronald L. Rutowski. (2007). Multimodal Signalling: Structural Ultraviolet Reﬂectance Predicts Male Mating Success Better than Pheromones in the Butterﬂy Colias eurytheme L. (Pieridae). Animal Behavior 73:47-54.

[9] Sappington, T. W. (1990). Disruptive Sexual Selection in Colias Eurytheme Butterflies. Proceedings of the National Academy of Sciences 87(16):6132-5.

[:4-10] 10.0 ^10.1 Grula, John W., and Orley R. Taylor. (1980). The Effect of X-Chromosome Inheritance on Mate-Selection Behavior in the Sulfur Butterflies, Colias eurytheme and C. Philodice. Evolution 34(4):688-95.

[:5-11] 11.0 ^11.1 Taylor, Orley R., Jr. (1970). Random vs. Non-Random Mating in the Sulfur Butterflies, Colias eurytheme and Colias philodice (Lepidoptera: Pieridae). Evolution 26(3):344-56.

[12] Rutowski, Ronald L. (1985). Evidence for Mate Choice in a Sulphur Butterfly (Colias eurytheme). Zeitschrift für Tierpsychologie 70(2):103-14.

[13] Kemp, Darell J., and Ronald L. Rutowski. (2004). A Survival Cost to Mating in a Polyandrous Butterfly, Colias eurytheme. Oikos 105(1):65-70.

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Colias eurytheme

Contents

Distribution

Appearance

Wing pattern

Genetic inheritance

Reproduction

Reproductive behavior

Sexual selection

Sexual selection theory

Gallery

References

External links

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