2000
DOI: 10.1111/j.0014-3820.2000.tb00565.x
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Genetic Evidence for Assortative Mating Between 13-Year Cicadas and Sympatric "17-Year Cicadas With 13-Year Life Cycles" Provides Support for Allochronic Speciation

Abstract: Thirteen-year cicadas of brood XIX from northern Arkansas, Missouri, and southern Illinois (lineage A) are known to be genetically different at two marker loci (mitochondrial DNA and abdominal color) from 13-year cicadas to the south (lineage B) that emerge in the same year. Because 17-year cicadas from all broods (year classes) are indistinguishable from lineage A at these two marker loci, previous workers suggested that the lineage A cicadas of 13-year brood XIX were derived from 17-year cicadas by life-cycl… Show more

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Cited by 45 publications
(71 citation statements)
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“…Introgressive hybridization between M. septendecim and M. tredecim (23,24) has also been proposed to explain the origin of M. neotredecim. Our results corroborate the previously reported genetic closeness of M. neotredecim to M. septendecim and not to M. tredecim (15)(16)(17)(18), more consistent with the plasticity/ nurse-brood model (but see ref. 25 for the theoretical possibility of the introgressive hybridization model).…”
Section: Resultssupporting
confidence: 93%
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“…Introgressive hybridization between M. septendecim and M. tredecim (23,24) has also been proposed to explain the origin of M. neotredecim. Our results corroborate the previously reported genetic closeness of M. neotredecim to M. septendecim and not to M. tredecim (15)(16)(17)(18), more consistent with the plasticity/ nurse-brood model (but see ref. 25 for the theoretical possibility of the introgressive hybridization model).…”
Section: Resultssupporting
confidence: 93%
“…We further suggest that the genetic basis of these life cycles and shifts is the same in each species group because it is unlikely that the same regulatory system evolved three times. The origin of M. neotredecim has been proposed to be a recent life cycle shift of M. septendecim from a 17-y to a 13-y cycle by genetic assimilation of life cycle plasticity, perhaps facilitated by other 13-y cicada "nurse broods" that protected them from predation (4,17,21). The plasticity of Magicicada life cycle length has been suggested based on records of off-schedule emergences (22).…”
Section: Resultsmentioning
confidence: 99%
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“…Because this need not require geographical isolation, allochronic speciation is often considered a special case of sympatric speciation (Alexander and Bigelow 1960;Yamamoto and Sota 2009). Evidence for allochronic speciation exists for organisms such as insects, fish, and plants (Alexander and Bigelow 1960;Simon et al 2000;Ritchie 2001;Devaux and Lande 2008;Yamamoto and Sota 2009). For birds and other tetrapods, we are aware of only one example of allochronic speciation, which involves sympatric seabirds (Friesen et al 2007).…”
Section: Discussionmentioning
confidence: 99%
“…It has been demonstrated that shifts in reproductive timing can result in sympatric speciation (allochrony) in invertebrate taxa, specifically those that have complex mating behaviors or periodicity, or those that utilize hosts (Wood & Guttman, 1982;Feder et al, 1993;Harrison & Bogdanowicz, 1995;Simon et al, 2000). Cyprogenia aberti possess a complex life cycle that provides many opportunities for allochronic speciation, where a shift in the timing of early reproductive events (i.e., gamete release, brooding, or larval release) could affect the success of their obligate parasitic larva.…”
Section: Co1 Nd1mentioning
confidence: 99%