Occurrence and significance of natural hybrids between Papilio dardanus and P.phorcas (Lepidoptera: Papilionidae)

Abstract. Species can exchange genes through occasional hybridization. As a result, and contrary to some expectations, closely related species may be genetically more compatible in sympatry than in allopatry. This could be so for two well-known African swallowtails, Papilio dardanus Brown and P.phorcas Cramer. Five natural hybrids between the two species are documented, their significance is discussed, and further information requested.     

Phylogenetic relationships of three African swallowtail butterflies,Papilio dardanus,P.phorcas and P.constantinus: New data from hybrids (Lepidoptera: Papilionidae)

Abstract. Various laboratory-bred hybrids between Papilio dardanus, P.phorcas and P.constantinus are reported. The principal object of the research was to obtain evidence regarding the evolutionary relationships of the three species, with particular reference to understanding the evolution of the mimetic patterns of P.dardanus. With regard to the latter, little progress was made but other findings were interesting, notably those concerning sex ratio, pupal coloration, and differences in male genitalia.     

Papilio nandina, a probable hybrid between Papilio dardanus and Papilio phorcas

Abstract. Hybrids bred in the laboratory between Papilio dardanus Brown and Papilio phorcas Cramer resulted in male butterflies similar to the two naturally occurring males described as P.nandina Rothschild & Jordan. A single female hybrid insect resembling the female parent was also bred. Male hybrids were also obtained between P.dardanus and P.demodocus/demoleus but not between P.dardanus and P.constantinus .
The phylogenetic relationships of dardanus and phorcas are discussed, and reasons given for preferring the older hypothesis that male-like females are primitive rather than that they represent the most specialized forms. Further information on this point would be forthcoming if backcrosses and F₂ s could be obtained.     

Phylogenetic relationships of three African swallowtail butterflies,Papilio dardanus,P.phorcas and P.constantinus: A cladistic analysis (Lepidoptera: Papilionidae)

Abstract. The well-known polymorphic mimetic African papilionid butterfly, Papilio dardanus Brown, is demonstrated by cladistic analysis to form a monophyletic group (the phorcas-group) with two other African swallowtails, P.phorcas Cramer and P.constantinus Ward. Within this group, dardanus and phorcas are shown to be sister-species, with constantinus as the stem. The supposed relationship of this group of three Rutaceae-feeding species to the five members of the Canellaceae/Lauraceae-feeding Papilio hesperus-group (including P.nobilis Rogenhofer) is questioned. The significance of this analysis is discussed with special reference to Trimen's original hypothesis on the evolution of mimetic patterns in female Papilio dardanus, the unique male patterns of phorcas and dardanus, and natural and laboratory-produced hybrids. A pathway modelling technique is developed to represent the possible course of evolution of the phorcas-group, in terms of speciation events and the accumulation and decay of the pattern polymorphisms.     

A model for colour pattern formation in the butterfly wing of Papilio dardanus

The butterfly Papilio dardanus is well known for the spectacular phenotypic polymorphism in the female of the species. We show that numerical simulations of a reaction diffusion model on a geometrically accurate wing domain produce spatial patterns that are consistent with many of those observed on the butterfly. Our results suggest that the wing coloration is due to a simple underlying stripe-like pattern of some pigment-inducing morphogen. We focus on the effect of key factors such as parameter values for mode selection, threshold values which determine colour, wing shape and boundary conditions. The generality of our approach should allow us to investigate other butterfly species. The relationship between these key factors and gene activities is discussed in the context of recent biological advances.     

Microsatellite markers for the hybridizing tiger swallowtails, Papilio glaucus and P. canadensis, and their applicability to historic specimens and congeneric species

We report the development of microsatellite markers for the sister species Papilio glaucus and P. canadensis (Papilionidae: Lepidoptera). All 16 markers displayed a high degree of variation in both species, ranging from eight to 24 alleles per locus. Substantial heterozygote deficits were observed for several loci, indicating the presence of null alleles. All markers were successfully used to genotype dried samples from a historical collection. Cross-species amplification with six additional Papilio species showed that most loci can be used to study genetic variation in other closely related species of tiger swallowtails.     

The phylogeny of some Papilio species based on interspecific hybridization data

Abstract. Adults of different species of the genus Papilio can easily be mated by hand-pairing. The data on egg hatchability, adult formation and F₁ fertility in these interspecific hybrids show notable variations according to the crosses. Using these data, values of a differentiation index for each cross were calculated. These estimates of genetic distance were then used to study the phylo-genetic relationships of the species involved. The data are consistent with the existence of the following groups, each consisting of closely related species: the black Papilio supergroup, the Papilio memnon group, the P.demoleus group, the P.xuthus group, the P.machaon group, the P.bianor group, the P.glaucus group and the P.troilus group. The phylogenetic relationships revealed by these data generally coincide with the relationships established by classical taxonomy. In cases where there are differences of opinion among taxonomists, the writer's data usually support one or other of them.     

Molecular cloning and expression of CYP6B8: a xanthotoxin-inducible cytochrome P450 cDNA from Helicoverpa zea

Xanthotoxin, a plant allelochemical, induces alpha-cypermethrin insecticide tolerance in Helicoverpa zea (corn earworm); inhibition of tolerance by piperonyl butoxide implicates cytochrome P450 monooxygenases (P450s) in the detoxification of this insecticide. To characterize the xanthotoxin-inducible P450 that might mediate alpha-cypermethrin tolerance in this species, a cDNA library prepared from xanthotoxin-induced H. zea fifth instar larvae was screened with cDNAs encoding furanocoumarin-metabolizing P450s from Papilio polyxenes (CYP6B1v2) and P. glaucus (CYP6B4v2) as well as a sequence-related P450 from Helicoverpa armigera (CYP6B2). One full-length cDNA isolated in this screening shares 51-99% amino acid identity with the CYP6B subfamily of P450s isolated from Papilio and Helicoverpa species and, thus, has been designated CYP6B8. All of these CYP6B subfamily members share a number of highly conserved domains, including substrate recognition site 1 (SRS 1) that is critical for xanthotoxin metabolism by CYP6B1v2 from Papilio polyxenes and coumarin metabolism by CYP2a5 from Mus musculus. Northern and RT-PCR analyses indicate that CYP6B8 expression is strongly induced by xanthotoxin and phenobarbital and negligibly induced by alpha-cypermethrin.     

Effect of larval brain extracts derived from three swallowtail butterflies,Papilio helenus L., P. machaon L. and P. memnon L., on seasonal morph development of P. xuthus L. (Lepidoptera: Papilionidae)

Adults of the three papilionid butterflies, Papilio helenus L., Papilio machaon L. and Papilio memnon L., exhibit seasonal diphenism comprising spring and summer morphs. To elucidate the physiological mechanism underlying seasonal morph development in papilionid butterflies, we investigated whether a cerebral factor showing summer‐morph‐producing hormone (SMPH) activity is present in the brain of three Papilio species using an assay system with chilled male short‐day pupae of P. xuthus L. When 2% NaCl extracts derived from 20 larval brains of the three species were injected into abdomens of chilled male short‐day pupae of P. xuthus, all recipients destined to develop into spring‐morph adults developed into summer‐ and intermediate‐morph adults. On the other hand, all recipients injected with distilled water as a control developed into spring‐morph adults. These results indicate that a cerebral factor showing SMPH activity is present in the larval brain of the three Papilio species. Additionally, all recipients injected with 2% NaCl extracts derived from 20 adult brains of Bombyx mori L. also developed into summer‐ and intermediate‐morph adults. The results revealed that SMPH or a cerebral factor showing SMPH activity is widely distributed among lepidopteran insects.     

Sequence variation in ITS spacers and 5.8S rDNA and relationship of E, St, P, Ns, Xm, and H genomes in the genera of Agropyron, Elytrigia, Leymus, Pascopyrum, Psathyrostachys, and Hordeum

Understanding species evolution and improvement requires information of their genome origin and differentiation. Among the species in the family Gramineae, genome identities of Agropyron-Elytrigia-Leymus group are still ambiguous. In order to delineate the genome relationship, nucleotide sequence analysis in the rDNA ITS regions was carried out among the species in the genera Elytrigia, Agropyron, Psathyrostachys, Leymus, and Psacopyrum containing E, St, P, Ns, and Xm genomes. The ITS-1 and ITS-2 showed a narrow range of variation in length except for the presence of a pentanucleotide, TGGGG, in/del in some haplotypes, whereas higher numbers of nucleotide substitutions were observed in most genera. There were 187 variable sites in the ITS-1, 5.8S, and ITS-2 regions, in which a few genome specific mutations were observed. While the level of variation was similar between ITS-1 and ITS-2, the rate of transition mutation versus transversion mutations was different among the ITS-1, 5.8S, and ITS-2 segments. GC contents of the ITS regions ranged between 55–65% between genomes and the haplotypes of P and H genomes were slightly higher than others. In phylogenetic analysis, the ITS haplotypes were classified into two groups; one containing H, Ns, NsXm genomes, and another containing P, St, and E genomes, which are congruous to the genome affinities from other studies. Among the four genomes in Pascopyrum smithii (2n=8x=56, StStNsNsHHXmXm), the haplotypes of H and St genomes were identified with the reference diploid species, but the haplotypes having Ns and Xm genomes were not found in the present analysis.     

Ecology and genetics of interspecific hybridization in the swallowtails, Papilio hospiton Gene and P. machaon L., in Corsica (Lepidoptera: Papiliomdae)

The Corsican swallowtail butterfly, Papilio hospiton , is endemic to Corsica and Sardinia (France and Italy) and included in the list of endangered species by the Washington Convention, It is spread all over Corsica in scattered populations linked to diverse habitats. A study by enzyme electrophoresis showed that the genetic diversity of the species is of the same order of magnitude as that of Papilio machaon from continental France and Corsica. The differentiation between populations is rather low, which is consistent with the high vagility of the adults. Natural hybridization between P. hospiton and P. machaon is frequent, and laboratory crosses show that the hybrids are not sterile. However, developmental perturbations impair the viability of further hybrid progenies. Although limited introgression between the two species is likely to take place, enzyme electrophoresis and PCR-RFLP analysis of mitochondrial DNA show that their gene pools remain distincfTtienetic assimilation by P. machaon therefore does not seem to be a threat for P. hospiton.     

Male-like females, mimicry and transvestism in butterflies (Lepidoptera: Papilionidae)

Abstract. When a butterfly species has a polymorphic female, with one of the forms closely resembling the male, it is customary to suppose that this form is ancestral, and that the ‘odd’ forms have arisen later. R. I. Vane-Wright, on the other hand, has suggested that in some species the male-like form may be a ‘transvestite’ female, the ancestral form of the female having been strikingly unlike the male. As later-derived forms are usually, but not always, genetically dominant to ancestral forms, we can make some choice between these hypotheses by discovering the dominance relations of the male-like and the ‘odd’ forms of the female. In the mimetic Papilio aegeus the male-like form is shown to be recessive to the ‘odd’ (mimetic) form, as has essentially been the case in all other butterflies so far investigated. Papilio phorcas is now shown to be the exception: the ‘odd’ (non-mimetic) form is recessive to the male-like form. We conclude that usually the male-like form is ancestral, but that P.phorcas may be an authentic example of ‘transvestism’, or the ‘transfer’ of male epigamic colour to the female of the species. The yellow, male-like pattern of the mimetic Papilio dardanus may be dominant or recessive to the mimetic forms according to the genetic background: largely recessive in Madagascar, and southern and western Africa, dominant to most forms in Ethiopia, and probably dominant to one mimetic form but recessive to the others in Kenya. All female dardanus patterns, both mimetic and yellow, are strongly dominant to both female phorcas patterns in P. dardanus × P. phorcas hybrids (P. ‘nandina’). The simplest explanation of this situation is that the male-like pattern of dardanus is ancestral, and that dominance has become locally reversed in Ethiopia. The dominance relations, and the sex- or autosomal-linkage of two forms can be determined without pedigree-breeding, simply by observing a few offspring each from a large number of wild-caught females.     

Differential patterns of hybridization and introgression between the swallowtails Papilio machaon and P. hospiton from Sardinia and Corsica islands (Lepidoptera,Papilionidae)

Proportions of hybridization and introgression between the swallowtails Papilio hospiton, endemic to Sardinia and Corsica, and the holarctic Papilio machaon, were characterized using nine fully diagnostic and two differentiated allozyme loci and a mitochondrial DNA marker. Very low frequencies of F1 hybrids were detected in both Sardinia (0-4%, average 1.4%) and Corsica (0-3%, average 0.5%), as well as of first generation backcrosses (B1). No F2 were observed, in agreement with the hybrid breakdown detected in laboratory crosses. In spite of this minimal current gene exchange, specimens carrying introgressed alleles were found in high proportions in P. machaon but in lower proportions in P. hospiton. Introgression apparently occurred through past hybridization and repeated backcrossing, as evidenced by hybrid index scores and Bayesian assignment tests. Levels of introgression were low (0-1%) at two sex-linked loci and mitochondrial DNA, limited (0.4-2%) at three autosomal loci coding for dimeric enzymes, and high (up to 43%) at four autosomal loci coding for monomeric enzymes. Accordingly, selective filters are acting against foreign alleles, with differential effectiveness depending on the loci involved. The low levels of introgression at sex-linked loci and mitochondrial DNA are in agreement with Haldane's rule and suggest that introgression in P. machaon proceeds mainly through males, owing to a lower fitness of hybrid females. Papilio machaon populations showed higher levels of introgression in Sardinia than in Corsica. The role of reinforcement in the present reproductive isolation between P. machaon and P. hospiton is examined, as well as the evolutionary effects of introgressive hybridization between the two species.     

中国蛛缘蝽科物种DNA条形码研究(英文)

【目的】本研究旨在探讨DNA条形码对中国蛛缘蝽科(半翅目：缘蝽总科)物种界定的适用性。【方法】对中国蛛缘蝽科13属23种207个样本的线粒体COI基因DNA条形码序列进行扩增,并扩增稻缘蝽属Leptocorisa 3个物种的31条内转录间隔区1(ITS-1)序列作为辅助标记。使用MEGA 11软件计算种间和种内遗传距离(Kimura 2-parameter, K2P);采用邻接法(neighbor-joining, NJ)进行物种聚类分析;利用中介邻接网络算法构建单倍型网络图。【结果】基于线粒体COI DNA条形码序列得出测试的中国蛛缘蝽科所有23个种的种内平均K2P距离在2%以下,种间K2P距离在0.98%~23.98%之间(平均17.50%)。多数物种彼此能够被较好地分开,且支持率较高。其中,中稻缘蝽Leptocorisa chinensis和大稻缘蝽L. oratoria共享部分COI单倍型,造成COI条形码无法区分二者,可通过ITS-1序列在单倍型网络分析中将二者区分。【结论】本研究得出的中国蛛缘蝽科中绝大部分物种的DNA条形码数据分析结果与基于形态特征的分类单元一致。然而,对于其中亲缘关系极近的物种,单靠线粒体数据尤其是COI条形码序列无法进行准确界定,需引入其他DNA序列或其他类型数据进行区分。     

Evolution of the ribosomal RNA internal transcribed spacer one (ITS-1) in cichlid fishes of the Lake Victoria region

The nucleotide sequences of the first internal transcribed spacer (ITS-1) of the ribosomal RNA gene cluster have been determined for 11 species of closely related endemic cichlid fishes of the Lake Victoria region (LVR) and 6 related East African cichlids. The ITS-1 sequences confirmed independently derived basal phylogenies, but provide limited insight within this species flock. The line leading to Pseudocrenilabrus multicolor arose early, close to the divergence event that separated the tilapiine and haplochromine tribes of the "African Group" of the family Cichlidae. In this phylogeny, Astatoreochromis alluaudi and the riverine Astatotilapia burtoni are sister taxa, which together are a sister group to a monophyletic assemblage including both Lake Victoria and Lake Edward taxa. The ITS-1 data support the monophyly of haplochromine genera across lakes. Since Lake Victoria is believed to have been dry between 14, 500 and 12,400 BPE, the modern assemblage must have been derived from reinvasion by the products of earlier cladogenesis events. Thus, although the regional superflock is monophyletic, the haplochromines of Lake Victoria itself did not evolve in situ from a single ancestor.     

Independent evolution of sexual dimorphism and female‐limited mimicry in swallowtail butterflies (Papilio dardanus and Papilio phorcas)

Several species of swallowtail butterflies (genus Papilio) are Batesian mimics that express multiple mimetic female forms, while the males are monomorphic and nonmimetic. The evolution of such sex‐limited mimicry may involve sexual dimorphism arising first and mimicry subsequently. Such a stepwise scenario through a nonmimetic, sexually dimorphic stage has been proposed for two closely related sexually dimorphic species: Papilio phorcas, a nonmimetic species with two female forms, and Papilio dardanus, a female‐limited polymorphic mimetic species. Their close relationship indicates that female‐limited polymorphism could be a shared derived character of the two species. Here, we present a phylogenomic analysis of the dardanus group using 3964 nuclear loci and whole mitochondrial genomes, showing that they are not sister species and thus that the sexually dimorphic state has arisen independently in the two species. Nonhomology of the female polymorphism in both species is supported by population genetic analysis of engrailed, the presumed mimicry switch locus in P. dardanus. McDonald–Kreitman tests performed on SNPs in engrailed showed the signature of balancing selection in a polymorphic population of P. dardanus, but not in monomorphic populations, nor in the nonmimetic P. phorcas. Hence, the wing polymorphism does not balance polymorphisms in engrailed in P. phorcas. Equally, unlike in P. dardanus, none of the SNPs in P. phorcas engrailed were associated with either female morph. We conclude that sexual dimorphism due to female polymorphism evolved independently in both species from monomorphic, nonmimetic states. While sexual selection may drive male–female dimorphism in nonmimetic species, in mimetic Papilios, natural selection for protection from predators in females is an alternative route to sexual dimorphism.     

Pigmentation pattern formation in butterflies: experiments and models

Butterfly pigmentation patterns are one of the most spectacular and vivid examples of pattern formation in biology. They have attracted much attention from experimentalists and theoreticians, who have tried to understand the underlying genetic, chemical and physical processes that lead to patterning. In this paper, we present a brief review of this field by first considering the generation of the localised, eyespot, patterns and then the formation of more globally controlled patterns. We present some new results applied to pattern formation on the wing of the mimetic butterfly Papilio dardanus.     

Sex chromosome mosaicism and hybrid speciation among tiger swallowtail butterflies

Hybrid speciation, or the formation of a daughter species due to interbreeding between two parental species, is a potentially important means of diversification, because it generates new forms from existing variation. However, factors responsible for the origin and maintenance of hybrid species are largely unknown. Here we show that the North American butterfly Papilio appalachiensis is a hybrid species, with genomic admixture from Papilio glaucus and Papilio canadensis. Papilio appalachiensis has a mosaic phenotype, which is hypothesized to be the result of combining sex-linked traits from P. glaucus and P. canadensis. We show that P. appalachiensis' Z-linked genes associated with a cooler thermal habitat were inherited from P. canadensis, whereas its W-linked mimicry and mitochondrial DNA were inherited from P. glaucus. Furthermore, genome-wide AFLP markers showed nearly equal contributions from each parental species in the origin of P. appalachiensis, indicating that it formed from a burst of hybridization between the parental species, with little subsequent backcrossing. However, analyses of genetic differentiation, clustering, and polymorphism based on molecular data also showed that P. appalachiensis is genetically distinct from both parental species. Population genetic simulations revealed P. appalachiensis to be much younger than the parental species, with unidirectional gene flow from P. glaucus and P. canadensis into P. appalachiensis. Finally, phylogenetic analyses, combined with ancestral state reconstruction, showed that the two traits that define P. appalachiensis' mosaic phenotype, obligatory pupal diapause and mimicry, evolved uniquely in P. canadensis and P. glaucus, respectively, and were then recombined through hybridization to form P. appalachiensis. These results suggest that natural selection and sex-linked traits may have played an important role in the origin and maintenance of P. appalachiensis as a hybrid species. In particular, ecological barriers associated with a steep thermal cline appear to maintain the distinct, mosaic genome of P. appalachiensis despite contact and occasional hybridization with both parental species.     

ITS-1 ribosomal DNA sequence variants are maintained in different species and strains of Echinococcus

This study investigated sequence heterogeneity in the first internal transcribed spacer (ITS-1) of ribosomal DNA within and among species and strains of Echinococcus. Different ITS-1 sequence variants exist in Echinococcus granulosus and Echinococcus multilocularis, which represent at least four evolutionary lineages: (1) a sheep strain-lineage of E. granulosus, (2) a sister lineage of a cervid and camel E. granulosus ITS-1 variants, (3) a lineage including the ITS-1 variants representing horse, bovine and camel strains of E. granulosus, as well as variants from E. multilocularis, Echinococcus oligarthrus and Echinococcus vogeli and (4) a distinct lineage of ITS-1 variants including E. granulosus strains from sheep and cervid, and E. multilocularis. At least two of the species (E. granulosus and E. multilocularis) were paraphyletic for ITS-1. Divergent ITS-1 variants from these two species shared distinct evolutionary lineages. The sequence data provided evidence that at least two turnover mechanisms, namely slippage and unequal crossing over/transposition, have led to the divergence and maintenance of sequence variants in Echinococcus species and strains.