Nonrandom Patterns of Genetic Admixture Expose the Complex Historical Hybrid Origin of Unisexual Leaf Beetle Species in the Genus<i>Calligrapha</i>

Montelongo, Tinguaro; Gómez‐Zurita, Jesús

doi:10.1086/678408

Cited by 13 publications

(40 citation statements)

References 93 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the case of Wg data, ambiguous positions of heterozygotes were resolved in most cases by reference to known alleles in the population as observed in homozygotic individuals in the alignment or, in a second round of inference, considering the new alleles deduced in the previous step. Moreover, relevant in the case of unisexual species of known hybrid origin, these data were aligned and compared with the homologous sequences of putative parental Calligrapha species from Montelongo and Gómez‐Zurita (). Information on sample diversity, including segregating sites, haplotype and nucleotide diversity, and theta, as a measure of divergence, as well as measures of heterozygosity in the case of Wg , were obtained using DnaSP 5.10.1 (Librado & Rozas, ).…”

Section: Methodsmentioning

confidence: 99%

“…More recently, the analysis of allelic diversity of three single‐copy nuclear genes in five of the six unisexual Calligrapha species and a representative sample of bisexual species allowed validating this hypothesis. Indeed, individuals of unisexual species proved to be genetic mosaics sharing alleles with two and up to three bisexual species, extant representatives of the lineages involved in independent historical interspecific hybridization events (Montelongo & Gómez‐Zurita, ). Interestingly, this study also revealed some unexpected and intriguing findings.…”

Section: Introductionmentioning

confidence: 99%

“…In fact, this mtDNA lineage, the U‐clade, also included representatives of the bisexual species recognized as being involved in the interspecific crosses that led to each of the unisexual species, generalizing the idea of species mtDNA paraphyly in this group. The most parsimonious explanation for this complex pattern required a single ancestral species that introgressed its mtDNA some 2–3 Ma ago via hybridization into several lineages of Calligrapha and without fixation in the populations, so that they remained polymorphic for their mtDNA, as observed today (Montelongo & Gómez‐Zurita, , ). Later, already in the Pleistocene, species in these lineages were involved in new waves of hybridization events, and when these crosses involved females carrying the introgressed DNA, the resulting hybrid lineages would persist and eventually become unisexual.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Phylogeographic assessment of mtDNA paraphyly and the evolution of unisexuality inCalligrapha(Coleoptera: Chrysomelidae)

Gómez‐Zurita

Cardoso

2019

J Zool Syst Evol Res

Self Cite

View full text Add to dashboard Cite

The leaf beetle genus Calligrapha is one of the few examples of animals with several obligate unisexual, female‐only species. Previous work showed that each one arose independently from interspecific hybridization events involving different species. However, all of them clustered in a single mtDNA clade together with some individuals of the parental bisexual species, which appeared as deeply polyphyletic in the mtDNA genealogy of the genus. The dating of these splits using a molecular clock placed them in the Quaternary and it was hypothesized that climatic change during this period may have favored range expansions and secondary contacts required for hybridization. In this work, we test this hypothesis and the origins of unisexuality in Calligrapha examining the diversity of mitochondrial (cox1) and nuclear (wingless, Wg) genes and the Bayesian continuous mtDNA phylogeography of a sample of more than 500 specimens of two bisexual species of Calligrapha at a continental scale and two unisexual species derived from them. Besides a major topological difference, whereby each bisexual species is monophyletic for Wg but paraphyletic for cox1, both gene datasets are consistent with a minimum of seven evolutionary lineages, coherent with geography and consistent with an ordered expansion to occupy their current ranges. The results also imply their survival in well‐established glacial refuges during the Last Glacial Maximum (LGM). Thus, for bisexual C. multipunctata there are two main, southern and northern lineages. The southern lineage expanded its range in two evolutionary branches, to the Rocky Mountains and to the northern Mississippi and Ohio River basins, respectively. The northern lineage has one branch in the Upper Mississippi and one that expanded west to the Pacific Northwest and east to the northeastern North Atlantic, finding refuge in both areas. These major lineages are parapatric in the Northern Great Plains, an area consistent with them having found refuge in the so‐called Driftless region during the LGM. For bisexual C. philadelphica, one northern lineage expanded west from the northern Appalachians and one east and southwest along the axis of the Appalachians, and the timing of events is consistent with their persistence in glacial refugia at both sides of the main Great Lakes lobe of the Laurentide Ice Sheet. There is evidence that the northeastern North Atlantic lineages of both species hybridized at the edge of their ranges after the LGM. The additional, divergent mtDNA lineage of these species shows evidence of range expansions of two lineages, one for each species, in an area south of the Laurentide Ice Sheet, and giving origin to the unisexual species by way of hybridization with other species in the Alleghanian region after the LGM. Interestingly, the individuals of supposedly bisexual species in this clade are all females. This suggests that unisexuality actually predates the origin of unisexual taxa in this system and that some bisexual species in Calligrapha may be species complexes ...

show abstract

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Phylogeographic assessment of mtDNA paraphyly and the evolution of unisexuality inCalligrapha(Coleoptera: Chrysomelidae)

Gómez‐Zurita

Cardoso

2019

J Zool Syst Evol Res

Self Cite

View full text Add to dashboard Cite

show abstract

“…Such disruptions will usually cause aneuploidy, abortive development, and sterility. Both successful lab experiments and careful genomic analyses have shown that interspecific hybridization followed by back-crossing events can indeed result in parthenogenetic reproduction with restoration of ploidy that retains heterozygosity (e.g., Choleva et al, 2012;Drosopoulos, 1978;Lunt et al, 2014;Lutes, Baumann, Neaves, & Baumann, 2011;Montelongo & Gómez-Zurita, 2015;Schultz, 1973;White, Contreras, Cheney & Webb, 1977;Xu et al, 2013Xu et al, , 2015. It is thought that a rare balance between similarity and dissimilarity is necessary (the balance hypothesis, Janko et al, 2018;Moritz et al, 1989;Vrijenhoek, 1989).…”

Section: Hybridization and Endosymbiont Infections Cause Alterationmentioning

confidence: 99%

“…Hence it is vital that there should not be too much dissimilarity. Importantly single interspecific hybridization events are apparently not sufficient to initiate parthenogenesis and complex hybridization patterns appear to be usually necessary (Janko et al, 2018;Lunt et al, 2014, Montelongo & Gómez-Zurita, 2015Moritz et al, 1989;Xu et al, 2015). Both successful lab experiments and careful genomic analyses have shown that interspecific hybridization followed by back-crossing events can indeed result in parthenogenetic reproduction with restoration of ploidy that retains heterozygosity (e.g., Choleva et al, 2012;Drosopoulos, 1978;Lunt et al, 2014;Lutes, Baumann, Neaves, & Baumann, 2011;Montelongo & Gómez-Zurita, 2015;Schultz, 1973;White, Contreras, Cheney & Webb, 1977;Xu et al, 2013Xu et al, , 2015.…”

Section: Hybridization and Endosymbiont Infections Cause Alterationmentioning

confidence: 99%

Parthenogenesis and developmental constraints

Galis

Alphen

2019

Evolution and Development

View full text Add to dashboard Cite

The absence of a paternal contribution in an unfertilized ovum presents two developmental constraints against the evolution of parthenogenesis. We discuss the constraint caused by the absence of a centrosome and the one caused by the missing set of chromosomes and how they have been broken in specific taxa. They are examples of only a few well-underpinned examples of developmental constraints acting at macro-evolutionary scales in animals.Breaking of the constraint of the missing chromosomes is the best understood and generally involves rare occasions of drastic changes of meiosis. These drastic changes can be best explained by having been induced, or at least facilitated, by sudden cytological events (e.g., repeated rounds of hybridization, endosymbiont infections, and contagious infections). Once the genetic and developmental machinery is in place for regular or obligate parthenogenesis, shifts to other types of parthenogenesis can apparently rather easily evolve, for example, from facultative to obligate parthenogenesis, or from pseudoarrhenotoky to haplodiploidy. We argue that the combination of the two developmental constraints forms a near-absolute barrier against the gradual evolution from sporadic to obligate or regular facultative parthenogenesis, which can probably explain why the occurrence of the highly advantageous mode of regular facultative parthenogenesis is so rare and entirely absent in vertebrates.

show abstract

Peripatric speciation associated with genome expansion and female‐biased sex ratios in the moss genus Ceratodon

Nieto‐Lugilde

Werner

McDaniel

et al. 2018

American J of Botany

View full text Add to dashboard Cite

show abstract

Nonrandom Patterns of Genetic Admixture Expose the Complex Historical Hybrid Origin of Unisexual Leaf Beetle Species in the GenusCalligrapha

Cited by 13 publications

References 93 publications

Phylogeographic assessment of mtDNA paraphyly and the evolution of unisexuality inCalligrapha(Coleoptera: Chrysomelidae)

Phylogeographic assessment of mtDNA paraphyly and the evolution of unisexuality inCalligrapha(Coleoptera: Chrysomelidae)

Parthenogenesis and developmental constraints

Peripatric speciation associated with genome expansion and female‐biased sex ratios in the moss genus Ceratodon

Contact Info

Product

Resources

About