Rare diploid females coexist with rare males: a novel finding in triploid parthenogenetic populations in the psyllid Cacopsylla myrtilli (W. Wagner, 1947) (Hemiptera, Psylloidea) in northern Europe
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[1] F. Amat,et al. Laboratory generation of new parthenogenetic lineages supports contagious parthenogenesis in Artemia , 2014, PeerJ.
[2] S. Nokkala,et al. Meiosis in rare males in parthenogenetic Cacopsylla myrtilli (Wagner, 1947) (Hemiptera, Psyllidae) populations from northern Europe , 2013, Comparative cytogenetics.
[3] F. Amat,et al. Functional rare males in diploid parthenogenetic Artemia , 2013, Journal of evolutionary biology.
[4] V. Lukhtanov,et al. Cacopsylla fraudatrix sp.n. (Hemiptera: Psylloidea) recognised from testis structure and mitochondrial gene COI. , 2012 .
[5] P. Wilton,et al. Male offspring production by asexual Potamopyrgus antipodarum, a New Zealand snail , 2012, Heredity.
[6] C. Sandrock,et al. CONTAGIOUS PARTHENOGENESIS, AUTOMIXIS, AND A SEX DETERMINATION MELTDOWN , 2011, Evolution; international journal of organic evolution.
[7] N. Michiels,et al. The costs and benefits of occasional sex: theoretical predictions and a case study. , 2010, The Journal of heredity.
[8] Koen Martens,et al. Lost sex : the evolutionary biology of parthenogenesis , 2009 .
[9] S. Nokkala,et al. The distribution and population sex ratio of Cacopsylla myrtilli (W. Wagner, 1947) (Hemiptera: Psylloidea). , 2009, Folia biologica.
[10] N. Wahlberg,et al. Genomic outposts serve the phylogenomic pioneers: designing novel nuclear markers for genomic DNA extractions of lepidoptera. , 2008, Systematic biology.
[11] S. Nokkala,et al. First evidence of polyploidy in Psylloidea (Homoptera, Sternorrhyncha): a parthenogenetic population of Cacopsylla myrtilli (W. Wagner, 1947) from northeast Finland is apomictic and triploid , 2008, Genetica.
[12] S. Scheu,et al. Reevolution of sexuality breaks Dollo's law , 2007, Proceedings of the National Academy of Sciences.
[13] D. Bird,et al. A Method for Generating Meloidogyne incognita Males. , 2006, Journal of nematology.
[14] I. Hodkinson,et al. Facultative parthenogenesis in Cacopsylla myrtilli (Wagner) (Hemiptera: Psylloidea) in northern Sweden: possible explanations for the occurrence of males. , 2006 .
[15] M. Lundmark. Polyploidization, hybridization and geographical parthenogenesis. , 2006, Trends in ecology & evolution.
[16] Rodrigo Venturoso Mendes. Genetica , 2012, The Italian Journal of Neurological Sciences.
[17] M. Kearney. Hybridization, glaciation and geographical parthenogenesis. , 2005, Trends in ecology & evolution.
[18] M. Lynch,et al. EVOLUTIONARY HISTORY OF CONTAGIOUS ASEXUALITY IN DAPHNIA PULEX , 2005, Evolution; international journal of organic evolution.
[19] R. A. Norton,et al. Further experimental proof of thelytokous parthenogenesis in oribatid mites (Acari: Oribatida: Desmonomata) , 1990, Experimental & Applied Acarology.
[20] Z. Adamski,et al. Parthenogenesis as a life strategy among mites of the suborder Uropodina (Acari: Mesostigmata) , 2004 .
[21] R. Blackman,et al. Behaviour of the X chromosomes during growth and maturation of parthenogenetic eggs of Amphorophora tuberculata (Homoptera, Aphididae), in relation to sex determination , 1986, Chromosoma.
[22] B. Normark. The evolution of alternative genetic systems in insects. , 2003, Annual review of entomology.
[23] C. Rispe,et al. Phylogenetic relationships between parthenogens and their sexual relatives: the possible routes to parthenogenesis in animals , 2003 .
[24] N. Moran,et al. Genomic signatures of ancient asexual lineages , 2003 .
[25] R. Butlin,et al. Evolution of sex: The costs and benefits of sex: new insights from old asexual lineages , 2002, Nature reviews genetics.
[26] F. Delmotte. Multiple routes to asexuality in an aphid species , 2001, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[27] C. Rispe,et al. Extreme Life-Cycle and Sex Ratio Variation among Sexually Produced Clones of the Aphid Rhopalosiphum padi (Homoptera: Aphididae) , 1999 .
[28] A. Latorre,et al. Molecular markers linked to breeding system differences in segregating and natural populations of the cereal aphid Rhopalosiphum padi L. , 1999, Molecular ecology.
[29] P. Hebert. Sex and Parthenogenesis — Evolutionary Ecology of Reproductive Modes in Non-Marine Ostracods , 1999, Heredity.
[30] R. Butlin,et al. Asexual reproduction in nonmarine ostracods , 1998, Heredity.
[31] L. Hurst,et al. Recent advances in understanding of the evolution and maintenance of sex. , 1996, Trends in ecology & evolution.
[32] R. Vrijenhoek,et al. DNA primers for amplification of mitochondrial cytochrome c oxidase subunit I from diverse metazoan invertebrates. , 1994, Molecular marine biology and biotechnology.
[33] J. Crow,et al. Advantages of sexual reproduction. , 1994, Developmental genetics.
[34] P. Hebert,et al. THE ORIGIN AND GENETIC BASIS OF OBLIGATE PARTHENOGENESIS IN DAPHNIA PULEX , 1988, Evolution; international journal of organic evolution.
[35] G. Taberly. Recherches sur la parthénogenèse thélytoque de deux espèces d'Acariens Oribates: Trhypochthonius tectorum (Berlese) et Platynothrus peltifer (Koch). IV: Observations sur les mâles ataviques , 1988 .
[36] G. Taberly. Recherches sur la parthénogenèse thélytoque de deux espèces d'acariens oribates: Trhypochthonius tectorum (Berlese) et Platynothrus peltifer (Koch). I , 1987 .
[37] A. Saura,et al. Cytology and evolution in parthenogenesis , 1987 .
[38] M. Lynch. Destabilizing Hybridization, General-Purpose Genotypes and Geographic Parthenogenesis , 1984, The Quarterly Review of Biology.
[39] I.D. HODKINSON. The Psyllids (Homoptera: Psylloida) of Alaska , 1978 .
[40] I. Hodkinson. New psyllids (Insecta: Homoptera: Psylloidea) from Canada , 1976 .
[41] R. Blackman. The inheritance of life-cycle differences in Myzus persicae (Sulz.) (Hem., Aphididae) , 1972 .
[42] S. M. Klimaszewski. Koliszki (Homoptera, Psyllodea) Bieszczadów , 1971 .