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2014 | 71 |

Tytuł artykułu

Exceptions from dioecy and sex lability in genus Salix

Autorzy

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Bisexualism (and its derivatives) is a rare exception in species which already acquired the dioecious breeding system. Although it occurs in some tree species, it is still rather uncommon, except for willows, in which bisexualism occurs in at least 18 species. In most willows such unusual individuals are subdioecious, hermaphroditic or monoecious, or produce intersexes (staminate flowers transform into pistillate flowers or the other way round). The frequency of non-dioecy can vary from a single individual to whole populations, but is in principle rare. Its possible causes are both environmental and genetic. In Salix sex lability is known to be affected by parasites and anthropogenic habitat change. In interspecific willow crosses there are numerous exceptions from dioecy that are mostly caused by polyploidization. Since sex determination in willows is genetic, environmental factors are expected to determine exclusively phenotypic sex traits.

Wydawca

-

Czasopismo

Rocznik

Tom

71

Opis fizyczny

p.167-171,ref.

Twórcy

autor
  • Institute of Biology, University in Bialystok, Swierkowa 20B, 15-950 Bialystok, Poland

Bibliografia

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  • Alstrom-Rapaport C., Lascoux M.,. Wang Y.C., Roberts G., Tuskan G.A. 1998. Identification of a RAPD Marker Linked to Sex Determination in the Basket Willow (Salix viminalis L.). Journal of Heredity 89: 44–49.
  • Beentje H. 2010. The Kew Plant Glossary. Richmond Royal Botanic Gardens, Kew.
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  • Gunter L.E., Roberts G.T., Lee K., Larimer F.W., Tuskan G.A. 2003. The development of two flanking SCAR markers linked to a sex determination locus in Salix viminalis L. Journal of Heredity 94: 185–189.
  • Håkansson A. 1955. Chromosome numbers and meiosis in certain salices. Hereditas 41: 454–482.
  • Harder L.D., Barrett C.H. 2006. Ecology and evolution of flowers. New York, Oxford University Press.
  • Heslop-Harrison J.W. 1924. Sex in the Salicaceae and its modification by Eriophid mites and other influences. The British Journal of Experimental Biology 1: 445–472.
  • Iszkuło G., Jasińska A.K. 2004. Variation in sex expression in Polish and Ukrainian populations of Taxus baccata L. Dendrobiology 52: 29–32.
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  • McLetchie D.N., Tuskan G.A. 1994. Gender determination in Populus. Norwegian Journal of Agriculture Science 18: 57–66.
  • Pannell J.R., Dorken M.E., Pujol B., Berjano R. 2008. Gender variation and transitions between sexual systems in Mercurialis annua (Euphorbiaceae). International Journal of Plant Science 169: 129–139.
  • Rohwer J., Kubitzki K. 1984. Salix martiana, a regularly hermaphrodite willow. Plant Systematics and Evolution 144: 99–101.
  • Rottenberg A. 1998. Sex ratio and gender stability in the dioecious plants of Israel. Botanical Journal of the Linnean Society 128: 137–148.
  • Rottenberg A. 2000. Fertility of exceptional bisexual individuals in four dioecious plant species. Sexual Plant Reproduction 12: 219–221.
  • Rottenberg A. 2007. Fertility and sexual structure in a polygamous willow population. Plant Systematics and Evolution 268: 257–260.
  • Semerikov V., Lagercrantz U., Tsarouhas V., Rönnberg-Wästljung A., Alström-Rapaport C., Lascoux M. 2003. Genetic mapping of sex-linked markers in Salix viminalis L. Heredity 91: 293–299.
  • Smith E.C. 1940. Sex expression in willows. Botanical Gazette 101: 851–861.
  • Yin T., DiFazio S.P., Lee G.E., Zhang X., Sewell M.M., Woolbright S.A., Allan G..J., Kelleher C.T., Douglas C.J.,Wang M., Tuskan G.A. 2008. Genome structure and emerging evidence of an incipient sex chromosome in Populus. Genome Research 18: 422–430.

Typ dokumentu

Bibliografia

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Identyfikator YADDA

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