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Tytuł artykułu

Pilosella bauhinii (Schult.) Arv-Touv. and P. cymosa subsp. vaillantii (Tausch) S. Braut. and Greuter (Asteraceae) from new localities in north-central Poland

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
We provide information about two species, Pilosella bauhinii and P. cymosa subsp. vaillantii (Asteraceae), from new localities in north-central Poland (ATPOL DC18). All individuals of both species grew on a railway embankment in Górzno-Lidzbark Landscape Park. The ecological preferences for P. cymosa and P. bauhinii estimated according to average Ellenberg values nearly coincided with the original description of Ellenberg. We also sequenced the barcode marker, plastid trnH-psbA intergenic spacer, for two individuals of P. bauhinii, three specimens of P. cymosa subsp. vaillantii, and additionally two individuals of P. officinarum L. and one H. murorum L. growing in close proximity. A pairwise comparison of trnH-psbA sequences showed that each species has a unique haplotype. Taking into account their morphological coherence, it is possible that both P. bauhinii and P. cymosa have not hybridized yet, at least locally, with the more abundant species (e.g., P. officinarum). A search for reference sequences did not provide additional information because of the low quality of the reference database for this group in GenBank. Only 14 sequences of trnH-psbA were available with some apparently being misidentified or of low quality. None were identical to sequences of P. cymosa subsp. vaillantii and P. bauhinii found in this study.
Wydawca
-
Rocznik
Tom
84
Numer
4
Opis fizyczny
p.449-451,ref.
Twórcy
autor
  • Herbarium TRN, Chair of Geobotany and Landscape Planning, Nicolaus Copernicus University in Torun, Lwowska 1, 87-100 Torun, Poland
autor
  • Chair of Ecology and Biogeography, Nicolaus Copernicus University in Torun, Lwowska 1, 87-100 Torun, Poland
autor
  • Herbarium TRN, Chair of Geobotany and Landscape Planning, Nicolaus Copernicus University in Torun, Lwowska 1, 87-100 Torun, Poland
  • Chair of Ecology and Biogeography, Nicolaus Copernicus University in Torun, Lwowska 1, 87-100 Torun, Poland
Bibliografia
  • 1.Bräutigam S, Greuter W. A new treatment of Pilosella for the Euro-Mediterranean flora. Willdenowia. 2007;37(1):123-137. http://dx.doi. org/10.3372/wi.37.37106
  • 2.Fehrer JA, Krahulcova F, Krahulec J, Chrtek J, Rosenbaumová R, Bräutigam S. Evolutionary aspects in Hieracium subgenus Pilosella. In: Hörandl E, Grossniklaus U, van Dijk PJ, Sharbel TS, editors. Apomixis: evolution, mechanisms and perspectives. Ruggell: ARG Gantner Verlag KG; 2007. p. 359-390. (Regnum Vegetabile; vol 147).
  • 3.Křišťálová V, Chrtek J, Krahulcova A, Bräutigam S, Krahulec F. Populations of species of Pilosella in ruderal habitats in the city of Prague: frequency, chromosome numbers and mode of reproduction. Preslia. 2010;82(4):437-464.
  • 4.Tikka PM, Högmander H, Koski PS. Road and railway verges serve as dispersal corridors for grassland plants. Landsc Ecol. 2001;16(7):659-666. http://dx.doi.org/10.1023/A:1013120529382
  • 5.Jehlík V, Dostálek J. Influence of railway transport in the south-east of Slovakia on formation of adventive flora in Central Europe. Biodivers Res Conserv. 2008;11-12:27-32.
  • 6.Májeková J, Letz DR, Slezák M, Zaliberová M, Hrivnák R. Rare and threatened vascular plants of the railways in Slovakia. Biodivers Res Conserv. 2014;35:75-85. http://dx.doi.org/10.2478/biorc-2014-0024
  • 7.Markowski R, Buliński M. Endangered and threatened vascular plants of Gdańskie Pomerania. Gdańsk: Katedra Taksonomii Roślin i Ochrony Przyrody Uniwersytetu Gdańskiego; 2004. (Acta Botanica Cassubica, Monographiae; vol 1).
  • 8.Jackowiak B, Celka Z, Chmiel J, Latowski K, Żukowski W. Red list database for genera Pilosella and Hieracium in GenBank. There were only 14 sequences of trnH-psbA and no identical matches to haplotypes of P. bauhinii and P. cymosa subsp. vaillantii. Moreover, a detailed examination of GenBank resources revealed that the sequences were in some cases misidentified (e.g., H. murorum FR865084 likely confused with Picris L.) or were of low quality (e.g., P. officinarum HE966661 sequence shows multiple 1 bp insertions at the end). Ironically, both examples come from barcoding studies [20,21] which provides yet another example pointing to the need for careful taxonomic assessment and documentation in barcoding projects. In summary, future research in Hieracium/Pilosella barcoding should focus on generating a robust reference database to provide complementary information for morphological identification.of vascular flora of Wielkopolska (Poland). Biodivers Res Conserv. 2007;5-8:95-127.
  • 9. Rutkowski L. Rośliny naczyniowe - Tracheophyta. In: Rutkowski L, editor. Czerwona lista roślin i zwierząt ginących i zagrożonych w regionie kujawsko-pomorskim. Toruń: Uniwersytet Mikołaja Kopernika; 1997. p. 5-20. [Acta Universitatis Nicolai Copernici, Biologia; vol 53(98)].
  • 10.Zarzycki K, Szeląg Z. Red list of the vascular plants in Poland. In: Mirek Z, Zarzycki K, Wojewoda W, Szeląg Z, editors. Red list of plants and fungi in Poland. Kraków: W. Szafer Institute of Botany, Polish Academy of Sciences; 2006. p. 11-20.
  • 11.Fazekas AJ, Kuzmina ML, Newmaster SG, Hollingsworth PM. DNA barcoding methods for land plants. In: Kress WJ, Erickson DL, editors. DNA barcodes: methods and protocols. New York, NY: Humana Press / Springer; 2012. p. 223-252. (Methods in Molecular Biology; vol 858). http://dx.doi.org/10.1007/978-1-61779-591-6_11
  • 12.Fazekas AJ, Steeves R, Newmaster SG. Improving sequencing quality from PCR products containing long mononucleotide repeats. Biotech-niques. 2010;48(2):277-285. http://dx.doi.org/10.2144/000113369
  • 13.Ellenberg H, Weber HE, Düll R, Wirth V, Werner W, Paulißen D. Zeigerwerte von Pflanzen in Mitteleuropa. Göttingen: Goltze; 1992. (Scripta Geobotanica; vol 18).
  • 14.Abromeit J, Jentzsch A, Neuhoff W, Steffen H, Vogel G. Flora von Ost- und Westpreussen herausgegeben vom Preussischen Botanischen Verein zu Königsberg (Pr). Königsberg: Kommissionsverlag Gräfe und Unzer; 1898-1940.
  • 15.Rutkowski L. Ciepłolubne zbiorowiska okrajkowe kl. Trifolio-Ge-ranietea sanguinei okolic Kwidzyna. Acta Univ Nicolai Copernici. 1988;34(71):25-51.
  • 16.Matuszkiewicz W. Przewodnik do oznaczania zbiorowisk roślinnych Polski. Warszawa: Wydawnictwo Naukowe PWN; 2011.
  • 17.Zając A, Zając M, editors. Distribution atlas of vascular plants in Poland. Kraków: Laboratory of Computer Chorology, Institute of Botany, Jagiellonian University; 2011.
  • 18.Jasiewicz A. Hieracium L. Jastrzębiec. Warszawa: PWN; 1980. (Flora Polska. Rośliny Naczyniowe Polski i Ziem Ościennych; vol 14).
  • 19.Kępczyński K, Rutkowski L. Rośliny naczyniowe okolic Kwidzyna. Acta Univ Nicolai Copernici Nauk Mat-Przyr, Biol. 1982;24(53):37-52.
  • 20.Bruni I, de Mattia F, Martellos S, Galimberti A, Savadori P, Casiraghi M, et al. DNA barcoding as an effective tool in improving a digital plant identification system: a case study for the area of Mt. Valerio, Trieste (NE Italy). PLoS One. 2012;7(9):e43256. http://dx.doi.org/10.1371/ journal.pone.0043256
  • 21.de Mattia F, Gentili R, Bruni I, Galimberti A, Sgorbati S, Casiraghi M, et al. A multi-marker DNA barcoding approach to save time and resources in vegetation surveys. Bot J Linn Soc. 2012;169(3):518-529. http://dx.doi.org/10.1111/j.1095-8339.2012.01251.x
Typ dokumentu
Bibliografia
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