PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Phenotypic and Genotypic Variation of Declining Segetal Flora : The Case of Stachys annua (Lamiaceae) Populations Established in North-Eastern Poland

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Stachys annua is a short-lived archaeophyte. In Poland it has been classified as threatened with extinction (VU). It prefers carbonate soils and occurs as a weed in cropped and stubble fields in traditionally farmed areas. Study of the occurrence of Stachys annua in North-Eastern Poland was conducted in 2009-2012 at four sites where the species occupied a minimum area of 30 m2 and occurred at each stage of a 4-year crop rotation (spring cereals, winter cereals, tuber crops and stubble fields). The floristically richest communities (25-34 species) were established in unploughed stubble fields, regardless of the habitat conditions. Phytocenoses with S. annua included rare species as demonstrated by high values of floristic value index (FV ranges from 25 to 36). Principle Component Analysis and Spearman rank correlations between plant traits and habitat conditions pointed to soil pH as the factor which determined S. annua phenotypic variation, in particular its height and seed production. The greatest phenotypic variation was found on the alkaline habitat, rich in nitrogen. On the other hand, the cluster analysis showed that the studied populations of inert nitrogen-poor habitats were the most similar. Electrophoretic analysis of storage proteins from S. annua seeds revealed a relatively high genetic similarity of studied populations which was reflected in the similarity coefficients — 0.76 and 0.61 by Dice and Jaccard, respectively. In the case of small or fragmented populations this poses a threat associated with inbreeding and genetic drift of S. annua, which indicates that populations of this species in the study area need to be protected from extinction.
Rocznik
Strony
23--35
Opis fizyczny
Bibliogr. 63 poz., fot., tab., wykr.
Twórcy
autor
  • Department of Agricultural Ecology, University of Natural Sciences and Humanities, B. Prusa 14, 08-110 Siedlce, Poland
autor
  • Polytechnic Institute, Higher Vocational School the name of prof. Edward F. Szczepanik in Suwalki, T. Noniewicza 10, 16-400 Suwalki, Poland
autor
  • Department of Experimental Design and Bioinformatics, Warsaw University of Life Sciences, Nowoursynowska 159, 02-776 Warsaw, Poland
Bibliografia
  • [1] Alpert P., Simmes E. L. 2002 — The relative advantages of plasticity and fixity in different environments: when is it good for a plant to adjust? — Evol. Ecol. 16: 285-297.
  • [2] Anyszka Z., Kohut M. 2011 — [Biodiversity of Segetal weed communities in cultivations of segetal vegetable crops] — Prog. Plant Prot. 51: 1219-1224 (in Polish).
  • [3]Ball P. W. 1972 — Stachys L. (In: Flora Europaea. 3. Diapensiaceae to Myoporaceae, Eds: T. G. Tutin, V. H. Heywood, N. A. Burges, D. H. Valentine, S. M. Walters, D. A. Webb) — Cambridge University Press, London, pp. 151-157.
  • [4] Baythavong B. S. 2011 — Linking the spatial scale of environmental variation and the evolution of phenotypic plasticity: selection favors adaptive plasticity in fine-grained environments — Am. Nat. 178: 75-87.
  • [5] Bomanowska A. 2010 — Threat to arable weeds in Poland in the light of national and regional red lists — Plant Breed. Seed Sci. 61: 55-74.
  • [6] Chamorro L., Armengot L., José-María L., Sans F. X. 2014 — Organic farming enhances the recovery of ancient crops and segetal weeds in Catalonia (NE of Spain) (In: Proceedings of the 4th ISOFAR Scientific Conference Building Organic Bridges' at the Organic World Congress 2014, Eds: G. Rahmann, U. Aksoy) — 13-15 Oct, Istanbul, Turkey, pp. 979-982.
  • [7] Chassel D. 1977 — La description nom paramètrique de la dispersion spatiale des indywiduals d'une espece — Journèe francaise de biometrie, 68.
  • [8] Cimalová S., Lososová Z. 2009 — Arable weed vegetation of the north-eastern part of the Czech Republic: effects of environmental factors on species composition — Plant. Ecol. 203: 45-57.
  • [9] Dajdok Z., Śliwiński M. 2011 — Stachys annua (Lamiaceae) a species not confirmed in the flora of Lower Silesia — Acta Bot. Siles. Suppl. 1: 204-206.
  • [10] Danowski J., Danowska M., Wityńska S. 2003 — [Environmental protection program of the Suwałki poviat for years 2004-2012] pp. 3-23 (in Polish).
  • [11] Digrak M., Hakki Alma M., Ilçim A. 2001 — Antibacterial and antifungal activities of Turkish medicinal plants — Pharm. Biol. 39: 346-350.
  • [12] Drapikowska M. 2013 — Variability of Anthoxanthum species in Poland in relation to geographical-historical and environmental conditions: isozyme variation — Biodiv. Res. Conserv. 30: 63-93.
  • [13] Duarte J. M., Santos J. B., Melo L. C. 1999 — Comparison of similarity coefficients based on rapid markers in the common bean — Genet. Mol. Biol. 22: 427-432.
  • [14] Eisto A. K., Kuitunen M., Lammi A., Saati V., Suhonen J., Syrjäsuo S., Tikka P.M. 2000 — Persistence and offspring fitness in the rare bellflower Campanula cervicaria in relation to population size and habitat quality — Conserv. Biol. 14: 1413-1421.
  • [15] Ellenberg H., Weber H., Dull R., Wirth V., Werner W., Paulissen D. 1992 — Zeigerverte von Pflanzen in Mitteleuropa — Scripta Geobot. 18: 1-258.
  • [16] Eriksson E., Sott K., Lundqvist F., Sveningsson M., Scrimgeour J., Hanstorp D., Goksör M., Granéli A. 2010 — Lab. Chip. 10: 617-625.
  • [17] Fernandez J., Gonzalez-Martinez S. C. 2009 — Allocating individuals to avoid inbreeding in ex situ conservation plantations: so far, so good — Conserv. Genet. 10: 45-57.
  • [18] Głowacki Z., Falkowski M., Krechowski J., Marciniuk J., Marciniuk P., Nowicka-Falkowska K., Wierzba M. 2003 — The red list of vascular plants of the Poludniowopodlaska Lowland — Chrońmy Przyr. Ojcz. 59: 5-41 (in Polish).
  • [19] Haliniarz M., Kapeliszny J. 2014 — Rare species of calcicole flora in the segetal communities in the Lublin region — Ann. UMCS sect. E 69: 11-23.
  • [20] Jackowiak B. 1998 — Spatial structure of urban flora. A methodological — cognitive study — Publications of the Department of Plant Taxonomy of the Adam Mickiewicz University in Poznań, 8: 7-228 (in Polish).
  • [21] Jin Z. X., Li J. M. 2007 — ISSR analysis on genetic diversity of endangered relic shrub Sinocalycanthus chinensis — J. Appl. Ecol. 18: 247-253.
  • [22] Journal of Laws 2012 item 1246 - Regulation of the Council of Ministers of September 12, 2012 on the soil classification of land: 1-269.
  • [23] Kolehmainen J., Korpelainen H., Mutikainen P. 2010 — Inbreeding and inbreeding depression in a threatened endemic plant, the African violet (Saintpaulia ionantha ssp. grotei), of the East Usambara Mountains, Tanzania — Afr. J. of Ecol. 48: 576587.
  • [24] Kondracki J. 2002 — [The regional geography of Poland] — PWN, Warszawa, 441 pp. (in Polish).
  • [25] Korniak T. 1998 — Endangered and threatened species of the segetal flora in North-Eastern Poland — Acta Univ. Lodz., Folia bot. 13: 43-50 (in Polish).
  • [26] Kropáč Z. 2006 — Segetal vegetation in the Czech Republic: synthesis and syntaxonomical revision — Preslia, 78: 123-209.
  • [27] Kubicka-Matusiewicz H., Gozdowski D., Skrajna T. 2015 — Multivariate evaluation of variability of Bromus secalinus genotypes from north-eastern Poland — Appl. Ecol. Env. Res. 13: 809-818.
  • [28] Kubicka-Matusiewicz H., Wisniewski M. 2014 — [Comparison of variability of storage proteins in the seeds of chosen local forms and inbred lines of rye] — X International Symposium “Quantitative genetics of arable crops”, 43 p. (in Polish).
  • [29] Lemke I. H., Kolb A., Graae B. J., De Frenne P., Acharya K. P., Blandino C., Brunet J., Chabreeie O., Cousins S. A. O., Decocq G., Heinken T., Hermy M., Liira J., Schmucki R., Shevtsova S., Verheyen K., Diekmann M. 2015 — Patterns of phenotypic trait variation in two forest herbs along a broad climatic gradient — Plant Ecol. 216: 1523-1536.
  • [30] Lososová Z., Simonová D. 2008 — Changes during the 20th century in species composition of synanthropic vegetation in Moravia (Czech Republic) — Preslia, 80: 291-305.
  • [31] Marshall E., Brown V., Boatman N., Lutman P., Squire G., Ward L. 2003 — The role of weeds in supporting biological diversity within crop fields — Weed. Res. 43: 77-89.
  • [32] Matuszkiewicz W. 2001 — [Guidebook to plant communities of Poland] — PWN, Warszawa, 537 pp. (in Polish).
  • [33] Májeková J., Zaliberová M., Šibík J., Klimková K. 2010 — Changes in segetal vegetation in the Borská nížina Lowland (Slovakia) over 50 years — Biologia, 65: 465-478.
  • [34] Meyer S., K. Wesche, Leuschner C., van Elsen T., Metzner J. 2010 — A new conservation strategy for arable plant vegetation in Germany — the project ‘100 fields for biodiversity — Plant Breed. Seed Sci. 61: 25-34.
  • [35] Meyer, S., Kühne, P., Hensen, I., Wesche, K. 2012 — Spatial genetic structure and low diversity of the rare arable plant Bupleurumrotundifolium L. in Central Europe — Agr. Ecosyst. Environ. 161: 70-77.
  • [36] Mzid R., Chibani F., Ben Ayed R., Hanana M., Breidi J., Kabalan R., El-Hajj S., Machlab H., Rebai A. and Chalak L. 2016 — Genetic diversity in barley landraces (Hordeum vulgare L. subsp. vulgare) originated from Crescent Fertile region as detected by seed storage proteins — J. Genet. 95: 733-739.
  • [37] Nunney L. 2002 — The effective size of annual plant populations: the interaction of a seed bank with fluctuating population size in maintaining genetic variation - Am Nat. 160: 195-204.
  • [38] Orłowski G. 2006 — Croplands use by birds wintering in arable landscape in southwestern Poland — Agr. Ecosyst. Environ. 116: 273-279.
  • [39] Pal R. W., Pinke G., Botta-Dukát Z., Campetella G., Bartha S., Kalocsai R., Lengyel A. 2013 — Can management intensity be more important than environmental factors? A case study along an extreme elevation gradient from Central Italian cereal fields — Plant Biosyst. 147: 343-353.
  • [40] Petanidou T., Lamborn E. 2005 — A land of flowers and bees: studying pollination ecology in Mediterranean communities — Plant Biosyst. 139: 279-294.
  • [41] Peters K., Gerowitt B. 2014 — Response of the two rare arable weed species Lithospermumarvense and Spandix pecten-veneris to climate change conditions — Plant Ecol. 215: 1013-1023.
  • [42] Pinke G., Pal R., Kiraly G., Mesterházy A. 2008 — Conservational importance of the arable weed vegetation on extensively managed fields in western Hungary — J. Plant Dis. Protect. Special Issue, 21: 447-452.
  • [43] Pinke G., Pal R. 2009 — Floristic composition and conservation value of the stubblefield weed community, dominated by Stachys annua in western Hungary — Biologia, 64: 279-291.
  • [44] Pułaska A., Bomanowska A. 2009 — Antropogenic transformations of the segetal flora in Spała Landscape Park (In: The role of geobotany in biodiversity conservation, Eds: J. Holeksa, B. Babczyńska-Sendek, S. Wika) — University of Silesia, Katowice, pp. 227-232.
  • [45] Rewicz A., Bomanowska A., Magda J., Rewicz T. 2016 — Morphological variability of Consolida regalis seeds of south-eastern and central Europe — Syst. Biodivers. 15: 1-10.
  • [46] Rzymowska Z. 2014 — [Recent changes in the flora and segetal communities of the Podlasie Bugu Gorge] — UPH Siedlce, Doctoral thesis, 124: 18-58 (in Polish).
  • [47] Sattin M., Zanin G., Berti A. 1992 — Casery for weed competition/population ecology: velvetleaf Abutilon theophrasti in corn Zea mays — Weed Technol. 6: 213-219.
  • [48] Skrajna T., Gozdowski D., Ługowska M. 2014 — The transformations of field communities with Illecebrum verticillatum L. (Cariophyllaceae) on the borders lands of its European range (central-eastern Poland) — Pol. J. Ecol. 60: 577-589.
  • [49] Skrajna T., Kubicka H. 2011 — Segetal flora of the Wigry National Park — Acta Agrobot. 64: 119-132.
  • [50] Skrajna T., Kubicka H., Rzymowska Z. 2012a — Phenotypic variation in relation to seed storage proteins polymorphism in Bromussecalinus L. populations from the North-Eastern Poland — Pol. J. Ecol. 59: 57-71.
  • [51] Skrajna T., Kubicka H., Rzymowska Z. 2012b — Illecebrum verticillatum L. — endangered species in agrocenoses of eastern Poland: assessment of ecological and genetic indicators for protection goals — Pol. J. Ecol. 60: 577-589.
  • [52] Skrajna T., Skrzyczyńska J., Rzymowska Z. 2007 — Occurrence of Bromus secalinus L. in agrocenoses of the Kałuszyńska Upland — Zesz. Nauk. AP Roln. 66/67: 65-73 (in Polish).
  • [53] StaSoft, INC. 2010 — STATISTICA data analysis software system, version 10.
  • [54] Storkey J, Meyer S, Still KS., Leuschner C. 2012 — The impact of agricultural intensification and land-use change on the European arable flora — Proc. R. Soc. B. 279: 1421-1429.
  • [55] Torma M., Kazinczi G., Hódi L. 2006 — Postemergence herbicide treatments in maize against difficult to control weeds in Hungary — J. Plant Dis. Protect. 20: 781-786.
  • [56] Valladares F., Gianoli R., Gómez J. M. 2007 — Ecological limits to plant phenotypic plasticity — New Phytologist, 176: 749-763.
  • [57] Warcholińska A. U. 1994 — List of threatened segetal plant species in Poland (In: Antropization and environment of rural settlements. Flora and vegetation, Eds: S. Mochnacky, A. Terpo) — Proc. of International Conference, Satoraljaujhely, pp. 206-219.
  • [58] Weber E., Gut D. 2005 — A survey of weeds that are increasingly spreading in Europe — Agron. Sustain. Dev. 25: 109-121.
  • [59] Wilson J., Morris A., Arroyo B., Clark S., Bradbury R. 1999 — A review of the abundance and diversity of invertebrate and plant foods of granivorous birds in northern Europe in relation to agricultural change — Agr. Ecosyst. Environ. 75: 13-30.
  • [60] Wolska-Sobczak A. A. 2009 — The comprehensive assessment of changes in rye (Secale cereal L.) — PhD thesis, Warsaw University of Life Sciences, Warsaw, pp. 52-55 (in Polish).
  • [61] Zając A., Zając M. 2001 — Distribution Atlas of Vascular Plants in Poland — Laboratory of Computer Chorology, Institute of Botany, Jagellonian University, Cracov, 714 pp.
  • [62] Zając M., Zając A., Tokarska-Guzik B. 2009 — Extinct and endangered archaeophytes and the dynamics of their diversity in Poland — Biodiv. Res. Conserv. 13: 1724.
  • [63] Zalai M., Dorner Z., Keresztes Z. 2014 — Seasonal weed structure of maize in the light of farming systems — Appl. Ecol. Env. Res. 12: 765-776.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-93b6930c-4d36-4ef8-935d-62154460e82f
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.