PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Variability of Morphological Traits of the Rare Plant Species Angelica palustris (Apiaceae) in Managed and Abandoned Meadows : Effect of Mowing

Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The effect of meadow management type on selected population traits of the rare plant Angelica palustris was examined. The study was carried out in a regularly mown meadow (Plot I), an abandoned meadow with medium high plants (Plot II) and an abandoned meadow with high plants (Plot III) situated in southern Poland (Proszowice Plateau). Observations conducted in the years 2010 and 2011 showed greater abundance of A. palustris in Plot I than in Plots II and III. This pointed to the significance of disturbance caused by mowing, which creates gaps in the plant cover and litter layer that become safe sites for A. palustris seedling recruitment and their subsequent growth. In the abandoned meadows a diminishing share of vegetative individuals and a reduction in the number of flowering stems in generative individuals were found. The height of generative stems in the abandoned meadows was higher than in the mown one as a response to the height of neighbouring plants. The number of umbels per stem and number of umbellets per umbel were positively correlated with the height of the stem. In light of our investigations, it can be stated that regular mowing has a beneficial effect on the state of populations of A. palustris. On the other hand, the formation of highly productive generative stems with substantial numbers of inflorescences and infructescences in abandoned meadows may promote successful seed dispersal and an escape from an unfavourable site.
Rocznik
Strony
36--47
Opis fizyczny
Bibliogr. 53 poz., tab., wykr.
Twórcy
  • Department of Plant Ecology, Institute of Botany, Jagiellonian University, Gronostajowa 3, 30–387 Kraków, Poland
  • Department of Plant Ecology, Institute of Botany, Jagiellonian University, Gronostajowa 3, 30–387 Kraków, Poland
autor
  • Department of Plant Ecology, Institute of Botany, Jagiellonian University, Kopernika 27, 31–512 Kraków, Poland
Bibliografia
  • [1] Adeli N., Alizadeh M. A., Jafari A. 2013 — Evaluation of essential oil yield, morphological and phenological traits in some populations of two chamomile species (Matricaria recutita and M. aurea) — Journal of Medicinal Plants and By-products, 2: 153-158.
  • [2] Alizadeh M. A., Jafari A. A., Sayedian S. E. 2017 — Evaluation of aerial biomass yield and essential oil content of seven species of Tanacetum — J. Hortic. Res. 25: 19-25.
  • [3] Bróż E., Podgórska M. 2006 — [Ostericumpalustre Besser on the Małopolska Upland] — Chrońmy Przyr. Ojcz. 62: 3-12 (in Polish, English summary).
  • [4] Ciosek M. T., Krechowski J., Piórek K., Szczygielski M. 2012 — [Distribution of Ostericumpalustre Besser in the central-eastern Poland.] — Acta Bot. Siles. 8: 137-146 (in Polish, English summary).
  • [5] Czarna A. 1999 — [New species of vascular flora of the planned partial reserve Łąki Pyzdrskie in the Nadwarciański Landscape Park] — Biul. Park. Krajobraz. Wielkopolski, 5: 139-148 (in Polish).
  • [6] Czarna A., Załuski T., Krasicka-Korczyńska E., Nobis M. 2014 — Ostericum palustre Besser (In: [Polish Red Data Book of Plants. Pteridophytes and flowering plants] Ed: R. Kaźmierczakowa, K. Zarzycki, Z. Mirek) — Instytut Ochrony Przyrody, Kraków, pp. 365-368 (in Polish, English summary).
  • [7] Dalgleish H. J., Koons D. N., Adler P. B. 2010 — Can life-history traits predict the response of forb populations to changes in climate variability? — J. Ecol. 98: 209-217.
  • [8] Dittbrenner A., Hensen I., Wesche K. 2005a — Genetic structure and random amplified polymorphic DNA diversity of the rapidly declining Angelica palustris (Apiaceae) in Eastern Germany in relation to population size and seed production — Plant Species Biol. 20: 191-200.
  • [9] Dittbrenner A. Partzsch M., Hensen I. 2005b — Contributions to the population biology and association of Angelica palustris (Besser) Hoffm. — Hercynia N.F. 38: 59-87.
  • [10] Dujardin G., Bureau F., Decaëns T., Langlois E. 2011 — Morphological and reproductive responses of dominant plant species to local conditions in herbaceous successional stages of a calcareous hillside — Flora, 206: 1030-1039.
  • [11] Gamier E., Lavorel S., Ansquer P., Castro H., Cruz P., Dolezal J., Eriksson O., Fortunel C., Freitas H., Golodets C., Grigulis K., Jouany C., Kazakou E., Kigel J., Kleyer M., Lehsten V., Lepš J., Meier T., Pakeman R., Papadimitriou M., Papanastasis V. P., Quested H., Quétier F., Robson M., Roumet C., Rusch G., Skarpe Ch., Sternberg M., Theau J-P., Thébault A., Vile D., Zarovali M. P. 2007 — Assessing the effects of land-use change on plant traits, communities and ecosystem functioning in grasslands: A standardized methodology and lessons from an application to 11 European sites — Ann. Bot. 99: 967-985.
  • [12] Gray S. B., Brady S. M. 2016 — Plant developmental responses to climate change — Dev. Biol. 419: 64-77.
  • [13] Grubb P. J. 1977 — The maintenance of species-richness in plant communities: the importance of the regeneration niche — Biol. Rev. 52: 107-45.
  • [14] Harper J. L., Williams J. T., Sagar G. R. 1965 — The behaviour of seeds in soil: I. The heterogeneity of soil surfaces and its role in determining the establishment of plants from seed — J. Ecol. 53: 273-86.
  • [15] Hendrix S. D., Sun I-F. 1989 — Inter- and intraspecific variation in seed mass in seven species of umbellifer — New Phytol. 112: 445-451.
  • [16] Janečková P., Wotavová K., Schödelbauerová I., Jersáková J., Kindlmann P. 2006 — Relative effects of management and environmental conditions on performance and survival of populations of a terrestrial orchid, Dactylorhiza majalis — Biol. Consent 29: 40-49.
  • [17] Jensen K., Meyer C. 2007 — Effects of light competition and litter on the performance of Viola palustris and on species composition and diversity of an abandoned fen meadow — Plant Ecol. 155: 169-181.
  • [18] Koczwara M. 1960 — Ostericum Hoff. (In: [Flora of Poland. The Vascular Plants of Poland and neighboring lands Vol. IX] Eds: W. Szafer , B Pawłowski),— Państwowe Wydawnictwo Naukowe, Kraków, pp. 104-105.
  • [19] Kostrakiewicz K. 2007 — The effect of dominant species on numbers and age structure of Iris sibirica L. population on blue moor-grass meadow in southern Poland — Acta Soc. Bot. Pol. 76: 165-173.
  • [20] Kostrakiewicz K. 2008 — Population structure of a clonal endangered plant species Irissibirica L. in different habitat conditions — Pol. J. Ecol. 56: 581-592.
  • [21] Kostrakiewicz K. 2009 — The influence of shadow created by adjacent plants on phenotypic plasticity of endangered species Trollius europaeus L. (Ranunculaceae) — Pol. J. Ecol. 57: 625-634.
  • [22] Kostrakiewicz-Gieralt K. 2013 — The effect of vegetation character on abundance and structure of subpopulations of rare herb species Gentiana pneumonanthe L. — Pol. J. Ecol. 61: 35-43.
  • [23] Kostrakiewicz-Gierałt K., Kozak M. & Kozłowska-Kozak K. 2015 — The effect of different habitat conditions on temporal and spatial variation in selected population properties of the rare plant species Trollius europaeus L. — Biodiv. Res. Conserv. 39: 67-78.
  • [24] Krasicka-Korczyńska E. 2008 — Effect of the cutting date on blooming and fruit-bearing of Ostericum palustre Beesser — Acta Agrobot. 61: 129-136.
  • [25] Krasicka-Korczyńska E., Stosik T., Korczyński M. 2014 — Habitat and phytocenosis conditions of the occurrence of Ostericumpalustre in the Natura 2000 “Lisi Kąt” site — Steciana, 18: 3-11.
  • [26] Kubíková P., Zeidler M. 2011 — Habitat demands and population characteristics of the rare plant species Gladiolus imbricatus L. in the Frenštát region (NE Moravia, the Czech Republic) — Čas. Slez. Muz. Opava (A), 60: 154-164.
  • [27] Lakshmi M. V, .Suneetha Y., Yugandhar G., Lakshmi N. V. 2014 — Correlation studies in rice (Oryza sativa L.) — Int. J. Gen. Eng. Biotechnol. 5: 121-126.
  • [28] Lendvay B., Kalapos T. 2014 — Population dynamics of the climate-sensitive endangered perennial Ferula sadleriana Ledeb. (Apiaceae) — Plant Spec. Biol. 29: 138-151.
  • [29] Li X., Li Y., Zhang Z., Li X. 2015 — Influences of environmental factors on leaf morphology of Chinese Jujubes — PlosOne, 10(5): e0127825.
  • [30] Lukash O. 2007 — Distribution, cenotic characteristic and protection of habitats of plants of the Bern Convention in East Polesye — Thaiszia J. Bot. 17: 33-58.
  • [31] Mengistu T., Yamoah Ch. 2010 — Effect of sowing date and planting density on seed production of carrot (Daucus carota var. sativa) in Ethiopia — Afr. J. Plant Sci. 4: 270-279.
  • [32] Meusel H., Jager E., Weinert E. 1965 — Vergleichende Chorologie der Zentraleuropaischen Flora — Jena: Veb Gustav Fischer Verlag. Bd. I. pp. 583.
  • [33] Michalska-Hejduk D., Kopeć D. 2010 — Ecological and sociological spectrum of Ostericumpalustre at new localities in central Poland — Biodiv. Res. Conserv. 17: 63-71.
  • [34] Moora, M., Kose, M., Jõgar Ü. 2007 — Optimal management of the rare Gladiolusimbricatus in Estonian coastal meadows indicated by its population structure — Appl. Veg. Sci. 10: 161-168.
  • [35] Nagashima H., Hikosaka K. 2011 — Plants in a crowded stand regulate their height growth so as to maintain similar heights to neighbours even when they have potential advantages in height growth — Ann Bot. 108: 207-214.
  • [36] Pergl J, Hüls J., Perglová I., Eckstein L., Pyšek P., Otte A. 2007 — Population dynamics of Heracleum mantegazzianum (In: Ecology and management of Giant Hogweed Heracleum mantegazzianum, Eds: P. Pyšek, M. J. W. Cock, W. Nentwig and H. P. Ravn) — GABI Publishing, UK, 92-111.
  • [37] Pescador D. S., de Bello F., Valladares F., Escudero A. 2015 —Plant trait Vvriation along an altitudinal gradient in mediterranean high mountain grasslands: controlling the species turnover effect — PlosOne 10(3): e0118876.
  • [38] Pratt J. D., Mooney K. A. 2013 — Clinal adaptation and adaptive plasticity in Artemisiacalifornica: implications for the response of a foundation species to predicted climate change — Glob. Chang. Biol. 19: 2454-2466.
  • [39] Preacher K. J. 2001 — Calculation for the chisquare test: An interactive calculation tool for chi-square tests of goodness of fit and independence (computer software). Available from http://quantpsy.org.
  • [40] Santo A., Mattana E., Grillo O., Sciandrello S., Peccenini S., Bacchetta G. 2017 — Variability on morphological and ecological seed traits of Limonium avei (De Not.) Brullo & Erben (Plumbaginaceae) — Plant Spec. Biol. 32: 368-379.
  • [41] Schrautzer J., Fichtner A., Huckauf A., Rasran L., Jensen K. 2011 — Long-term population dynamics of Dactylorhiza incarnata (L.) Soó after abandonment and re- introduction of mowing — Flora, 206: 622-630.
  • [42] Sengul S., Sengul M. 2006 — Determining relationships between seed yield and yield components in alfalfa — Pakistan Journal of Biological Sciences, 9: 1749-1753.
  • [43] Silvertown J., Tremlett M. 1989 — Interactive effects of disturbance and shade upon colonization of grassland — an experiment with Anthriscus sylvestris (L) Hoffm, Coniummaculatum L., Daucus carota L. and Heracleum sphondylium L. — Funct. Ecol. 3: 229-235.
  • [44] Stachurska-Swakoń A., Kuź K. 2011 — Phenotypic response of Doronicum austriacum Jacq. (Asteraceae) to diverse mountain and lowland conditions — Pol. J. Ecol. 59: 249-262.
  • [45] Statsoft 2017 — STATISTICA 13 software package.
  • [46] Stöcklin J., Kuss P., Pluess A. R. 2009 — Genetic diversity, phenotypic variation and local adaptation in the alpine landscape: case studies with alpine plant species — Botanica Helvetica, 119: 125-133.
  • [47] Tóth V. R., Vári A. 2013 — Impact of habitat environment on Potamogeton perfoliatusL. morphology and its within-plant variability in Lake Balaton — Int. J. Lim. 49: 149-155.
  • [48] Towpasz K., Stachurska-Swakoń A. 2009 — Occurrence of Sesleria uliginosa (Poaceae) in the communities of the Caricetalia davallianae order in the Nida Basin territory (Małopolska Upland) — Fragm. Flor. Geobot. Polonica 16: 305-316.
  • [49] Towpasz K., Stachurska-Swakoń A., Kostrakiewicz K. 2011 — Ostericum palustre (Apiaceae) — a new species in the Proszowice Plateau (S Poland) — Fragm. Flor. Geobot. Polonica 18: 169-171.
  • [50] van der Meer S., Dahlgren J. P., Mildén M., Ehrlén J. 2014 — Differential effects of abandonment on the demography of the grassland perennial Succisa pratensis — Popul. Ecol. 56: 151-160.
  • [51] Vilà-Cabrera A, Martínez-Vilalta J., Retana J. 2015 — Functional trait variation along environmental gradients in temperate and Mediterranean trees — Glob. Ecol. Biogeogr. 24: 1377-1389.
  • [52] Völler E., Auge H., Prati D., Fischer M., Hemp A., Bossdorf O. 2012 — Geographical and land-use effects on seed-mass variation in common grassland plants — Basic Appl. Ecol. 13: 395-404.
  • [53] Zych M., Michalska B., Krasicka-Korczyńska E. 2014 — Myophily in the critically endangered umbelliferous plant Ostericumpalustre Besser (Apiaceae) — Plant Evol. Syst. 300: 187-196.
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-d42e7701-96ed-4a62-912a-f51c55b7c3f1
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.