Abstract
Tephroseris longifolia subsp. moravica is an endemic endangered taxon of European importance. Within the nine recently known populations it occurs in very specific site conditions of ecotone habitats. In our contribution, we try to quantify its realized niche with regard to the measured components of its biotic and abiotic environment. The main aim was to assess the importance of spatial environmental variation on taxon occurrence and performance and to relate the obtained ecological information to data on taxon abundance and demography. Possible reasons of taxon rarity are discussed, too. Comparison of plot pairs indicated that plots containing the taxon had deeper soil and higher soil Na and Mg contents than plots without it. They also contained higher number of species, especially forbs. Several soil parameters were positively correlated with taxon size and density while light parameters played minor role. Negative correlations between cover of vascular plants, especially grasses and taxon size and density suggest its reduced competitive ability. Vascular plant-based ecological indicator values were set for light (6), temperature (5), continentality (4), moisture (5), soil reaction (7) and nutrients (5). The studied sites differed in topography, soil characteristics (pH, soil Na, K, Ca, P and NH4) and cover of herb litter. Size of taxon populations was negatively related to their finite rate of increase which varied between 1.25 and 2.04 and was most sensitive to demographic parameters related to growth. We conclude, that the studied taxon is not strictly stenotopic as the ranges of several environmental variables were rather wide. We suppose, that the narrow limits of recent taxon occurrence are consequences of its low competitive ability and demographic processes related to germination and seedling establishment. The differing requirements of its ontogenetic stages (seedlings and generative individuals) may define the final limits of its small-scale distribution.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- TLM:
-
Tephroseris longifolia subsp. moravica
- EIV:
-
Ellenberg indicator values
References
Bray R.H. & Kurtz L.T. 1945. Determination of total, organic, and available forms of phosphorus in soils. Soil Sci. 59: 39–45.
Caswell H. 2001. Matrix population models: Construction, analysis and interpretation, Sinauer Associates, Sunderland, Massachusetts.
Chmelová M. 2007. Současní endemického Tephroseris longifolia subsp. moravica v Bílych Karpatech. Thesis, Charles University, Prague.
Diekmann M. 1995. Use and improvement of Ellenberg’s indicator values in deciduous forests of the Boreo-nemoral zone in Sweden. Ecography 18: 178–189.
Ellenberg H., Weber H.E., Düll R., Wirth V., Werner W. & Paulissen D. 1991. Zeigerwerte von Pflanzen in Mitteleuropa. Scr. Geobot. 18: 1–248.
Ewald J. 2009. Epigeic bryophytes do not improve bioindication by Ellenberg values in mountain forests. Basic Appl. Ecol. 10: 420–426.
Frazer G.W., Canham C.D. & Lertzman K.P. 1999. Gap Light Analyzer (GLA): Imaging software to extract canopy structure and gap light transmission indices from true-colour fisheye photographs. Users manual and program documentation. Simon Fraser University, Burnaby, and the Institute of Ecosystem Studies, Millbrook.
Gbelcová A. 2010. Tephroseris longifolia subsp. moravica v České republice — populačná studie. Thesis, University of Palacky, Olomouc.
Gibson D.J. 2002. Methods in comparative plant population ecology. Oxford University Press, New York.
Griffith C. 1996. Distribution of Viola blanda in relation to within-habitat variation in canopy openness, soil phosphorus, and magnesium. Bulletin of the Torrey Botanical Club 123: 281–285.
Hegedüšová K., Škodová M. & Kochjarová J. Phytosociological affiliation of Annex II species Tephoseris longifolia subsp. moravica in comparison with two related species T. intergrifolia and T. crispa. Biologia, submitted.
Holub J. 1999. Tephroseris longifolia (Jacq.) Griseb. et Schenk subsp. moravica Holub, p. 371. In: Čeřovskáková V., Holub J., Maglocký J., Feráková V., Holub J., Maglocký Š. & Procházka F. (eds), Červen ohrozenych a vzácnych druhov rastlín a živočíhov SR a ČR, Vyššie rastliny, Príroda, Bratislava.
Hood G.M. 2005. PopTools version 2.6.9. URL http://www.cse.csiro.au/poptools.
Janišová M., Škodová I., Smatanová J., Jongepierová I. & Kochjarová J. 2005. Tephroseris longifolia subsp. moravica — population size evaluation and possibilities of its conservation, pp. 29–38. In: Franc V. (ed.), Stržovsk vrchy Mts — research and conservation of the nature. Proceedings from the conference, Belušské Slatiny, October 2004, Zvolen, Slovakia.
Janišová M., Škodová I. & Hegedüšová K: Reproductive biology of Tephroseris longifolia subsp. moravica, an endemic taxon of European importance. Seed Science Research, submitted.
Kochjarová J. 1998. Poznámky k rozšíreniu, cenológii a ohrozenosti populácií zástupcov rodu Tephroseris (Rchb.) Rchb. na Slovensku II.: Tephroseris longifolia subsp. moravica v Západnych Karpatoch. Bull. Slov. Bot. Spoločn. 20: 69–79.
Kochjarová J. & Hrouda L. 2004. Tephroseris (Reichenb.) Reichenb., pp. 300–306. In: Slavík B. & Štěpánková J. (eds), Květena České republiky. Svazek 7, Akademia, Praha.
Marhold K. & Hindák F. 1998. Zoznam nižších a vyšších rastlín Slovenska. Veda, Bratislava.
Myklestad A. 2004. Soil, site and managements components of variation in species composition of agricultural grasslands in western Norway. Grass and Forage Science 59: 136–143.
Parker K.C. 1988. Environmental relationships and vegetation associations of columnar cacti in the northern Sonora desert. Vegetatio 78: 125–140.
Stenberg P., Linder S., Smolander H. & Flower-Ellis J. 1994. Performance of the LAI-2000 plant canopy analyzer in estimating leaf area index of some Scots pine stands. Tree Physiology 14: 981–995.
Tichý L. 2002. JUICE, software for vegetation classification. J. Veg. Sci. 13: 451–453.
Tyurin I.V. 1951. Contribution to the analytical methods for comparative studies of soil humus. Trudy Pochvennogo Instituta im. Dokuchaeva 38: 5–21.
Welles J.M. and Norman J.M. 1991. Instrument for indirect measurement of canopy architecture. Agron. J. 83: 818–825.
Zar J.H. 1999. Biostatistical analysis. Prentice Hall, New Jersey.
Author information
Authors and Affiliations
Corresponding author
Electronic supplementary material
Rights and permissions
About this article
Cite this article
Janišová, M., Hegedüšová, K., Kráľ, P. et al. Ecology and distribution of Tephroseris longifolia subsp. moravica in relation to environmental variation at a micro-scale. Biologia 67, 97–109 (2012). https://doi.org/10.2478/s11756-011-0142-y
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.2478/s11756-011-0142-y