KnE Life Sciences
ISSN: 2413-0877
The latest conference proceedings on life sciences, medicine and pharmacology.
The Living Ground Cover of Mountain Tundra in the Northern and Southern Urals During an Invasion of Juniperus sibirica
Published date: Oct 29 2018
Journal Title: KnE Life Sciences
Issue title: The Fourth International Scientific Conference Ecology and Geography of Plants and Plant Communities
Pages: 211–218
Authors:
Abstract:
In this work, the authors estimate the species abundance and the characteristics of ground cover (herb-dwarf-shrub and moss-lichen layers) structure in mountain tundra communities. They study mountain tundra communities that have significant differences in the degree of Juniperus sibirica Burgsd cover. Species richness and the abundance of plants were estimated on 40 plots (10x10 m) in mountain tundra communities of the Northern (the Kvarkush ridge) and Southern (the Zigalga and Nurgush ridges) Urals. Study plots were chosen with different degree of J. sibirica coverage, from lack of cover to dominance: the groups were 0%, 30–40% and
80–95%. J. sibirica invasion of mountain tundra communities in the Northern and Southern Urals has led to a decrease in the abundance of herbs and mosses on plots dominated by J. sibirica. The authors could not reveal other changes in the mountain tundra structure caused by the J. sibirica invasion. The α-biodiversity of plants and lichens and the ratio of functional and ecological plant groups do not depend on the degree of J. sibirica cover.
Keywords: shrubs, tundra communities, herb-dwarf-shrub layer, lichens, forest upper limit
References:
[1] Harsch, M. A., Hulme, P. E., McGlone, M. S., et al. (2009). Are treelines advancing? A global meta-analysis of treeline response to climate warming. Ecology Letters, vol. 12, pp. 1040–1049.
[2] Moiseev, P. A., Shiyatov, S. G., and Grigoriev, A. A. (2016). Climatogenic Dynamics of Woody Vegetation at the Upper Limit of Its Distribution on the Big Taganay Ridge during the Last Century. Ekaterinburg: UB RAS.
[3] Gorchakovskij, P. L. (1975). Vegetative World of the Ural High Mountains. Moscow: Nauka.
[4] Hallinger, M., Manttey, M., and Wilmking, M. (2010). Establishing a missing link: Warm summer and winter snow cover promote shrub expansion into alpine tundra in Scandinavia. New Phytology, vol. 186, no. 4, pp. 890–899.
[5] Myers-Smith, I. H., Forbes, B. C., Wilmking, M., et al. (2011). Shrub expansion in tundra ecosystems: Dynamics, impacts and research priorities. Environmental Research Letters, vol. 6, pp. 1–15.
[6] Walker, M. D., Wahren, C. H., Hollister, R. D., et al. (2006). Plant community responses to experimental warming across the tundra biome. PNAS, vol. 103, no. 5, pp. 1342– 1346.
[7] Pajunen, A. M., Oksanen, J., and Virtanen, R. (2011). Impact of shrub canopies on understorey vegetation in Western Eurasian Tundra. Journal of Vegetation Science, vol. 22, no. 5, pp. 837–846.
[8] Elmendorf, S. C., Henry, G. H. R., Hollister, R. D. et al. (2012). Plot-scale evidence of tundra vegetation change and links to recent summer warming. Nature Climate Change, vol. 2, pp. 453–457.
[9] Tsuyuzaki, S., Matsuda, M., and Akasaka, M. (2012). Effect of a deciduous shrub on microclimate along an elevation gradient, Mount Koma, Northern Japan. Climate Research, vol. 51, no. 1, pp. 1–10.
[10] Magomedova, M. A. (2006). Restoration of lichen cover on fireplaces in pretundra forests of West Siberia. Scientific Bulletin, Biota of Yamal and Problems of Regional Ecology, vol. 1 no. 38, pp. 27–38.
[11] Tape, K. D., Sturm, M., and Racine, C. (2006). The evidence for shrub expansion in Northern Alaska and the Pan-Arctic. Global Change Biology, vol. 12, no. 4, pp. 686– 702.
[12] Kapfer, J., Virtanen, R., and Grytnes, J. A. (2012). Changes in Arctic vegetation on Jan Mayen Island over 19 and 80 Years. Journal of Vegetation Science, vol. 23, no. 4, pp. 771–781.