Pine ecosystem response to warming along North-South climatic transect in Europe : presentation of research project

• Autorzy: Breymeyer A.
• Języki publikacji: EN

Abstrakty

EN

An attempt was made to evaluate the response of the ecosystem to changes of climate in ten pine forest stands. It was assumed that the ecosystem response to environmental change can be evalued by examining differences in ecosystem structures and would be measured through the change in the rates of ecosystem processes. The changes of structures and rates are registered along the longest, N-S transect available on the European Continent above 50 stopni N. This transect in within the belt crossing Northern Scandinavia (Norvay and Finland up to 70 stopni N), the Baltic States (Estonia, Latvia, Lithuania) and Eastern Poland (from 50 stopni N). The transect covers 20 degrees oflatitude and is more than 2000 km long. The difference in average annual temperature (long-term measurements) between the two extreme sites exceeds 9 stopni C, and there is a regular soutward increase of average site temperature. Precipitation does not show any regular pattern of change along the transect. Average site elevation is 86 m a.s.l., and the average forest age 110 years. All sites are dominated by an overstory of Scots pine, and in the Braun-Blanquet classification they all belong to Vaccinio-Piceetea class of forests, which are common in Europe. During four years of study (1997, 1998, 1999 and 2000) four expeditions to the transect were organized. The Following studies were conducted on each site: the origin and structure as well as physical and chemical features of soils; tree stand age, height, basal area, biomass and carbon content; vertical and horizontal structure of ground vegetation, its diversity, biomass and carbon; litter fall, its decomposition and accumulation; and radial growth of trees.

Słowa kluczowe

EN

macroecology; pine forest; transect studies

• Wydawca: Museum and Institute of Zoology, Polish Academy of Sciences
• Czasopismo: Polish Journal of Ecology
• Rocznik: 2003
• Tom: Vol. 51, nr 4
• Strony: 403--411
• Opis fizyczny: Bibliogr. 26 poz., tabl. 2, mapy, wykr.

Twórcy

autor

Breymeyer A.

• Institute of Geography and Spatial Organization PAS, Twarda 51/55, 00-818 Warsaw, Poland

Bibliografia

• [1] Bolin B., Doos Bo R., Jager, J. and Warrick, R. A. 1986 - The Greenhouse Effect, Climatic Change and Ecosystems - SCOPE 29. John Wiley and sons, Chichester, UK.
• [2] Breymeyer A. 1981 - Monitoring of the functioning of ecosystems - Environmental Monitoring and Assessment 1: 175-183.
• [3] Breymeyer A. 1997 - Transect studies of pine forests along parallel 52°N, 12-32°E and along a pollution gradient in Central Europę: generał assumptions, climatic conditions and pollution deposition - Envir. Pollution 98 (3): 347-360
• [4] Breymeyer A., Degórski M.. Reed D., Roo-Zielinska E., Solon J. 1997 - Changes in Forests on the Climatic and Air Pollution Gradients in Poland - In: Ed. Bytnerowicz A. Environmental Pollution 98, 3: 335-368.
• [5] Breymeyer A., Roo-Zielinska, E. (Eds) 1998. Pine forests in Central European gradient of continentality and pollution - geoecological studies. Dok. Geogr. 13, 212 p.
• [6] Breymeyer A., Laskowski R. 1999 - Ecosystem process studies along a climatic transect at 52-53°N (12-32°E): pine litter decomposition - Geographia Polonica 72, 2: 45-6.
• [7] Broccoli A. J., Lau N. C., Nath J. 1998 - Journal of Climatology 11: 27-43.
• [8] Bytnerowicz A., Arbaugh M. J. Schilling S. L. (Eds) 1998. Proceedings of the International Symposium on Air Pollution and Climate Change Effects on Forest Ecosystems, Feb. 5-9 1996, Riverside, CA - Gen.Tech.Report PSW-GTR-166, Albany, CA. Pacific SW Res. Station, Forest Service, US Dept. of Agriculture: 332 p.
• [9] Chapin III F. S., Zavaleta E. S., Eviner T. E., Naylor R., Yitosek P. M., Reynolds H. L., Hooper D. U., Lovorel S., Sala O. E., Hobbie S. E., Mack M. C., Diaz S. 2000 - Conseąuences of changing biodiversity - Nature, vol. 405,234-241.
• [10] Chomicz K. 1977 - Materiały do poznania agroklimatu Polski [Data in Poland’s agroclimate] - PWN, Warsaw.
• [11] Degórski M. 2003 - Morpholithological genesis and soil properties of the pine forest ecosystems in relation to the North-South transect in Europę - Pol. J. Ecol. 51,4: 441-459.
• [12] Dixon R. K., Brown, S., Houghton, R. A., Solomon, A. M., Treexler, M. C., Wiśniewski, J. 1994 - Carbon pools and flux of global forest ecosystems - Science 263, 185-190.
• [13] Hulme M., Carter T. R., Doherty R. M., Osborn T. J. and Tuomenvirta, H. 1999 - The ACACIA climate change scenarios for Europe.
• [14] Intergovernmental Panel on Climate Change 1995. Cambridge, University Press.
• [15] Kundzewicz Z. W., Parry M. L. 1999 - Europe. Chapter 13 of IPCCWG2 Third assessment Report of Intergovemmental Panel on Climate Change - Scientific Assessment of Climate Change. Manuscript.
• [16] McCarthy J. J., Ganzani O. F., Leary N. A., Dokken D. J, White K. S. (Eds) 2001 - Climate change: Impacts, adaptation and vulnerability. IPCC WG2 Third Assessment Report - Cambridge University Press, p. 1320.
• [17] Nagel L. M., Vucetich J. A., Reed D. D., Mroz G. D., Pärn H. 2003 - Woody biomass and annual production across a latitudinal gradient in northem Scots pine (Pinus sylvestriś) forests - Pol. J.Ecol. 51, 4: 471-479.
• [18] Pärn H. 2003 - A boreal-temperate transect in Europe: history of pine stands reconstructed from the radial growth of trees - Pol. J. Ecol. 51, 4: 413-420.
• [19] Parry M. L. 1995 - Estimating the sensitivity of natural ecosystems and agriculture to climatic change - Climatic Change 7:1.
• [20] Rind, D., 1999 - Climate and complexity - Science 284, 105-107.
• [21] Roo-Zielińska E. 2003 - Ecological groups of vascular plant species in the herb layer of the pine forests of Northem and Central Europe - Pol. J.Ecol. 51,4: 493-506.
• [22] Sala O. E., Chapin F. S., Armesto J. J., Berlow J., Dirzo R., Hubert-Sanwald L., Jackson R. B., Kinzing A., Lodge D. M., Mooney H. A., Oesterheld M., Le Roy Poff N., Sykes M. T, Walker M., Wall D. H. 2000 - Global biodiversity scenarios for the year 2100 - Science, Vol. 287,1770-1774.
• [23] Solon J. 2003 - Changes in herb layer heterogeneity of Scots pine forests along the North-South transect - Pol. J. Ecol. 51, 4:481-492.
• [24] Solon J., Roo-Zielińska E. 2003 - Ground vegetation carbon and its relation to climate and species richness - Pol. J. Ecol. 51, 4:513-527.
• [25] Strömgren M., Linder S., Gower S. T. 1999 - Effects of soil warming in a boreal forest. Poster at GCTE and IGBP - Conference proceedings. Abisko 15-18 June,1999 How nutrient cycles constrain carbon balances in boreal forests and arctic tundra.
• [26] Zhang Y., Welker J. M. 1996 - Tibetan alpine tundra responses to simulated changes in climate: aboveground biomass and community responses. Arctic and Alpine Research 28(2), 203-209.