Abstract
Long-term trends including depopulation and shifts in agricultural policies and management have led to large-scale land-use changes throughout the European Alps which are likely to affect the size of carbon (C) stocks of the respective land-use types. This article analyzes landscape-scale changes of C-stocks present in the vegetation in relation to historical land use (1865), current land use (2003), and three contrasting scenarios of future land use (2020) in the Stubai Valley, Austria. Results show that more than 47% of the total valley area and more than 90% of the usable agricultural area have undergone a change in land use during the last approximately 140 years. Changes of land use were seen to peak between 1954 and 1973 and slow down there after. Phytomass and C-stocks in 1865 amounted to 63.1 Mg ha−1 and 30.8 Mg C ha−1, and increased until 2003 to 75.8 Mg ha−1 and 37.2 Mg C ha−1, respectively. Evaluations along an altitudinal gradient indicate the highest C gain to be in the sub-Alpine belt (more than doubling of the C-stock) due to the abandonment of pastures and hay meadows. All future scenarios project only a minor increase in phytomass (0.3–2.8 Mg ha−1) and C-stocks (0.2–1.4 Mg C ha−1) because major elements of the landscape (forests, rocks, screes) will be either largely unaffected or are unimportant in their spatial extent (built environment).
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References
Andre MF 1998. Depopulation, land-use change and landscape transformation in the French Massif Central. Ambio 27(4):351–3
Balboa-Murias MÁ, Rodríguez-Soalleiro R, Merino A, Álvarez-González JG 2006 Temporal variations and distribution of carbon stocks in aboveground biomass of radiata pine and maritime pine pure stands under different silvicultural alternatives. For Ecol Manage 237(1/3):29–38
Baldock D, Beaufoy G, Brower F, Godschalk F. 1996. Farming at the margins: abandonment or redeployment of agricultural land in Europe. London/The Hague: Institute for European Environmental Policy
Bayfield N, Baranock P, Furger M, Sebastia MT, Domínguez G, Lapka M, Cudlinova E, Vescova L, Gianelle D, Cernusca A, Tappeiner U, Drösler M. 2008. Stakeholder perceptions of the impacts of rural funding scenarios on mountain landscapes across Europe. Ecosystems. doi:10.1007/s10021-9197-1
Bitterlich W. 1998. Auswirkungen unterschiedlicher Bewirtschaftung auf Boden und Vegetation am Beispiel der Kaserstattalm–Neustift im Stubaital. PhD thesis, University of Innsbruck
Bolliger J, Kienast F, Soliva R, Rutherford G. 2007. Spatial sensitivity of species habitat patterns to scenarios of land use change (Switzerland). Landsc Ecol 22(5): 773–89
Brandt JJE, Bunce RGH, Howard DC, Petit S. 2002. General principles of monitoring land cover change based on two case studies in Britain and Denmark. Landsc Urban Plan 62(1): 37–51
Brunner I, Brodbeck S, Walthert L. 2002. Fine root chemistry, starch concentration, and ‘vitality’ of subalpine conifer forests in relation to soil pH. For Ecol Manage 165: 75–84
Brzoska W. 1973. Dry matter production and energy utilization of high mountain plants in the Austrian Alps. Oecol Plant 8(1): 63–70
Busch G, Lübkert B, Alcamo J. 2004. Future landscapes: a review of European scenarios about land use and environment. Report for the 1. Stakeholder Meeting of the PRELUDE Poject. Copenhagen: European Environmental Agency
Busch G. 2006. Future European agricultural landscapes—What can we learn from existing quantitative land use scenario studies? Agric Ecosyst Environ 114: 121–40
Cernusca A, Tappeiner U, Bayfield N, Eds. 1999. Land-use changes in European mountain ecosystems. ECOMONT—concepts and results. Berlin: Blackwell Wissenschaftsverlag Berlin
Cernusca A, Bahn M, Berninger F, Tappeiner U, Wohlfahrt G. 2008. Effects of land-use changes on sources, sinks and fluxes of carbon in European mountain grasslands. Ecosystems. doi:10.1007/s10021-9202-8
Douglas T, Critchley D, Park G. 1996. The deintensification of terraced agricultural land near Trevelez, Sierra Nevada, Spain. Global Ecol Biogeogr Lett 5(4/5): 258–70
Erb KH. 2004. Land-use related changes in aboveground carbon stocks of Austria’s terrestrial ecosystems. Ecosystems 7: 563–72
ESRI. 1998. ESRI-script cost distance grid tools, online available and documented on http://arcscripts.esri.com/details.asp?dbid=2015636142
European Commission Internet Document. 2005. New perspectives for EU rural development 2005. Fact sheet. Brussels: European Commission
Garcia-Ruiz JM, Lasanta T, Ruiz-Flano P, Ortigosa L, White S, Gonzalez C, Marti C. 1996. Land-use changes and sustainable development in mountain areas: a case study in the Spanish Pyrenees. Landsc Ecol 11: 267–77
Gamper S, Tasser E, Tappeiner U. 2007. Short-time effects of land-use changes on O-horizon in subalpine grasslands. Plant Soil 299: 101–15
Gorton M, Douarin E, Davidova S, Latruffe L. 2008. Attitudes to agricultural policy and farming futures in the context of the 2003 CAP reform: a comparison of farmers in selected established and new Member States. J Rural Stud 24(3): 322–36
Grabherr G, Mähr E, Reisigl H. 1978. Nettoprimärproduktion und Reproduktion in einem Krummseggenrasen der Ötztaler Alpen. Oecologia Plant 13(3): 227–51
Haid U. 1982. Phytomasse von Grasbeständen in den Alpen. Diploma thesis, University of Innsbruck
Havranek W, Matyssek R. 2005. The carbon balance of European Larch (Larix decidua) at the alpine timberline. Phyton 45(3): 213–31
Houghton RA. 1994. The worldwide extent of land-use change. BioScience 44: 305–13
Houghton RA, Hackler JL, Lawrence KT. 1999. The U.S. carbon budget: contribution from land-use change. Science 285: 574–8
Jackson RB, Canadell J, Ehleringer JR, Mooney HA, Sala OE, Schulze ED. 1996. A global analysis of root distribution for terrestrial biomes. Oecologia 108:349–411
Johansson T. 2000. Biomass equations for determining fractions of common and grey alders growing on abandoned farmland and some practical implications. Biomass Bioenerg 18: 147–59
Joosten R, Schumacher J, Wirth C, Schulte A. 2004. Evaluating tree carbon predictions for beech (Fagus sylvatica L.) in Western Germany. For Ecol Manage 189: 87–96
Kircher F. 1993. Untersuchungen zur Altersstruktur, Wachstumsdynamik und Bestandesstruktur an Grünerlen im Nationalpark Hohe Tauern. M.Sc. thesis, University of Innsbruck
Klug-Pümpel B. 1978. Phytomasse und Primärproduktion von unterschiedlich bewirtschafteten Almflächen im Gasteiner Tal. In: Cernusca A, Ed. Ökologische Analysen von Almflächen im Gasteiner Tal. Innsbruck: Universitätsverlag Wagner. pp 123–42
Klug-Pümpel B. 1989. Phytomasse und Nettoproduktion naturnaher und anthropogen beeinflusster alpiner Pflanzengesellschaften in den Hohen Tauern. In: Cernusca A, Ed. Struktur und Funktion von Graslandökosystemen im Nationalpark Hohe Tauern. Innsbruck: Universitätsverlag Wagner. pp 331–55
Köck M. 1998. Auswirkungen unterschiedlicher Ressourcenverfügbarkeit auf den Kohlenstoff- und Stickstoffhaushalt ausgewählter Pflanzenarten entlang eines Bewirtschaftungsgradienten (Stubaital, Kaserstattalm, 1850 m N). M.Sc. thesis, University of Innsbruck
Körner C. 2003. Alpine plant life. 2nd ed. Berlin: Springer-Verlag. 344 p
Krausmann F. 2001. Land use and industrial modernisation: an empirical analysis of human influence on the functioning of ecosystems in Austria 1830–1995. Land Use Policy 18: 17–26
Krausmann F, Haberl H, Schulz NB, Erb KH, Darge E, Gaube V. 2003. Land-use and socio-economic metabolism in Austria—Part I: driving forces of land-use change: 1950–1995. Land Use Policy 20: 1–20
Lambin EF, Baulies X, Bockstael N, Fischer G, Krug T, Leemans R, Moran EF, Rindfuss RR, Sato Y, Skole D, Turner BL II, Vogel C. 1999. Land-use and land-cover change (LUCC): Implementation strategy. IGBP Report No. 48, IHDP Report No. 10. Stockholm, Bonn
Lambin EF, Turner BL, Geist HJ, Agbola SB, Angelsen A, Bruce JW, Coomes OT, Dirzo R, Fischer G, Folke C, George PS, Homewood K, Imbernon J, Leemans L, Li X, Moran EF, Mortimore M, Ramakrishnan PS, Richards JF, Skanes H, Steffen W, Stone GD, Svedin U, Veldkamp TA, Vogel C, Xu J. 2001. The causes of land-use and land-cover change: moving beyond the myths. Global Environ Change 11(4): 261–9
Lambin EF, Geist HJ, Lepers E. 2003. Dynamics of land-use and landcover change in tropical regions. Ann Rev Environ Resour 28: 205–41
Land Tirol. 1996. Aktuelle Waldvegetation Tirol (Kartierung Schiechtl/Stern), available online at http://gis3.tirol.gv.at/scripts/esrimap.dll?Name=wald4&Cmd=Start
Li MH, Yang J, Kräuchi N. 2003. Growth responses of Picea abies and Larix decidua to elevation in subalpine areas of Tyrol, Austria. Can J For Res 33: 653–62
MacDonald D, Crabtree JR, Wiesinger G, Dax T, Stamou N, Fleury P, Gutierrez Lazpita J, Gibon A. 2000. Agricultural abandonment in mountain areas of Europe: environmental consequences and policy response. J Environ Manage 59: 47–69
Maier J, Vetter R, Siegle V, Spliethoff H. 1998. Anbau von Energiepflanzen—Ganzpflanzengewinnung mit verschiedenen Beerntungsmethoden (ein- und mehrjährige Pflanzenarten); Schwachholzverwertung. Ministerium Ländlicher Raum Baden-Württemberg, Stuttgart
Meeus JHA. 1993. The transformation of agricultural landscapes in Western Europe. Sci Total Environ 129(1/2): 171–90
Midgley JL, Shucksmith DM, Birnie RV, Geddes A, Bayfield N, Elston D. 2005. Rural development policy and community data needs in Scotland. Land Use Policy 22: 163–74
Moss R, Catt DC, Bayfield NG, French DD. 1996. The application of decision theory to sustainable management of an upland Scottish estate. J Appl Stat 23: 211–29
Mottet A, Ladet S, Coque N, GibonA. 2006. Agricultural land-use change and its drivers in mountain landscapes: a case study in the Pyrenees. Agric Ecosyst Environ 114(2): 296–310
Mund M. 2004. Carbon pools of European beech forests (Fagus sylvatica) under different silvicultural management. Berichte des Forschungszentrums Waldökosysteme 189. 256 pp
Mund M, Kummetz E, Hein M, Bauer GA, Schulze E-D. 2002. Growth and carbon stocks of a spruce forest chronosequence in central Europe. For Ecol Manage 171(3): 275–96
Norton RM. 1984. Double exponential distribution: using calculus to find a maximum likelihood estimator. Am Stat 38/2: 135–6
Offenthaler I, Hochbichler E. 2006. Estimation of root biomass of Austrian forest tree species. Austrian J For Sci 123: 65–86
Ponce-Hernandez R. 2004. Assessing carbon stocks and modelling win–win scenarios of carbon sequestration through land use change. FAO Report, ISBN 92-5-105158-5. Rome
Pümpel B. 1977. Bestandesstruktur, Phytomassevorrat und Produktion verschiedener Pflanzengesellschaften im Glocknergebiet. In: Cernusca A, Ed. Alpine Grasheide Hohe Tauern. Innsbruck: Universitätsverlag Wagner. pp 83–101
Rabbinge R, van Diepen CA. 2000. Changes in agriculture and land use in Europe. Eur J Agron 13: 85–100
Raffl C, Mallaun M, Mayer R, Erschbamer B. 2006. Succession pattern and diversity changes in a glacier valley (Central Alps, Austria). Arct Antarct Alp Res 38: 421–8
Risch AC, Jurgensen MF, Page-Dumroese DS, Wildi O, Schütz M. 2008. Long-term development of above- and belowground carbon stocks following land-use change in subalpine ecosystems of the Swiss National. Can J For Res 38(6): 1590–1602
Ritson P, Sochacki SJ. 2003. Measurement and prediction of biomass and carbon content of Pinus pinaster trees in farm forestry plantations, south-western Australia. For Ecol Manage 175: 103–17
Rubatscher D, Munk K, Stöhr D, Bahn M, Mader-Oberhammer M, Cernusca A. 2006. Biomass expansion functions for Larix decidua: a contribution to the estimation of forest carbon stocks. Austrian J For Sci 123(1/2): 87–101
Ruffini FV, Brutti E, Martellato L, Kammerer A, Oberlechner D. 2004. Natura 2000 in Südtirol. Leitfaden für die Ausführung der Managementpläne. Bozen: Europäische Akademie Bozen
Schmidt L. 1977. Phytomassevorrat und Nettoprimärproduktivität alpiner Zwergstrauchbestände. Oecologia Plant 12(2): 195–213
Schneeberger N, Bürgi M, Kienast PDF. 2007. Rates of landscape change at the northern fringe of the Swiss Alps: Historical and recent tendencies. Landsc Urban Plan 80: 127–36
Schröter D, Cramer W, Leemans R, Prentice IC, Araújo MB, Arnell NW, Bondeau A, Bugmann H, Carter TR, Garcia CA, de la Vega-Leinert AC, Erhard M, Ewert F, Glendining M, House JI, Kankaanpää S, Klein RJT, Lavorel S, Lindner M, Metzger MJ, Meyer J, Mitchell TD, Reginster I, Rounsevell M, Sabaté S, Sitch S, Smith B, Smith J, Smith P, Sykes MT, Thonicke K, Thuiller W, Tuck G, Zaehle S, Zierl B. 2005. Ecosystem service supply and human vulnerability to global change in Europe. Science 310: 1333–7
Seeber J, Seeber GUH. 2005. Effects of land-use changes on humus forms on alpine pastureland (Central Alps, Tyrol). Geoderma 124: 215–22
Shearer AW. 2005. Approaching scenario-based studies: three perceptions about the future and considerations for landscape planning. Environ Plann B Plann Des 32: 67–87
Taillefumier F, Piégay H. 2003. Contemporary land use changes in prealpine Mediterranean mountains: a multivariate GIS-based approach applied to two municipalities in the Southern French Prealps. Catena 51: 267–96
Tappeiner U, Bayfield N. 2004. Management of mountainous areas. In: Verheye W, Ed. Land cover and land use—land use management. Encyclopedia of Life Support Systems (EOLSS). Developed under the Auspices of the UNESCO. Oxford, UK: Eolss Publishers
Tappeiner U, Borsdorf A, Tasser E Eds. 2008. Mapping the Alps. Heidelberg: Spektrum Akademischer Verlag
Tappeiner U, Cernusca A. 1996. Microclimate and fluxes of water vapour, sensible heat and carbon dioxide in structurally differing subalpine plant communities in the Central Caucasus. Plant Cell Environ 19(4): 403–17
Tappeiner U, Tappeiner G, Hilbert A, Mattanovich E, Eds. 2003. The EU agricultural policy and the environment, evaluation of the Alpine region. Berlin: Blackwell Verlag. 275 p
Tasser E, Tappeiner U. 2002. The impact of land-use changes in time and space on vegetation distribution in mountain areas. Appl Veget Sci 5: 173–84
Tasser E, Tappeiner U. 2005. New model to predict rooting in diverse plant community composition. Ecol Modell 185(2–4): 195–211
Tasser E, Walde J, Teutsch A, Noggler W, Tappeiner U. 2007. Land-use changes and natural reforestation in the Eastern Central Alps. Agric Ecosyst Environ 118: 115–29
Turner II BL, Meyer WB, Skole DL. 1994. Global land-use/land-cover change: towards an integrated program of study. Ambio 23(1): 91–5
Veldkamp A, Lambin EF. 2001. Predicting land-use change. Agric Ecosyst Environ 85: 1–6 (editorial)
Vescovo L, Wohlfahrt G, Balzarolo M, Pilloni S, Gianelle D. In press. The use of a Near Infrared Difference Index (NIDI) for remote detection of grassland water content, nitrogen and phytomass. IEEE Trans Geosci Remote Sens
Wu J, Hobbs R. 2002. Key issues and research priorities in landscape ecology: an idiosyncratic synthesis. Landsc Ecol 17(4): 355–65
Zeller V, Bahn M, Aichner M, Tappeiner U. 2000. Impact of land-use change on nitrogen mineralization in subalpine grasslands in the Southern Alps. Biol Fertil Soils 31: 441–8
Acknowledgments
The study was supported by the EU project CarboMont (EVK2-CT2001-00125) and the Tiroler Wissenschaftsfond. G.L. was partly supported by a PhD fellowship from the University of Innsbruck. We would like to thank three anonymous reviewers for their helpful comments and R. Willmott (BioScript International) for her editorial support.
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Tappeiner, U., Tasser, E., Leitinger, G. et al. Effects of Historical and Likely Future Scenarios of Land Use on Above- and Belowground Vegetation Carbon Stocks of an Alpine Valley. Ecosystems 11, 1383–1400 (2008). https://doi.org/10.1007/s10021-008-9195-3
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DOI: https://doi.org/10.1007/s10021-008-9195-3