Advanced search
Publication Cover
Arctic, Antarctic, and Alpine Research
An Interdisciplinary Journal
Volume 46, 2014 - Issue 4: Losing the High Ground: Rapid Transformation of Tropical Island Alpine and Subalpine Environments
Submit an article Journal homepage
5,364
Views
54
CrossRef citations to date
0
Altmetric
Research Articles

Consequences of Treeline Shifts for the Diversity and Function of High Altitude Ecosystems

Sarah GreenwoodDepartment of Biological and Environmental Sciences, School of Natural Sciences, University of Stirling, Stirling, FK9 4LA, U.K.
&
Alistair S. JumpDepartment of Biological and Environmental Sciences, School of Natural Sciences, University of Stirling, Stirling, FK9 4LA, U.K.Correspondence[email protected]
Pages 829-840 | Accepted 01 Jul 2014, Published online: 16 Jan 2018

References Cited

  • Angert, A. , Biraud, S. , Bonfils, C. , Henning, C. C. , Buermann, W. , Pinzon, J. , Tucker, C. J. , and Fung, I. , 2005: Drier summers cancel out the CO2 uptake enhancement induced by warmer springs. Proceedings of the National Academy of Sciences of the United States of America , 102: 10823–10827.
  • Ares, A. , Neill, A. R. , and Puettmann, K. J. , 2010: Understory abundance, species diversity and functional attribute response to thinning in coniferous stands. Forest Ecology and Management , 260: 1104–1113.
  • Augusto, L. , Ranger, J. , Binkley, D. , and Rothe, A. , 2002: Impact of several common tree species of European temperate forests on soil fertility. Annals of Forest Science , 59: 233–253.
  • Bader, M. Y. , Rietkerk, M. , and Bregt, A. K. , 2008: A simple spatial model exploring positive feedbacks at tropical alpine treelines. Arctic, Antarctic, and Alpine Research , 40: 269–278.
  • Baker, B. B. , and Moseley, R. K. , 2007: Advancing treeline and retreating glaciers: implications for conservation in Yunnan, P.R. China. Arctic, Antarctic, and Alpine Research , 39: 200–209.
  • Barr, A. G. , Black, T. A. , Hogg, E. H. , Griffis, T. J. , Morgenstern, K. , Kljun, N. , Theede, A. , and Nesic, Z. , 2007: Climatic controls on the carbon and water balances of a boreal aspen forest, 1994–2003. Global Change Biology , 13: 561–576.
  • Batllori, E. , Blanco-Moreno, J. M. , Ninot, J. M. , Gutiérrez, E. , and Carrillo, E. , 2009a: Vegetation patterns at the alpine treeline ecotone: the influence of tree cover on abrupt change in species composition of alpine communities. Journal of Vegetation Science , 20: 814–825.
  • Batllori, E. , Camarero, J. J. , Ninot, J. M. , and Gutiérrez, E. , 2009b: Seedling recruitment, survival and facilitation in alpine Pinus uncinata tree line ecotones. Implications and potential responses to climate warming. Global Ecology and Biogeography , 18: 460–472.
  • Bebi, P. , Kienast, F. , and Schönenberger, W. , 2001: Assessing structures in mountain forests as a basis for investigating the forests' dynamics and protective function. Forest Ecology and Management , 145: 3–14.
  • Beckage, B. , Osborne, B. , Gavin, D. G. , Pucko, C. , Siccama, T. , and Perkins, T. , 2008: A rapid upward shift of a forest ecotone during 40 years of warming in the Green Mountains of Vermont. Proceedings of the National Academy of Sciences , 105: 4197–4202.
  • Bekker, M. F. , 2005: Positive feedback between tree establishment and patterns of subalpine forest advancement, Glacier National Park, Montana, U.S.A. Arctic, Antarctic, and Alpine Research , 37: 97–107.
  • Brunet, J. , and Von Oheimb, G. , 1998: Migration of vascular plants to secondary woodlands in southern Sweden. Journal of Ecology , 86: 429–438.
  • Bruun, H. H. , and Moen, J. , 2003: Nested communities of alpine plants on isolated mountains: relative importance of colonization and extinction. Journal of Biogeography , 30: 297–303.
  • Bugmann, H. , and Pfister, C. , 2000: Impacts of inter annual climate variability on past and future forest composition. Regional Environmental Change , 1: 112–125.
  • Butler, S. M. , Melillo, J. M. , Johnson, J. E. , Mohan, J. , Steudler, P. A. , Lux, H. , Burrows, E. , Smith, R. M. , Vario, C. L. , Scott, L. , Hill, T. D. , Aponte, N. , and Bowles, F. , 2012: Soil warming alters nitrogen cycling in a New England forest: implications for ecosystem function and structure. Oecologia , 168: 819–828.
  • Cain, M. L. , Damman, H. , and Muir, A. , 1998: Seed dispersal and the Holocene migration of woodland herbs. Ecological Monographs , 68: 325–347.
  • Callaway, R. M. , Brooker, R. W. , Choler, P. , Kikvidze, Z. , Lortiek, C. J. , Michalet, R. , Paolini, L. , Pugnaireq, F. I. , Newingham, B. , Aschehoug, E. T. , Armasq, C. , Kikodze, D. , and Cook, B. J. , 2002: Positive interactions among alpine plants increase with stress. Nature , 417: 844–848.
  • Camarero, J. J. , and Gutiérrez, E. , 2002: Plant species distribution across two contrasting treeline ecotones in the Spanish Pyrenees. Plant Ecology , 162: 247–257.
  • Camarero, J. J. , and Gutiérrez, E. , 2004: Pace and pattern of recent treeline dynamics: response of ecotones to climatic variability. Climatic Change , 63: 181–200.
  • Canham, C. D. , and Burbank, D. H. , 1994: Causes and consequences of resource heterogeneity in forests: interspecific variation in light variation by canopy trees. Canadian Journal of Forest Research , 24: 337–349.
  • Catorci, A. , Scapin, W. , Tardella, M. F. , and Vitanzi, A. , 2012: Seedling survival and dynamics of upper timberline in Central Apennines. Polish Journal of Ecology , 60: 79–94.
  • Chapin, F. S. , and Starfield, A. M. , 1997: Time lags and novel ecosystems in response to transient climatic change in Arctic Alaska. Climatic Change , 35: 449–461.
  • Chapin, F. S. , Shaver, G. R. , Giblin, A. E. , Nadelhoffer, K. J. , and Laundre, J. A. , 1995: Responses of arctic tundra to experimental and observed changes in climate. Ecology , 76: 694–711.
  • Coop, J. D. , Massatti, R. T. , and Schoettle, A. W. , 2010: Subalpine vegetation pattern three decades after stand-replacing fire: effects of landscape context and topography on plant community composition, tree regeneration, and diversity. Journal of Vegetation Science , 21: 472–487.
  • Cui, M. , and Smith, W. K. , 1991: Photosynthesis, water relations and mortality in Abies Zasiocarpa seedlings during natural establishment. Tree Physiology , 8: 37–46.
  • Daniels, L. D. , and Veblen, T. T. , 2004: Spatiotemporal influences of climate on altitudinal treeline in Northern Patagonia. Ecology , 85: 1284–1296.
  • Davis, J. , Schober, A. , Bahn, M. , and Sveinbjörnsson, B. , 1991: Soil carbon and nitrogen turnover at and below the elevational treeline in Northern Fennoscandia. Arctic and Alpine Research , 23: 279–286.
  • Delpierre, N. , Soudani, K. , François, C. , Köstner, B. , Pontailler, J. Y , Nikinmaa, E. , Misson, L. , Aubinet, M. , Bernhofer, C. , Granier, A. , Grünwald, T. , Heinesch, B. , Longdoz, B. , Ourcival, J. M. , Rambal, S. , Vesala, T. , and Dufrêne, E. , 2009: Exceptional carbon uptake in European forests during the warm spring of 2007: a data-model analysis. Global Change Biology , 15: 1455–1474.
  • Devi, N. , Hagedorn, F. , Moiseev, P. , Bugmann, H. , Shiyatov, S. , Mazepa, V. , and Rigling, A. , 2008: Expanding forests and changing growth forms of Siberian larch at the Polar Urals treeline during the 20th century. Global Change Biology , 14: 1581–1591.
  • Dirnböck, T. , and Grabherr, G. , 2000: GIS assessment of vegetation and hydrological change in a high mountain catchment of the Northern Limestone Alps. Mountain Research and Development , 20: 172–179.
  • Dirnböck, T. , Dullinger, S. , and Grabherr, G. , 2003: A regional impact assessment of climate and land-use change on alpine vegetation. Journal of Biogeography , 30: 401–417.
  • Dirnböck, T. , Essl, F. , and Rabitsch, W. , 2011: Disproportional risk for habitat loss of high-altitude endemic species under climate change. Global Change Biology , 17: 990–996.
  • Doležal, J. , and Šrutek, M. , 2002: Altitudinal changes in composition and structure of mountain-temperate vegetation: a case study from the Western Carpathians. Plant Ecology , 158: 201–221.
  • Dorren, L. K. A. , Berger, F. , le Hir, C. , Mermin, E. , and Tardif, P. , 2005: Mechanisms, effects and management implications of rockfall in forests. Forest Ecology and Management , 215: 183–195.
  • Douglas, I. , Spencer, T. , Greer, T. , Bidin, K. , Sinun, W. , and Meng, W. W. , 1992: The impact of selective commercial logging on stream hydrology, chemistry and sediment loads in the Ulu Segama Rain Forest, Sabah, Malaysia. Philosophical Transactions of the Royal Society of London. Series B: Biological Sciences , 335(1275): 397–406.
  • Dudova, L. , Hajkova, P. , Buchtova, H. , and Opravilova, V. , 2012: Formation, succession and landscape history of Central-European summit raised bogs: a multiproxy study from the Hruby Jesenik Mountains. The Holocene , 23: 230–242.
  • Edwards, M. E. , Brubaker, L. B. , Lozhkin, A. V. , and Anderson, P. M. , 2005: Structurally novel biomes: a response to past warming in Beringia. Ecology , 86: 1696–1703.
  • Ellis, C. J. , and Coppins, B. , 2007: 19th century woodland structure controls stand-scale epiphyte diversity in present-day Scotland. Diversity and Distributions , 13: 84–91.
  • Ellis, C. J. , and Coppins, B. , 2009: Quantifying the role of multiple landscape-scale drivers controlling epiphyte composition and richness in a conservation priority habitat (juniper scrub). Biological Conservation , 142: 1291–1301.
  • Essl, F. , Staudinger, M. , Stöhr, O. , Schratt-Ehrendorfer, L. , Rabitsch, W. , and Niklfeld, H. , 2009: Distribution patterns, range size and niche breadth of Austrian endemic plants. Biological Conservation , 142: 2547–2558.
  • Fan, Z.-X. , Bräuning, A. , Cao, K.-F. , and Zhu, S. D. , 2009: Growth-climate responses of high-elevation conifers in the central Hengduan Mountains, southwestern China. Forest Ecology and Management , 258: 306–313.
  • García-Romero, A. , Muñoz, J. , Andrés, N. , and Palacios, D. , 2010: Relationship between climate change and vegetation distribution in the Mediterranean mountains: Manzanares Head valley, Sierra De Guadarrama (Central Spain). Climatic Change , 100: 645–666.
  • Germino, M. J. S. , and Smith, W. K. , 2001: Relative importance of microhabitat, plant form, and photosynthetic physiology to carbon gain in two alpine herbs. Functional Ecology , 15: 243–251.
  • Germino, M. J. S. , Smith, W. K. , and Resor, A. C. , 2002: Conifer seedling distribution and survival in an alpine-treeline ecotone. Plant Ecology , 162: 157–168.
  • Gobbi, M. , and Schlichter, T. , 1998: Survival of Austrocedrus chilensis seedlings in relation to microsite conditions and forest thinning. Forest Ecology and Management , 111: 137–146.
  • Grabherr, G. , Gottfreid, M. , and Pauli, H. , 1994: Climate effects on mountain plants. Nature , 369: 449.
  • Grace, J. , Berninger, F. , and Nagy, L. , 2002: Impacts of climate change on the tree line. Annals of Botany , 90: 537–544.
  • Griffis, T. J. , Black, T. A. , Morgenstern, K. , Barr, A. G. , Nesic, Z. , Drewitt, G. B. , Gaumont-Guay, D. , and McCaughey, J. H. , 2003: Ecophysiological controls on the carbon balances of three southern boreal forests. Agricultural and Forest Meteorology , 117: 53–71.
  • Grytnes, J. A. , 2000: Fine-scale vascular plant species richness in different alpine vegetation types: relationships with biomass and cover. Journal of Vegetation Science , 11: 87–92.
  • Halloy, S. , and Mark, A. , 2003: Climate-change effects on alpine plant biodiversity: a New Zealand perspective on quantifying the threat. Arctic, Antarctic, and Alpine Research , 35: 248–254.
  • Hansen, A. J. , Neilson, R. P. , Dale, V. H. , Flather, C. H. , Iverson, L. R. , Currie, D. J. , Shafer, S. , Cook, R. , and Bartlein, P. J. , 2001: Global change in forests: responses of species, communities, and biomes. Bioscience , 51: 765–779.
  • Harsch, M. A. , Hulme, P. E. , McGlone, M. S. , and Duncan, R. P. , 2009: Are treelines advancing? A global meta-analysis of treeline response to climate warming. Ecology Letters , 12: 1040–1049.
  • Hart, S. A. , and Chen, H. Y. H. , 2006: Understory vegetation dynamics of North American boreal forests. Critical Reviews in Plant Sciences , 25: 381–397.
  • Hartley, I. P. , Garnett, M. H. , Sommerkorn, M. , Hopkins, D. W. , Fletcher, B. J. , Sloan, V. L. , Phoenix, G. K. , and Wookey, P. A. , 2012: A potential loss of carbon associated with greater plant growth in the European Arctic. Nature Climate Change, advance online publication.
  • Hättenschwiler, S. , and Smith, W. K. , 1999: Seedling occurrence in alpine treeline conifers: a case study from the central Rocky Mountains, USA. Acta Oecologica , 20: 219–224.
  • Hertel, D. , and Scholing, D. , 2011: Norway spruce shows contrasting changes in below- versus above-ground carbon partitioning towards the alpine tree line: evidence from a Central European case study. Arctic Antarctic and Alpine Research , 43: 46–55.
  • Hofgaard, A. , 1997: Inter-relationships between treeline position, species diversity, land use and climate change in the Central Scandes Mountains of Norway. Global Ecology and Biogeography Letters , 6: 419–429.
  • Hofgaard, A. , and Wilmann, B. , 2002: Plant distribution pattern across the forest-tundra ecotone: the importance of treeline position. Ecoscience , 9: 375–385.
  • Hofgaard, A. , Tommervick, H. , Rees, G. , and Hanssen, F. , 2013: Latitudinal forest advance in northernmost Norway since the early 20th century. Journal of Biogeography , 40: 938–949.
  • Holtmeier, F. K. , and Broll, G. , 2005: Sensitivity and response of northern hemisphere altitudinal and polar treelines to environmental change at landscape and local scales. Global Ecology and Biogeography , 14: 395–410.
  • Hu, J. , Moore, D. J. P. , Burns, S. P. , and Monson, R. K. , 2010: Longer growing seasons lead to less carbon sequestration by a subalpine forest. Global Change Biology , 16: 771–783.
  • Huntley, B. , 1990: European post-glacial forests: compositional changes in response to climatic change. Journal of Vegetation Science , 1: 507–518.
  • Huntley, B. , 1991: How plants respond to climate change: migration rates, individualism and the consequences for plant communities. Annals of Botany , 67: 15–22.
  • Hyvönen, R. , Ågren, G. I. , Linder, S. , Persson, T. , Cotrufo, M. F. , Ekblad, A. , Freeman, M. , Grelle, A. , Janssens, I. A. , Jarvis, P. G. , Kellomäki, S. , Lindroth, A. , Loustau, D. , Lundmark, T. , Norby, R. J. , Oren, R. , Pilegaard, K. , Ryan, M. G. , Sigurdsson, B. D. , Strömgren, M. , Van Oijen, M. , and Wallin., G. , 2007: The likely impact of elevated [CO2], nitrogen deposition, increased temperature and management on carbon sequestration in temperate and boreal forest ecosystems: a literature review. New Phytologist , 173: 463–480.
  • IPCC, 2007: Climate Change 2007: Impacts, Adaptation and Vulnerability. Parry, M. L. , Canziani, O. F. , Palutikof, J. P. , van der Linden, P. J. , and Hanson C. E. (eds.), Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, U.K., and New York: Cambridge University Press.
  • IPCC, 2013: Climate Change 2013: The Physical Science Basis. Stocker, T. F. , Qin, D. , Plattner, G. K. , Tignor, M. , Allen, S. K. , Boschung, J. , Nauels, A. , Xia, Y. , Bex, V. , and Midgley, P. M. (eds.), Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge, U.K., and New York: Cambridge University Press, 1535 pp.
  • Jennings, S. B. , Brown, N. D. , and Shiel, D. , 1999: Assessing forest canopies and understory illumination: canopy closure, canopy cover and other measures. Forestry , 72: 59–73.
  • Jobbágy, E. G. , and Jackson, R. B. , 2000: Global controls of forest line elevation in the northern and southern hemispheres. Global Ecology & Biogeography , 9: 253–268.
  • Johansson, P. , 2008: Consequences of disturbance on epiphytic lichens in boreal and near boreal forests. Biological Conservation , 141: 1933–1944.
  • Johansson, V. , Ranius, T. , and Snall, T. , 2013: Epiphyte metapopulation persistence after drastic habitat decline and low tree regeneration: time-lags and effects of conservation actions. Journal of Applied Ecology , 50: 414–422.
  • Jump, A. S. , Mátyás, C. , and Peñuelas, J. , 2009: The altitude-for-latitude disparity in the range retractions of woody species. Trends in Ecology and Evolution , 24(12): 694–701.
  • Jump, A. S. , Huang, T. J. , and Chou, C. H. , 2012: Rapid altitudinal migration of mountain plants in Taiwan and its implications for high altitude biodiversity. Ecography , 35: 204–210.
  • Kaarlejärvi, E. , Baxter, R. , Hofgaard, A. , Hytteborn, H. , Khitun, O. , Molau, U. , Sjögersten, S. , Wookey, P. , and Olofsson, J. , 2012: Effects of warming on shrub abundance and chemistry drive ecosystem-level changes in a forest-tundra ecotone. Ecosystems , 15: 1219–1233.
  • Kallarackal, J. , and Roby, T. J. , 2012: Responses of trees to elevated carbon dioxide and climate change. Biodiversity and Conservation , 21: 1327–1342.
  • Kammer, A. , Hagedorn, F. , Shevchenko, I. , Leifeld, J. , Guggenberger, G. , Goryacheva, T. , Rigling, A. , and Moiseev, P. , 2009: Treeline shifts in the Ural Mountains affect soil organic matter dynamics. Global Change Biology , 15: 1570–1583.
  • Kapralov, D. S. , Shiyatov, S. G. , Moiseev, P. A. , and Fomin, V. V. , 2006: Changes in the composition, structure, and altitudinal distribution of low forests at the upper limit of their growth in the Northern Ural Mountains. Russian Journal of Ecology , 37: 367–372.
  • Kelly, A. E. , and Goulden, M. L. , 2008: Rapid shifts in plant distribution with recent climate change. Proceedings of the National Academy of Sciences , 105(33): 11823–11826.
  • Kharuk, V. I. , Ranson, K. J. , Im, S. T. , and Dvinskaya, M. L. , 2009: Response of Pinus sibirica and Larix sibirica to climate change in southern Siberian alpine forest-tundra ecotone. Scandinavian Journal of Forest Research , 24: 130–139.
  • Kharuk, V. I. , Ranson, K. J. , Im, S. T. , and Vdovin, A. S. , 2010: Spatial distribution and temporal dynamics of high-elevation forest stands in southern Siberia. Global Ecology and Biogeography , 19: 822–830.
  • Klanderud, K. , 2008: Species-specific responses of an alpine plant community under simulated environmental change. Journal of Vegetation Science , 19: 363–372.
  • Körner, C. , 1998: A re-assessment of high elevation treeline positions and their explanation. Oecologia , 115: 445–459.
  • Körner, C. , 2003: Alpine Plant Life: Functional Plant Ecology of High Mountain Ecosystems. Second edition. Berlin: Springer, 349 pp.
  • Körner, C. , and Paulsen, J. , 2004: A world-wide study of high altitude treeline temperatures. Journal of Biogeography , 31: 713–732.
  • Kullman, L. , 1998: Non-analogous tree flora in the Scandes Mountains, Sweden, during the early Holocene-macrofossil evidence of rapid geographic spread and response to palaeoclimate. Boreas , 27: 153–161.
  • Kullman, L. , 2002: Rapid recent range-margin rise of tree and shrub species in the Swedish Scandes. Journal of Ecology , 90: 68–77.
  • Kullman, L. , 2007: Tree line population monitoring of Pinus sylvestris in the Swedish Scandes, 1973–2005: implications for tree line theory and climate change ecology. Journal of Ecology , 95: 41–52.
  • Kuusinen, M. , and Siitonen, J. , 1998: Epiphytic lichen diversity in old-growth and managed Picea abies stands in southern Finland. Journal of Vegetation Science , 9: 283–292.
  • Lee, C. S. , Kim, J. H. , Yi, H. , and You, Y. H. , 2004: Seedling establishment and regeneration of Korean red pine (Pinus densiflora S. et Z.) forests in Korea in relation to soil moisture. Forest Ecology and Management , 199: 423–432.
  • Lenoir, J. , Gegout, J. C. , Marquet, P. A. , de Ruffray, P. , and Brisse, H. , 2008: A significant upward shift in plant species optimum elevation during the 20th century. Science , 320: 1768–1771.
  • le Roux, P. C. , and McGeoch, M. A. , 2008: Rapid range expansion and community reorganization in response to warming. Global Change Biology , 14: 2950–2962.
  • Lescop-Sinclair, K. , and Payette, S. , 1995: Recent advance of the Arctic treeline along the Eastern Coast of Hudson Bay. Journal of Ecology , 83: 929–936.
  • Lett, S. , and Michelsen, A. , 2014: Seasonal variation in nitrogen fixation and effects of climate change in a subarctic heath. Plant and Soil , 379: 193–204.
  • Li, M.-H. , and Yang, J. , 2004: Effects of microsite on growth of Pinus cembra in the subalpine zone of the Austrian Alps. Annals of Forest Science , 61: 319–325.
  • Liang, E. , Wang, Y. , Eckstein, D. , and Luo, T. , 2011: Little change in the fir tree-line position on the southeastern Tibetan Plateau after 200 years of warming. New Phytologist , 190: 760–769.
  • Lin, D. , Xia, J. , and . Wan, S. , 2010: Climate warming and biomass accumulation of terrestrial plants: a meta-analysis. New Phytologist , 188: 187–198.
  • Lloyd, A. H. , 2005: Ecological histories from Alaskan tree lines provide insight into future change. Ecology , 86: 1687–1695.
  • Lloyd, A. H. , and Fastie, C. L. , 2002: Spatial and temporal variability in the growth and climate response of treeline trees in Alaska. Climatic Change , 52: 481–509.
  • Lloyd, A. H. , and Fastie, C. L. , 2003: Recent changes in treeline distribution and structure in interior Alaska. Ecoscience , 10(2): 176–185.
  • Lopatin, E. , Kolström, T. , and Spiecker, H. , 2006: Determination of forest growth trends in Komi Republic (northwestern Russia): combination of tree-ring analysis and remote sensing data. Boreal Environment Research , 11: 341–353.
  • MacDonald, G. M. , Kremenetski, K. V. , and Beilman, D. W. , 2008: Climate change and the northern Russian treeline zone. Philosophical Transactions of the Royal Society-Biology , 363: 2285–2299.
  • Macias-Fauria, M. , and Johnson, E. A. , 2013: Warming-induced upslope advance of subalpine forest is severely limited by geomorphic processes. Proceedings of the National Academy of Sciences , 110(20): 8117–8122.
  • Mamet, S. D. , and Kershaw, G. P. , 2012: Subarctic and alpine tree line dynamics during the last 400 years in north-western and central Canada. Journal of Biogeography , 39: 855–868.
  • Masek, J. G. , 2001: Stability of boreal forest stands during recent climate change: evidence from Landsat satellite imagery. Journal of Biogeography , 28: 967–976.
  • Matlack, G. R. , 1994: Plant species migration in a mixed-history forest landscape in eastern North America. Ecology , 75: 1491–1502.
  • McLachlan, J. S. , Clark, J. S. , and Manos, P. S. , 2005: Molecular indicators of tree migration capacity under rapid climate change. Ecology , 86: 2088–2098.
  • McNown, R.W. , and Sullivan, P. F. , 2013: Low photosynthesis of treeline white spruce is associated with limited soil nitrogen availability in the Western Brooks Range, Alaska. Functional Ecology , 27: 672–683.
  • McVicar, T. R. , Li, L. , Van Niel, T. G. , Zhang, L. , Li, R. , Yang, Q. , Zhang, X. , Mu, X. , Wen, Z. , Liu, W. , Zhao, Y. A. , Liu, Z. , and Gao, P. , 2007: Developing a decision support tool for China's re-vegetation program: simulating regional impacts of afforestation on average annual streamflow in the Loess Plateau. Forest Ecology and Management , 251: 65–81.
  • Michaelson, G. J. , Ping, C. L. , and Kimble, J. M. , 1996: Carbon storage and distribution in tundra soils of Arctic Alaska, U.S.A. Arctic and Alpine Research , 28: 414–424.
  • Moen, J. , Aune, K. , Edenius, L. , and Angerbjorn, A. , 2004: Potential effects of climate change on treeline position in the Swedish mountains. Ecology and Society , 9: 16–26.
  • Moiseev, P. A. , and Shiyatov, S. G. , 2003: Vegetation dynamics at the treeline ecotone in the Ural highlands, Russia. In Nagy, L. , Grabherr, G. , Körner, C. , and Thompson, D. B. A. (ed.), Alpine Biodiversity in Europe-A Europe-wide Assessment of Biological Richness and Change. Berlin: Springer, Ecological Studies 167, 423–435.
  • Monson, R. K. , Turnipseed, A. A. , Sparks, J. P. , Harley, P. C. , Scott-Denton, L. E. , Sparks, K. , and Huxman, T. E. , 2002: Carbon sequestration in a high-elevation, subalpine forest. Global Change Biology , 8: 459–478.
  • Moore, M. , and Huffman, D. , 2004: Tree encroachment on meadows of the North Rim, Grand Canyon National Park, Arizona, U.S.A. Arctic, Antarctic, and Alpine Research , 36: 474–483.
  • Motta, R. , and Nola, P. , 2001: Growth trends and dynamics in sub-alpine forest stands in the Varaita Valley (Piedmont, Italy) and their relationships with human activities and global change. Journal of Vegetation Science , 12: 219–230.
  • Nabuurs, G-J. , Linder, M. , Verkerk, P. , Gunia, K. , Deda, P. , Michalak, R. , and Grassi, G. , 2013: First signs of carbon sink saturation in European forest biomass. Nature Climate Change , 3: 792–796.
  • Parmesan, C. , 2006: Ecological and evolutionary responses to recent climate change. Annual Reviews in Ecology, Evolution and Systematics , 37: 669.
  • Parmesan, C. , and Yohe, G. , 2003: A globally coherent fingerprint of climate change impacts across natural systems. Nature , 421: 37–42.
  • Pauli, H. , Gottfreid, M. , and Grabherr, G. , 1996: Effects of climate change on mountain ecosystems-upward shifting of alpine plants. World Resource Review , 8: 382–390.
  • Peng, C. , Zhou, X. , Zhao, S. , Wang, X. , Zhu, B. , Piao, S. , and Fang, J. , 2009: Quantifying the response of forest carbon balance to future climate change in northeastern China: model validation and prediction. Global and Planetary Change , 66: 179–194.
  • Peñuelas, J. , and Boada, M. , 2003: A global change-induced biome shift in the Montseny Mountains (NE Spain). Global Change Biology , 9: 131–140.
  • Peñuelas, J. , Filella, I. , and Comas, P. , 2002: Changed plant and animal life cycles from 1952 to 2000 in the Mediterranean region. Global Change Biology , 8: 531–544.
  • Pigott, C. D. , and Huntley, J. P. 1978. Factors controlling the distribution of Tilia cordata at the northern limits of its geographical range. I. Distribution in north-west England. New Phytologist , 81: 429–441.
  • Rabasa, S. G. , Granda, E. , Banavides, R. , Kunstler, G. , Espelta, J. M. , Ogaya, R. , Peñuelas, J. , Scherer-Lorenzen, M. , Gil, W. , Grodki, W. , Ambrozy, S. , Bergh, J. , Hodar, J. , Zamora, R. , and Valladares, F. , 2013: Disparity in elevational shifts of European trees in response to recent climate warming. Global Change Biology , 19: 2490–2499.
  • Reich, P. B. , and Oleksyn, J. , 2004: Global patterns of plant leaf N and P in relation to temperature and latitude. Proceedings of the National Academy of Sciences , 101(30): 11001–11006.
  • Resler, L. M. ,. Butler, D. R. , and Malanson, G. P. , 2005: Topographic shelter and conifer establishment and mortality in an alpine environment, Glacier National Park, Montana. Physical Geography , 26: 112–125.
  • Roberts, L. , 1989. How fast can trees migrate? Science , 243: 735–737.
  • Rochefort, R. M. , Little, R. L. , Woodward, A. , and Peterson, D. L. , 1994: Changes in sub-alpine tree distribution in western North America: a review of climatic and other causal factors. The Holocene , 4: 89–100.
  • Ruete, A. , Fritz, Ö. , Snäll, T. , and Salguero-Gómez, R. , 2014: A model for non-equilibrium metapopulation dynamics utilizing data on species occupancy, patch ages and landscape history. Journal of Ecology , 102: 678–689.
  • Rustad, L. E. , Campbell, J. L. , Marion, G. M. , Norby, R. J. , Mitchell, M. J. , Hartley, A. E. , Cornelissen, J. H. C. , and Gurevitch, J. , 2001: A meta-analysis of the response of soil respiration, net nitrogen mineralization, and aboveground plant growth to experimental ecosystem warming. Oecologia , 126: 543–562.
  • Saxe, H. , Cannell, M. G. R. , Johnsen, B. , Ryan, M. G. , and Vourlitis, G. , 2001: Tree and forest functioning in response to global warming. New Phytologist , 149: 369–399.
  • Schönenberger, W. , Noack, A. , and Thee, P. , 2005: Effect of timber removal from windthrow slopes on the risk of snow avalanches and rockfall. Forest Ecology and Management , 213(1–3): 197–208.
  • Sea, D. S. , and Whitlock, C. , 1995: Postglacial vegetation and climate of the Cascade Range, central Oregon. Quaternary Research , 43: 370–381.
  • Shiyatov, S. G. , Terent'ev, M. M. , and Fomin, V. V. , 2005: Spatiotemporal dynamics of forest-tundra communities in the polar Urals. Russian Journal of Ecology , 36: 69–75.
  • Shiyatov, S. , Terent'ev, M. , Fomin, V. , and Zimmermann, N. , 2007: Altitudinal and horizontal shifts of the upper boundaries of open and closed forests in the Polar Urals in the 20th century. Russian Journal of Ecology , 38: 223–227.
  • Sillett, S. C. , 1994: Growth rates of two epiphytic cyanolichen species at the edge and in the interior of a 700-year-old Douglas fir forest in the Western Cascades of Oregon. The Bryologist , 97: 321–324.
  • Sillett, S. C. , McCune, B. , Peck, J. E. , Rambo, T. R. , and Ruchty, A. , 2000: Dispersal limitations of epiphytic lichens result in species dependent on old-growth forests. Ecological Applications , 10: 789–799.
  • Sjögersten, S. , and Wookey, P. A. , 2002: Climatic and resource quality controls on soil respiration across a forest-tundra ecotone in Swedish Lapland. Soil Biology and Biochemistry , 34: 1633–1646.
  • Sjögersten, S. , and Wookey, P. A. , 2005: The role of soil organic matter quality and physical environment for nitrogen mineralization at the forest-tundra ecotone in Fennoscandia. Arctic, Antarctic, and Alpine Research , 37: 118–126.
  • Sjögersten, S. , Alewell, C. , Cecillon, L. , Hagedorn, F. , Jandl, R. , Leifeld, J. , Martinsen, V. , Schindlbacher, A. , Sebastià, M.-T. , and Van Miegroet, H. , 2011: Mountain soils in a changing climate-Vulnerability of carbon stocks and ecosystem feedbacks. In Jandl, R. , Rodeghiero, M. , and Olsson, M. (eds.), Soil Carbon in Sensitive European Ecosystems. West Sussex, U.K.: John Wiley & Sons, 118–148.
  • Smith, W. K. , Germino, M. J. , Hancock, T. E. , and Johnson, D. M. , 2003: Another perspective on altitudinal limits of alpine timberlines. Tree Physiology , 23: 1101–1112.
  • Spargo, J. , Cavigelli, M. , Mirsky, S. B. , Maul, J. E. , and Meisinger, J. J. , 2011: Mineralizable soil nitrogen and labile soil organic matter in diverse long-term cropping systems. Nutrient Cycling in Agroecosystems , 90(2): 253–266.
  • Steltzer, H. , 2004: Soil carbon sequestration with forest expansion in an Arctic forest-tundra landscape. Canadian Journal of Forest Research , 34: 1538–1542.
  • Stoffel, M. , Wehrli, A. , Kühne, R. , Dorren, L. K. A. , Perret, S. , and Kienholz, H. , 2006: Assessing the protective effect of mountain forests against rockfall using a 3D simulation model. Forest Ecology and Management , 225(1–3): 113–122.
  • Streit, K. , Hagedorn, F. , Hiltbrunner, D. , Portmann, M. , Saurer, M. , Buchmann, N. , Wild, B. , Richter, A. , Wipf, S. , and Siegwolf, R. T. W. , 2014: Soil warming alters microbial substrate use in alpine soils. Global Change Biology , 20: 1327–1338.
  • Suarez, F. , Binkley, D. , and Kaye, M. W. , 1999: Expansion of forest stands into tundra in the Noatak National Preserve, northwest Alaska. Ecoscience , 6: 465–470.
  • Sundqvist, M. K. , Giesler, R. , Graae, B. J. , Wallander, H. , Fogelberg, E. , and Wardle, D. A. , 2011: Interactive effects of vegetation type and elevation on aboveground and belowground properties in a subarctic Tundra. Oikos , 120: 128–142.
  • Sveinbjörnsson, B. , Nordel, O. , and Kauhanen, H. , 1992: Nutrient relations of mountain birch growth at and below the elevational tree-line in Swedish Lapland. Functional Ecology , 6: 213–220.
  • Sveinbjörnsson, B. , Davis, J. , Abadi, W. , and Butler, A. , 1995: Soil carbon and nitrogen mineralization at different elevations in the Chugach Mountains of south-central Alaska, U.S.A. Arctic and Alpine Research , 27: 29–37.
  • Sziecz, J. M. , and MacDonald, G. M. , 1995: Recent white spruce dynamics at the subarctic alpine treeline of north-western Canada. Journal of Ecology , 83: 873–885.
  • Tarnocai, C. , Canadell, J. G. , Schuur, E. A. G. , Kuhry, P. , Mazhitova, G. , and Zimov, S. , 2009: Soil organic carbon pools in the northern circumpolar permafrost region. Global Biogeochemical Cycles , 23: http://dx.doi.org/10.1029/2008GB003327.
  • Teich, M. , and Bebi, P. , 2009: Evaluating the benefit of avalanche protection forest with GIS-based risk analyses-A case study in Switzerland. Forest Ecology and Management , 257: 1910–1919.
  • Thébault, A. , Clément, J.-C. , Ibanez, S. , Roy, J. , Geremia, R. A. , Pérez, C. A. , Buttler, A. , Estienne, Y. , and Lavorel, S. , 2014: Nitrogen limitation and microbial diversity at the treeline. Oikos , 123: 729–740.
  • Thomas, S. C. , Halpern, C. B. , Falk, D. A. , Liguori, D. A. , and Austin, K. A. , 1999: Plant diversity in managed forests: understory responses to thinning and fertilization. Ecological Applications , 9: 864–879.
  • Tømmervik, H. , Johansen, B. , Riseth, J. Å. , Karlsen, S. R. , Solberg, B. , and Høgda, K. A. , 2009: Above ground biomass changes in the mountain birch forests and mountain heaths of Finnmarksvidda, northern Norway, in the period 1957–2006. Forest Ecology and Management , 257: 244–257.
  • Tranquillini, W. , 1979: Physiological Ecology of the Alpine Timberline. Tree Existence at High Altitudes with Special Reference to the European Alps. Berlin: Springer, Ecological Studies 31.
  • Trivedi, M. R. , Morecroft, M. D. , Berry, P. M. , and Dawson, T. P. , 2008: Potential effects of climate change on plant communities in three montane nature reserves in Scotland, UK. Biological Conservation , 141(6): 1665–1675.
  • van der Wal, R. , Pearce, I. S. K. , and Brooker, R. W. , 2005: Mosses and the struggle for light in a nitrogen-polluted world. Oecologia , 142: 159–168.
  • Van Devender, T. R. , and Spaulding, W. G. , 1979: Development of vegetation and climate in the southwestern United States. Science , 204: 701–710.
  • Villalba, R. , and Veblen, T. T. , 1997: Regional patterns of tree population age structures in Northern Patagonia: climatic and disturbance influences. Journal of Ecology , 85: 113–124.
  • Walker, M. D. , Wahren, C. H. , Hollister, R. D. , Henry, G. H. R. , Ahlquist, L. E. , Alatalo, J. M. , Bret-Harte, M. S. , Calef, M. P. , Callaghan, T. V. , Carroll, A. B. , Epstein, H. E. , Jónsdóttir, I. S. , Klein, J. A. , Magnússon, B. ó. , Molau, U. , Oberbauer, S. F. , Rewa, S. P. , Robinson, C. H. , Shaver, G. R. , Suding, K. N , Thompson, C. C. , Tolvanen, A. , Totland, Ø. , Turner, P. L. , Tweedie, C. E. , Webber, P. J. , and Wookey, P. A. , 2006: Plant community responses to experimental warming across the tundra biome. Proceedings of the National Academy of Sciences of the United States of America , 103: 1342–1346.
  • Walther, G. R. , 2003: Plants in a warmer world. Perspectives in Plant Ecology, Evolution and Systematics , 6: 169–185.
  • Walther, G. R. , Post, E. , Convey, P. , Menzel, A. , Parmesan, C. , Beebee, T. J. C. , Fromentin, J. M. , and Hoegh-Guldberg, O. B. F. , 2002: Ecological responses to recent climate change. Nature , 416: 389–395.
  • Wang, H. , 2013: A multi-model assessment of climate change impacts on the distribution and productivity of ecosystems in China. Regional Environmental Change , 14: 133–144.
  • Wehrli, A. D. , Dorren, L. K. A. , and Berger, F. 2006. Modelling long-term effects of forest dynamics on the protective effect against rockfall. Forest Snow and Landscape Research , 80: 57–76.
  • White, A. , Cannell, M. G. R. , and Friend, A. D. , 2000: The high-latitude terrestrial carbon sink: a model analysis. Global Change Biology , 6: 227–245.
  • Wieser, G. , 2007: Global change at the upper timberline. In Wieser, G. , and Tausz, M. (eds.), Trees at Their Upper Limit. Dordrecht, Netherlands: Springer, 197–207.
  • Wilmking, M. , Harden, J. , and Tape, K. , 2006: Effect of tree line advance on carbon storage in NW Alaska. Journal of Geophysical Research , 111: 1–10.
  • Wu, Q. Q. , Wu, F. Z. , Yang, W. Q. , Zhao, Y. Y. , He, W. , and Tan, B. , 2014: Foliar litter nitrogen dynamics as affected by forest gap in the alpine forest of Eastern Tibet Plateau. PloS One , 9(5): 1–14.
  • Xu, Z. F. , Hu, T. X. , and Zhang, Y. B. , 2012: Effects of experimental warming on phenology, growth and gas exchange of treeline birch (Betula utilis) saplings, Eastern Tibetan Plateau, China. European Journal of Forest Research , 131: 811–819.
  • Zierl, B. , and Bugmann, H. , 2007: Sensitivity of carbon cycling in the European Alps to changes of climate and land cover. Climatic Change , 85: 195–212.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.