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Scandinavian Journal of Forest Research Volume 17, 2002 - Issue 1
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Original Articles

Production of Picea abies in South-east Norway in Response to Climate Change: A Case Study Using Process-based Model Simulation with Field Validation

David Zheng
,
Michael Freeman
,
Johan Bergh
,
Ingvald Røsberg
&
Petter Nilsen
Pages 35-46 | Published online: 05 Nov 2010

Citations (26)

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RamP. Sharma, Andreas Brunner & Tron Eid. (2012) Site index prediction from site and climate variables for Norway spruce and Scots pine in Norway. Scandinavian Journal of Forest Research 27:7, pages 619-636.
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Cristofer Wallentin & Urban Nilsson. (2011) Initial effect of thinning on stand gross stem-volume production in a 33-year-old Norway spruce (Picea abies (L.) Karst.) stand in Southern Sweden. Scandinavian Journal of Forest Research 26:S11, pages 21-35.
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Jaroslaw Socha. (2008) Effect of topography and geology on the site index of Picea abies in the West Carpathian, Poland. Scandinavian Journal of Forest Research 23:3, pages 203-213.
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Virva Volanen, Heli Peltola, Ismo Rouvinen & Seppo Kellomäki. (2006) Impacts of long-term elevation of atmospheric carbon dioxide concentration and temperature on the establishment, growth and mortality of boreal Scots pine branches. Scandinavian Journal of Forest Research 21:2, pages 115-123.
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Andreas Barth, Torgny Lind, Hans Petersson & Göran Ståhl. (2006) A framework for evaluating data acquisition strategies for analyses of sustainable forestry at national level. Scandinavian Journal of Forest Research 21:S7, pages 94-105.
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Articles from other publishers (21)

Aleksandr V. Lebedev. (2022) Changes in the growth of Scots pine (Pinus sylvestris L.) stands in an urban environment in European Russia since 1862. Journal of Forestry Research.
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N. N. Dubenok, A. V. Lebedev & V. V. Kuzmichev. (2022) Changes in the Growth of Larch Trees in Moscow According to Data of Long-Term Observations. Russian Agricultural Sciences 48:4, pages 296-301.
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Erik Næsset, Terje Gobakken & Ronald E. McRoberts. (2019) A Model-Dependent Method for Monitoring Subtle Changes in Vegetation Height in the Boreal–Alpine Ecotone Using Bi-Temporal, Three Dimensional Point Data from Airborne Laser Scanning. Remote Sensing 11:15, pages 1804.
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Joseph R. Stinziano, William L. Bauerle & Danielle A. Way. (2018) Modelled net carbon gain responses to climate change in boreal trees: Impacts of photosynthetic parameter selection and acclimation. Global Change Biology 25:4, pages 1445-1465.
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Grace L. Miner, William L. Bauerle & Dennis D. Baldocchi. (2017) Estimating the sensitivity of stomatal conductance to photosynthesis: a review. Plant, Cell & Environment 40:7, pages 1214-1238.
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Even Bergseng, Gry Alfredsen, Janka Dibdiakova, Lone Ross Gobakken, Ivar Gjerde, Aksel Granhus & Gunnhild Søgaard. (2016) Skogen som ressurs. Praktisk økonomi & finans 32:3, pages 253-263.
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Christopher Reyer. (2015) Forest Productivity Under Environmental Change—a Review of Stand-Scale Modeling Studies. Current Forestry Reports 1:2, pages 53-68.
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Erik Næsset. (2015) Vertical Height Errors in Digital Terrain Models Derived from Airborne Laser Scanner Data in a Boreal-Alpine Ecotone in Norway. Remote Sensing 7:4, pages 4702-4725.
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Yu Li, Cheng-qi Zhang & Xue-hua Zhou. (2014) Ecological responses to holocene millennial-scale climate change at high altitudes of east and Central Asia: A case study of Picea/Abies pollen changes in lacustrine sediments. Journal of Mountain Science 11:3, pages 674-687.
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Peter Spathelf, Ernst van der Maaten, Marieke van der Maaten-Theunissen, Matteo Campioli & Dorota Dobrowolska. (2013) Climate change impacts in European forests: the expert views of local observers. Annals of Forest Science 71:2, pages 131-137.
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Ole Martin Bollandsås, Timothy G. Gregoire, Erik Næsset & Bernt-Håvard Øyen. (2012) Detection of biomass change in a Norwegian mountain forest area using small footprint airborne laser scanner data. Statistical Methods & Applications 22:1, pages 113-129.
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Jingjing Liang, Mo Zhou, Dave L. Verbyla, Lianjun Zhang, Anna L. Springsteen & Thomas Malone. (2011) Mapping forest dynamics under climate change: A matrix model. Forest Ecology and Management 262:12, pages 2250-2262.
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Z.-M. Ge, S. Kellomaki, H. Peltola, X. Zhou, K.-Y. Wang & H. Vaisanen. (2011) Impacts of changing climate on the productivity of Norway spruce dominant stands with a mixture of Scots pine and birch in relation to water availability in southern and northern Finland. Tree Physiology 31:3, pages 323-338.
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Ashraful Alam, Antti Kilpeläinen & Seppo Kellomäki. (2010) Potential Energy Wood Production with Implications to Timber Recovery and Carbon Stocks Under Varying Thinning and Climate Scenarios in Finland. BioEnergy Research 3:4, pages 362-372.
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ANNA V. JONSSON ČABRAJIĆ, MARLENE LIDÉN, TOMAS LUNDMARK, MIKAELL OTTOSSON-LÖFVENIUS & KRISTIN PALMQVIST. (2010) Modelling hydration and photosystem II activation in relation to in situ rain and humidity patterns: a tool to compare performance of rare and generalist epiphytic lichens . Plant, Cell & Environment.
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PABLO MORALES, THOMAS HICKLER, DAVID P. ROWELL, BENJAMIN SMITH & MARTIN T. SYKES. (2007) Changes in European ecosystem productivity and carbon balance driven by regional climate model output. Global Change Biology 13:1, pages 108-122.
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T. Nuutinen, J. Matala, H. Hirvelä, K. Härkönen, H. Peltola, H. Väisänen & S. Kellomäki. (2006) Regionally optimized forest management under changing climate. Climatic Change 79:3-4, pages 315-333.
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J. Matala, R. Ojansuu, H. Peltola, H. Raitio & S. Kellomäki. (2006) Modelling the response of tree growth to temperature and CO2 elevation as related to the fertility and current temperature sum of a site. Ecological Modelling 199:1, pages 39-52.
Crossref
Helene A. de Wit, Taru Palosuo, Gro Hylen & Jari Liski. (2006) A carbon budget of forest biomass and soils in southeast Norway calculated using a widely applicable method. Forest Ecology and Management 225:1-3, pages 15-26.
Crossref
J. Matala, R. Ojansuu, H. Peltola, R. Sievänen & S. Kellomäki. (2005) Introducing effects of temperature and CO2 elevation on tree growth into a statistical growth and yield model. Ecological Modelling 181:2-3, pages 173-190.
Crossref
Johan Bergh, Michael Freeman, Bjarni Sigurdsson, Seppo Kellomäki, Kaisa Laitinen, Sini Niinistö, Heli Peltola & Sune Linder. (2003) Modelling the short-term effects of climate change on the productivity of selected tree species in Nordic countries. Forest Ecology and Management 183:1-3, pages 327-340.
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