Response of tree growth to a changing climate in boreal central Canada: A comparison of empirical, process-based, and hybrid modelling approaches
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Martin P. Girardin | Pierre Y. Bernier | Jacques C. Tardif | P. Bernier | M. Girardin | F. Raulier | J. Tardif | Frédéric Raulier
[1] W. Smith,et al. Importance of Aerodynamic Resistance to Water Use Efficiency in Three Conifers under Field Conditions. , 1980, Plant physiology.
[2] Theodore T. Kozlowski,et al. Water deficits and plant growth , 1968 .
[3] M. Flannigan,et al. Synoptic-Scale Atmospheric Circulation and Boreal Canada Summer Drought Variability of the Past Three Centuries , 2006 .
[4] T. A. Black,et al. Late-summer carbon fluxes from Canadian forests and peatlands along an east-west continental transect , 2006 .
[5] Tapio Linkosalo,et al. Mutual regularity of spring phenology of some boreal tree species: predicting with other species and phenological models , 2000 .
[6] J. Kaplan,et al. Using a biogeochemistry model in simulating forests productivity responses to climatic change and [CO2] increase: example of Pinus halepensis in Provence (south-east France) , 2003 .
[7] F. Kienast,et al. Tree-ring analysis and conifer growth responses to increased atmospheric CO2 levels , 1988, Oecologia.
[8] Gordon B. Bonan,et al. Ecological Climatology: Concepts and Applications , 2002 .
[9] Edward R. Cook,et al. SPATIAL REGRESSION METHODS IN DENDROCLIMATOLOGY: A REVIEW AND COMPARISON OF TWO TECHNIQUES , 1994 .
[10] J. Guiot,et al. Dendroecological analysis of climatic effects on Quercus petraea and Pinus halepensis radial growth using the process-based MAIDEN model , 2004 .
[11] Ranga B. Myneni,et al. Thresholds for warming‐induced growth decline at elevational tree line in the Yukon Territory, Canada , 2004 .
[12] Y. Bergeron,et al. Radial growth analysis of Larix laricina from the Lake Duparquet area, Québec, in relation to climate and larch sawfly outbreaks , 2001 .
[13] T. A. Black,et al. Drought constraints on transpiration and canopy conductance in mature aspen and jack pine stands , 2006 .
[14] Lucie A. Vincent,et al. Canadian historical and homogeneous temperature datasets for climate change analyses , 1999 .
[15] Isabelle Chuine,et al. Phenology is a major determinant of tree species range , 2001 .
[16] Joe Landsberg,et al. Modelling forest ecosystems: state of the art, challenges, and future directions , 2003 .
[17] Heikki Hänninen,et al. Modelling bud dormancy release in trees from cool and temperate regions. , 1990 .
[18] J. Tardif,et al. Influence of climate on tree rings and vessel features in red oak and white oak growing near their northern distribution limit, southwestern Quebec, Canada , 2006 .
[19] L. Graumlich. Response of tree growth to climatic variation in the mixed conifer and deciduous forests of the upper Great Lakes region , 1993 .
[20] M. Arbaugh,et al. Variable selection in dendroclimatology: an example using simulated tree-rung series , 1989 .
[21] A. Weaver,et al. The Canadian Centre for Climate Modelling and Analysis global coupled model and its climate , 2000 .
[22] A. Deslauriers,et al. Intra-annual tracheid production in balsam fir stems and the effect of meteorological variables , 2005, Trees.
[23] I. Chuine,et al. A unified model for budburst of trees. , 2000, Journal of theoretical biology.
[24] F. Raulier,et al. Canadian national tree aboveground biomass equations , 2005 .
[25] Paul J. Kramer,et al. Physiology of Woody Plants , 1983 .
[26] Y. Bergeron,et al. Comparative dendroclimatological analysis of two black ash and two white cedar populations from contrasting sites in the Lake Duparquet region, northwestern Quebec , 1997 .
[27] A. Sugimoto,et al. 13CO2 pulse-labelling of photoassimilates reveals carbon allocation within and between tree rings. , 2006, Plant, cell & environment.
[28] Craig Loehle,et al. Model-based assessments of climate change effects on forests , 1995 .
[29] E. Cook,et al. Methods of Dendrochronology - Applications in the Environmental Sciences , 1991 .
[30] C. Hamel,et al. Structure and dynamics of boreal forest stands in the Duck Mountains, Manitoba , 2000 .
[31] C. Laroque,et al. Radial-growth forecasts for five high-elevation conifer species on Vancouver Island, British Columbia , 2003 .
[32] H. Mäkinen,et al. Seasonal changes in stem radius and production of new tracheids in Norway spruce. , 2003, Tree physiology.
[33] S. Running,et al. Simulating the effects of climatic variation on stem carbon accumulation of a ponderosa pine stand: comparison with annual growth increment data. , 1991, Tree physiology.
[34] Alan R. Ek,et al. The consequences of hierarchy for modeling in forest ecosystems , 2000 .
[35] C. Woodhouse. Artificial neural networks and dendroclimatic reconstructions: an example from the Front Range, Colorado, USA , 1999 .
[36] G. Boer,et al. A transient climate change simulation with greenhouse gas and aerosol forcing: projected climate to the twenty-first century , 2000 .
[37] D. LeBlanc,et al. A physiological approach to dendroclimatic modeling of oak radial growth in the midwestern United States , 1993 .
[38] J. Berry,et al. A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species , 1980, Planta.
[39] R. Leuning. A critical appraisal of a combined stomatal‐photosynthesis model for C3 plants , 1995 .
[40] P. Bernier. Climate change impacts on drought-prone forests in western Canada , 2005 .
[41] M. Mudelsee,et al. Past and future changes in Canadian boreal wildfire activity. , 2008, Ecological applications : a publication of the Ecological Society of America.
[42] E. Cook,et al. THE SMOOTHING SPLINE: A NEW APPROACH TO STANDARDIZING FOREST INTERIOR TREE -RING WIDTH SERIES FOR DENDROCLIMATIC STUDIES , 1981 .
[43] Richard A. Fournier,et al. Hierarchical characterization of canopy architecture for boreal forest , 1997 .
[44] P. Snowdon. Short-term predictions of growth of Pinus radiata with models incorporating indices of annual climatic variation , 2001 .
[45] Laurent Misson,et al. MAIDEN: a model for analyzing ecosystem processes in dendroecology , 2004 .
[46] H. Fritts,et al. Tree Rings and Climate. , 1978 .
[47] O. M. Heide,et al. Dormancy release and chilling requirement of buds of latitudinal ecotypes of Betula pendula and B. pubescens. , 1995, Tree physiology.
[48] R. Waring,et al. A generalised model of forest productivity using simplified concepts of radiation-use efficiency, carbon balance and partitioning , 1997 .
[49] Chhun-Huor Ung,et al. Modeling the influence of temperature on monthly gross primary productivity of sugar maple stands. , 2000, Tree physiology.
[50] Alexei G. Sankovski,et al. Special report on emissions scenarios , 2000 .
[51] E. Hogg,et al. Factors affecting interannual variation in growth of western Canadian aspen forests during 1951-2000 , 2005 .
[52] Changhui Peng,et al. Modelling the response of net primary productivity (NPP) of boreal forest ecosystems to changes in climate and fire disturbance regimes , 1999 .
[53] Y. Bergeron,et al. Comparative Analysis of the Climatic Response of Seven Boreal Tree Species from Northwestern Québec, Canada , 2001 .
[54] G. Boer,et al. Warming asymmetry in climate change simulations , 2001 .
[55] Nicholas C. Coops,et al. Estimating forest productivity in the eastern Siskiyou Mountains of southwestern Oregon using a satellite driven process model, 3-PGS , 2001 .
[56] Darrel L. Williams,et al. BOREAS in 1997: Experiment overview, scientific results, and future directions , 1997 .
[57] Mike D. Flannigan,et al. Canadian boreal forest ecosystem structure and function in a changing climate: impact on fire regimes , 1997 .
[58] Y. Bergeron,et al. Xylem production in six tree species growing on an island in the boreal forest region of western Quebec, Canada , 2007 .
[59] M. Flannigan,et al. Trends and periodicities in the Canadian Drought Code and their relationships with atmospheric circulation for the southern Canadian boreal forest , 2004 .
[60] E. Middleton,et al. Seasonal variability in foliar characteristics and physiology for boreal forest species at the five Saskatchewan tower sites during the 1994 Boreal Ecosystem‐Atmosphere Study , 1997 .
[61] M. Williams,et al. Net primary production of forests: a constant fraction of gross primary production? , 1998, Tree physiology.
[62] M. Flannigan,et al. An Analysis of the Daily Radial Activity of 7 Boreal Tree Species, Northwestern Quebec , 2001, Environmental monitoring and assessment.
[63] J. Landsberg,et al. A technique for determining resistance to mass transfer through the boundary layers of plants with complex structure. , 1970 .
[64] John E. E. Ebinger. Populus tremuloides Michx. , 1982 .
[65] A. Gordon,et al. Patterns of canopy interception and throughfall along a topographic sequence for black spruce dominated forest ecosystems in northwestern Ontario , 2003 .
[66] R. Laprise,et al. Current and perturbed climate as simulated by the second-generation Canadian Regional Climate Model (CRCM-II) over northwestern North America , 2003 .
[67] M. Flannigan,et al. Future Area Burned in Canada , 2005 .
[68] J. Ebinger. Pinus banksiana Lamb. , 1974 .
[69] J. Guiot,et al. Bioclimatic model of tree radial growth: application to the French Mediterranean Aleppo pine forests , 2005, Trees.
[70] J. Landsberg,et al. PHYSIOLOGY IN FOREST MODELS: HISTORY AND THE FUTURE , 2003 .
[71] A. Hofgaard,et al. Dendroclimatic response of Picea mariana and Pinus banksiana along a latitudinal gradient in the eastern Canadian boreal forest , 1999 .
[72] John M. Norman,et al. Carbon distribution and aboveground net primary production in aspen, jack pine, and black spruce stands in Saskatchewan and Manitoba, Canada , 1997 .
[73] M. Claussen,et al. The atmospheric general circulation model ECHAM-4: Model description and simulation of present-day climate , 1996 .
[74] P. Reich,et al. Predicting the effects of climate change on water yield and forest production in the northeastern United States , 1995 .
[75] Manfred Mudelsee,et al. Estimating Pearson's Correlation Coefficient with Bootstrap Confidence Interval from Serially Dependent Time Series , 2003 .
[76] C. E. Van Wagner,et al. Development and structure of the Canadian Forest Fire Weather Index System , 1987 .
[77] E. Hogg,et al. Climate and the southern limit of the western Canadian boreal forest , 1994 .
[78] Éva Mekis,et al. Rehabilitation and Analysis of Canadian Daily Precipitation Time Series , 1999, Data, Models and Analysis.
[79] G. Boer,et al. A transient climate change simulation with greenhouse gas and aerosol forcing: experimental design and comparison with the instrumental record for the twentieth century , 2000 .
[80] Harold E. Burkhart,et al. Linking growth and yield and process models to estimate impact of environmental changes on growth of loblolly pine , 2001 .
[81] J. Guiot,et al. Simulated responses of Pinus halepensis forest productivity to climatic change and CO2 increase using a statistical model , 2000 .
[82] R. Hall,et al. Integrating remote sensing and climate data with process-based models to map forest productivity within west-central Alberta's boreal forest: Ecoleap-West , 2006 .
[83] R. C. Woollons,et al. Augmenting empirical stand projection equations with edaphic and climatic variables , 1997 .
[84] P. Bernier,et al. Structural differences and functional similarities between two sugar maple (Acer saccharum) stands. , 2002, Tree physiology.
[85] F. I. Woodward,et al. The representation of root processes in models addressing the responses of vegetation to global change , 2000 .
[86] J. Chen. Optically-based methods for measuring seasonal variation of leaf area index in boreal conifer stands , 1996 .
[87] P. Stenberg,et al. Importance of needle age and shoot structure on canopy net photosynthesis of balsam fir (Abies balsamea): a spatially inexplicit modeling analysis. , 2001, Tree physiology.
[88] M. Girardin,et al. Sensitivity of tree growth to the atmospheric vertical profile in the Boreal Plains of Manitoba, Canada , 2005 .
[89] G. Collatz,et al. Parameterization and testing of a coupled photosynthesis-stomatal conductance model for boreal trees. , 1998, Tree physiology.
[90] J. Tardif,et al. Distribution and anatomical characteristics of white rings in Populus tremuloides , 2005 .
[91] N. Draper,et al. Applied Regression Analysis. , 1967 .
[92] J. Aber,et al. A generalized, lumped-parameter model of photosynthesis, evapotranspiration and net primary production in temperate and boreal forest ecosystems , 1992, Oecologia.
[93] Axel Kleidon,et al. A method of determining rooting depth from a terrestrial biosphere model and its impacts on the global water and carbon cycle , 1998 .
[94] D. Baldocchi,et al. The carbon balance of tropical, temperate and boreal forests , 1999 .
[95] G. Collatz,et al. Profiles of photosynthetically active radiation, nitrogen and photosynthetic capacity in the boreal forest: Implications for scaling from leaf to canopy , 1997 .
[96] N. Breda,et al. Validation of a canopy gas exchange model and derivation of a soil water modifier for transpiration for sugar maple (Acer saccharum Marsh.) using sap flow density measurements , 2002 .
[97] D. Spittlehouse,et al. Adaptation to climate change in forest management , 2004, Journal of Ecosystems and Management.
[98] J. Tardif,et al. Dendrochronological reconstruction of forest tent caterpillar outbreaks in time and space, western Manitoba, Canada , 2007 .
[99] Tommaso Anfodillo,et al. Conifers in cold environments synchronize maximum growth rate of tree-ring formation with day length. , 2006, The New phytologist.