Adriaenssens_2012Adriaenssens S. (2012). Dry deposition and canopy exchange for temperate tree species under high nitrogen deposition. PhD thesis, Ghent University, Ghent, Belgium, 209p. Alden_1997Alden, H. 1997. Softwoods of North America. United States Department of Agriculture, Forest Service, Forest Products Laboratory. Gen. Tech. Report FPL-GTR-102. 151 pp. Atkin_etal_2015Atkin OK, KJ Bloomfield, PB Reich, MG Tjoelker, GP Asner, D Bonal, G Bönisch, M Bradford, LA Cernusak, EG Cosio, D Creek, KY Crous, T Domingues, JS Dukes, JJG Egerton, JR Evans, GD Farquhar, NM Fyllas, PPG Gauthier, E Gloor, TE Gimeno, K. Griffin, R Guerrieri, MA Heskel, C Huntingford, FY Ishida, J Kattge, H Lambers, MJ Liddell, CH Lusk, RE Martin, TC Maximov, AP Maksimov, Y Mahli, BE Medlyn, PMeir, LM Mercado, N Mirotchnick, D Ng, Ü Niinemets, OS O’Sullivan, OL Philips, L Poorter, P Poot, IC Prentice, N Salinas, LM. Rowland, MG Ryan, S Sitch, Martijn Slot, NG Smith, MH Turnbull , MC VanderWel, F Valladares, EJ Veneklaas, LK Weerasinghe, C Wirth, IJ Wright, K Wythers, J Xiang, S Xiang, and J Zaragoza-Castells (2015) Global variability in leaf respiration among plant functional types in relation to climate and leaf traits. New Phytologist DOI: 10.1111/nph.13253 Bauer_etal_2001Bauer GA, Berntson GM, Bazzaz FA. 2001. Regenerating Temperate Forests under Elevated CO2 and Nitrogen Deposition: Comparing Biochemical and Stomatal Limitation of Photosynthesis. New Phytologist 152: 249–266 Blonder_etal_2011Blonder, B., Violle, C., Bentley, L. P. and Enquist, B. J. (2011), Venation networks and the origin of the leaf economics spectrum. Ecology Letters, 14: 91–100. doi:10.1111/j.1461-0248.2010.01554.x Bond_etal_1999Bond, B.J., Farnsworth, B.T., Coulombe, R.A. & Winner, W.E. (1999) Foliage physiology and biochemistry in response to light gradients in conifers with varying shade tolerance. Oecologia, 120, 183-192. Bond-Lamberty_etal_2002Bond-Lamberty, B., C. Wang, and S. T. Gower (2002), Above- and belowground biomass and sapwood area allometric equations for six boreal tree species of northern Manitoba, Can. J. For. Res., 32(8), 1441-1450. Bond-Lamberty_etal_2006Bond-Lamberty, Gower, Wang, Cyr, and Veldhuis (2006). Nitrogen dynamics of a boreal black spruce fire chronosequence, Biogeochemistry 81(1):1-16, doi:10.1007/s10533-006-9025-7 Bown_etal_2007Bown HE, Watt MS, Clinton PW, Mason EG, Richardson B. 2007. Partitioning concurrent influences of nitrogen and phosphorus supply on photosynthetic model parameters of Pinus radiata. Tree Physiology 27: 335–344. Brzeziecki_Kienast_1994Brzeziecki, B. and Kienast, F. 1994. Classifying the life-history strategies of trees on the basis of the Grimian model. Forest Ecology and Management 69: 167-187. Castro-Diez_etal_1998Castro-Diez, P., J. P. Puyravaud, J. H. C. Cornelissen, and P. Villar-Salvador. 1998. Stem anatomy and relative growth rate in seedlings of a wide range of woody plant species and types. Oecologia 116:57-66. Cavender-Bares_etal_2006Cavender-Bares, J., A. Keen, and B. Miles. 2006. Phylogenetic structure of floridian plant communities depends on taxonomic and spatial scale. Ecology 87:S109-S122. Chapin_unpubChapin, F. Stuart III, unpublished. Chave_etal_2009Chave, J., D. Coomes, S. Jansen, S. L. Lewis, N. G. Swenson, and A. E. Zanne. 2009. Towards a world wide wood economics spectrum. Ecology Letters 12(4):351-366. https://doi.org/10.1111/j.1461-0248.2009.01285.x Chen_etal_2011Yahan Chen , Wenxuan Han , Luying Tang , Zhiyao Tang and Jingyun Fang 2011 Leaf nitrogen and phosphorus concentrations of woody plants differ in responses to climate, soil and plant growth form. Ecography 34, doi: 10.1111/j.1600-0587.2011.06833.x Choat_etal_2012Brendan Choat, Steven Jansen, Tim J. Brodribb, Herve Cochard, Sylvain Delzon, Radika Bhaskar, Sandra J. Bucci, Taylor S. Feild, Sean M. Gleason, Uwe G. Hacke, Anna L. Jacobsen, Frederic Lens, Hafiz Maherali, Jordi Martinez-Vilalta, Stefan Mayr, Maurizio Mencuccini, Patrick J. Mitchell, Andrea Nardini, Jarmila Pittermann, R. Brandon Pratt, John S. Sperry, Mark Westoby, Ian J. Wright & Amy E. Zanne (2012) Global convergence in the vulnerability of forests to drought. Nature 491:752-755 doi:10.1038/nature11688 Choi_etal_2005aChoi WJ, Chang SX, Allen HL, Kelting DL, Roe HM (2005) Irrigation and fertilization effects on foliar and soil carbon and nitrogen isotope ratios in a loblolly pine stand. Forest Ecology and Management, 213, 90-101. Choi_etal_2005bChoi WJ, Chang SX, Curran MP, Ro HM, Kamaluddin M, Zwiazek JJ (2005) Foliar delta C-13 and delta N-15 response of lodgepole pine and Douglas-fir seedlings to soil compaction and forest floor removal. Forest Science, 51, 546-555. Cornelissen_etal_2003Cornelissen, J. H. C., B. Cerabolini, P. Castro-Diez, P. Villar-Salvador, G. Montserrat-Marti, J. P. Puyravaud, M. Maestro, M. J. A. Werger, and R. Aerts. 2003. Functional traits of woody plants: correspondence of species rankings between field adults and laboratory-grown seedlings? Journal of Vegetation Science 14:311-322. Craine_etal_2009Craine, J. M., A. J. Elmore, M. P. M. Aidar, M. Bustamante, T. E. Dawson, E. A. Hobbie, A. Kahmen, M. C. Mack, K. K. McLauchlan, A. Michelsen, G. B. Nardoto, L. H. Pardo, J. Penuelas, P. B. Reich, E. A. G. Schuur, W. D. Stock, P. H. Templer, R. A. Virginia, J. M. Welker, and I. J. Wright. 2009. Global patterns of foliar nitrogen isotopes and their relationships with climate, mycorrhizal fungi, foliar nutrient concentrations, and nitrogen availability. New Phytologist 183:980-992. Fogel_Cromack_1977Fogel, R., and K. Cromack, Jr. 1977. Effect of habitat and substrate quality on Douglas fir litter decomposition in western Oregon. Can. J. Bot. 55: 1632-1640. Freschet_etal_2010Freschet, G. T., J. H. C. Cornelissen, R. S. P. van Logtestijn, and R. Aerts. 2010. Evidence of the ‘plant economics spectrum’ in a subarctic flora. Journal of Ecology 98:362-373. Grotkopp_etal_2002Grotkopp, E., M. Rejmanek, and T. L. Rost. 2002. Toward a Causal Explanation of Plant Invasiveness: Seedling Growth and Life-History Strategies of 29 Pine (Pinus) Species. Am Nat 159(4):396-419 Han_etal_2012Wenxuan Han, Yahan Chen, Fang-Jie Zhao, Luying Tang, Rongfeng Jiang and Fusuo Zhang, 2012, Floral, climatic and soil pH controls on leaf ash content in China’s terrestrial plants. Global Ecology and Biogeography, DOI: 10.1111/j.1466-8238.2011.00677.x Hoch_etal_2003Hoch, G., A. Richter, C. Korner. 2003. Non-structural carbon compounds in temperate forest trees. Plant, Cell and Environment 26:1067-1081 Hornstein_unpubDaniel Hornstein, unpublished Jach_Ceulemans_1999Jach M.E. & Ceulemans R. (1999) Effects of elevated atmospheric CO2 on phenology, growth and crown structure of Scots pine (Pinus sylvestris) seedlings after two years of exposure in the field. Tree Physiology 19, 289–300 Jactel_unpubJactel, Hervé, unpub. Jokela_etal_1997Anne Jokela, Tytti Sarjala, Seppo Kaunisto, Satu Huttunen; Effects of foliar potassium concentration on morphology, ultrastructure and polyamine concentrations of Scots pine needles, Tree Physiology, Volume 17, Issue 11, 1 November 1997, Pages 677–685, https://doi.org/10.1093/treephys/17.11.677 Kattge_etal_2009Kattge, J., W. Knorr, T. Raddatz, and C. Wirth. 2009. Quantifying photosynthetic capacity and its relationship to leaf nitrogen content for global-scale terrestrial biosphere models. Global Change Biology 15:976-991. Keenan_Tejada_1984Keenan, F.J. and Tejada, M. 1984. Tropical Timber for Building Materials in the Andean Group Countries of South America. IDRC-TS 49. Kerkhoff_etal_2006Kerkhoff, A. J., W. F. Fagan, J. J. Elser, and B. J. Enquist. 2006. Phylogenetic and growth form variation in the scaling of nitrogen and phosphorus in the seed plants. American Naturalist 168:E103-E122. Kleyer_etal_2008Kleyer, M., R. M. Bekker, I. C. Knevel, J. P. Bakker, K. Thompson, M. Sonnenschein, P. Poschlod, J. M. van Groenendael, L. Klimes, J. Klimesova, S. Klotz, G. M. Rusch, Hermy, M. , D. Adriaens, G. Boedeltje, B. Bossuyt, A. Dannemann, P. Endels, L. Götzenberger, J. G. Hodgson, A.-K. Jackel, I. Kühn, D. Kunzmann, W. A. Ozinga, C. Römermann, M. Stadler, J. Schlegelmilch, H. J. Steendam, O. Tackenberg, B. Wilmann, J. H. C. Cornelissen, O. Eriksson, E. Garnier, and B. Peco. 2008. The LEDA Traitbase: a database of life-history traits of the Northwest European flora. Journal of Ecology 96:1266-1274. Kloeppel_etal_2000Kloeppel, B.D., Gower, S.T., Vogel, J.G. & Reich, P.B. (2000) Leaf-level resource use for evergreen and deciduous conifers along a resource availability gradient. Functional Ecology, 14(3), 281-292. Kolb_etal_1998Thomas E. Kolb, Kristina M. Holmberg, Michael R. Wagner, Joseph E. Stone; Regulation of ponderosa pine foliar physiology and insect resistance mechanisms by basal area treatments, Tree Physiology, Volume 18, Issue 6, 1 June 1998, Pages 375–381, https://doi.org/10.1093/treephys/18.6.375 Kramer_unpubKoen Kramer, unpub. Laughlin_etal_2011Laughlin, D.C., P.Z. Fulé, D.W. Huffman, J. Crouse, and E. Laliberte. 2011. Climatic constraints on trait-based forest assembly. Journal of Ecology 99:1489-1499. Lukes_etal_2013Lukeš, P., Stenberg, P., Rautiainen, M., Mõttus, M., Vanhatalo, K.M. Optical properties of leaves and needles for boreal tree species in Europe (2013) Remote Sensing Letters, 4 (7), pp. 667-676 Maire_etal_2015Maire V, Ian J. Wright, I. Colin Prentice, Niels H. Batjes, Radika Bhaskar, Peter M. van Bodegom, Will K. Cornwell, David Ellsworth, Ülo Niinemets, Alejandro Ordoñez, Peter B. Reich, Louis S. Santiago (2015). Global soil and climate effects on leaf photosynthetic traits and rates. Global Ecology and Biogeography 24(6): 706-717. Maire V, Wright IJ, Prentice IC, Batjes NH, Bhaskar R, van Bodegom PM, Cornwell WK, Ellsworth D, Niinemets Ü, Ordoñez A, Reich PB, Santiago LS (2015) Data from: Global effects of soil and climate on leaf photosynthetic traits and rates. Dryad Digital Repository. http://dx.doi.org/10.5061/dryad.j42m7 Manter_etal_2005Manter DK, Kavanagh KL, Rose CL. 2005. Growth response of Douglas-fir seedlings to nitrogen fertilization: importance of Rubisco activation state and respiration rates. Tree Physiology 25: 1015–1021 Mediavilla_Escudero_2003Mediavilla, S. & Escudero, A. Relative growth rate of leaf biomass and leaf nitrogen content in several mediterranean woody species. Plant Ecology (2003) 168: 321. https://doi.org/10.1023/A:1024496717918 Medlyn_etal_1999Medlyn, B. E., F.-W. Badeck, D. G. G. De Pury, C. V. M. Barton, M. Broadmeadow, R. Ceulemans, P. De Angelis, M. Forstreuter, M. E. Jach, S. Kellomäki, E. Laitat, M. Marek, S. Philippot, A. Rey, J. Strassemeyer, K. Laitinen, R. Liozon, B. Portier, P. Roberntz, K. Wang, and P. G. Jarvis. 1999. Effects of elevated CO2 on photosynthesis in European forest species: a meta-analysis of model parameters. Plant, Cell and Environment 22:1475-1495. Meir_etal_2002Meir, P., Kruijt, B., Broadmeadow, M., Kull, O., Carswell, F. & Nobre, A. 2002 Acclimation of photosynthetic capacity to irradiance in tree canopies in relation to leaf nitrogen concentration and leaf mass per unit area. Plant, Cell and Environment. 25, 3, p. 343-357 15 p. Merilo_etal_2009Merilo, E, I Tulva, O Raim, A Kukit, A Sellin, O Kull. 2009. Changes in needle nitrogen partitioning and photosynthesis during 80 years of tree ontogeny in Picea abies. Trees 23:951-958. DOI 10.1007/s00468-009-0337-9 Michaletz_Johnson_2006Michaletz, S.T., and E.A. Johnson. 2006. A heat transfer model of crown scorch in forest fires. Canadian Journal of Forest Research 36(11): 2839-2851 Milla_Reich_2011Milla R, Reich PB. 2011. Multi-trait interactions, not phylogeny, fine-tune leaf size reduction with increasing altitude. Annals of Botany 107(3): 455–465. https://doi.org/10.1093/aob/mcq261 Mitchell_2001Mitchell, A.K. (2001) Growth limitations for conifer regeneration under alternative silvicultural systems in a coastal montane forest in British Columbia, Canada. Forest Ecology and Management, 145, 129-136. Ordonez_etal_2010Ordonez, J. C., P. M. van Bodegom, J. P. M. Witte, R. P. Bartholomeus, J. R. van Hal, and R. Aerts. 2010. Plant Strategies in Relation to Resource Supply in Mesic to Wet Environments: Does Theory Mirror Nature? American Naturalist 175:225-239. Porte_Loustau_1998Porte A, Loustau D. 1998. Variability of the photosynthetic characteristics of mature needles within the crown of a 25-year-old Pinus pinaster. Tree Physiology 18: 223–232. Preston_etal_2006Preston, K. A., W. K. Cornwell, and J. L. DeNoyer. 2006. Wood density and vessel traits as distinct correlates of ecological strategy in 51 California coast range angiosperms. New Phytologist 170:807-818. Price_Enquist_2007Price, C.A. and B.J. Enquist. Scaling mass and morphology in leaves: an extension of the WBE model. (2007) Ecology 88(5): 1132–1141. Quested_etal_2003Quested, H. M., J. H. C. Cornelissen, M. C. Press, T. V. Callaghan, R. Aerts, F. Trosien, P. Riemann, D. Gwynn-Jones, A. Kondratchuk, and S. E. Jonasson. 2003. Decomposition of sub-arctic plants with differing nitrogen economies: A functional role for hemiparasites. Ecology 84:3209-3221. Reyes_etal_1992Reyes, G., S. Brown, J. Chapman, A. E. Lugo. 1992. Wood Densities of Tropical Tree Species. Gen. Tech. Rep. SO-88. New Orleans, LA: U.S. Dept of Agriculture, Forest Service, Southern Forest Experiment Station. 15 p. Scherer-Lorenzen_etal_2007Scherer-Lorenzen, M., Schulze, E.-D., Don, A., Schumacher, J. & Weller, E. (2007) Exploring the functional significance of forest diversity: A new long-term experiment with temperate tree species (BIOTREE). Perspectives in Plant Ecology, Evolution and Systematics, 9, 53-70. Shipley_2002Shipley, B. 2002. Trade-offs between net assimilation rate and specific leaf area in determining relative growth rate: relationship with daily irradiance. Functional Ecology 16:682-689 Shipley_unpubBill Shipley, unpublished. Small_1972Small, E. 1972. Ecological significance of four critical elements in plants of raised Spagnum peat bogs. Ecology 53:498–503. Springer_etal_2005Springer, C.J., DeLucia, E.H., Thomas, R.B. (2005) Relationships between net photosynthesis and foliar nitrogen concentrations in a loblolly pine forest ecosystem grown in elevated atmospheric carbon dioxide. Tree Physiology, 25, 385-394. Sullivan_etal_1997Sullivan, J.H., Bovard, B.D., Middleton, E.M. (1997) Variability in leaf-level CO2 and water fluxes in Pinus banksiana and Picea mariana in Sasketchewan. Tree Physiology, 17, 553-561. Vergutz_etal_2012Vergutz, L., S. Manzoni, A. Porporato, R.F. Novais, and R.B. Jackson. 2012. A Global Database of Carbon and Nutrient Concentrations of Green and Senesced Leaves. Data set. Available on-line [http://daac.ornl.gov] from Oak Ridge National Laboratory Distributed Active Archive Center, Oak Ridge, Tennessee, U.S.A. http://dx.doi.org/10.3334/ORNLDAAC/1106 Warren_Adams_2001Warren, C.R. & Adams, M.A. (2001) Distribution of N, Rubisco and photosynthesis in Pinus pinaster and acclimation to light. Plant, Cell and Environment, 24, 597-609. Warren_etal_2003Warren, C.R., Livingston, N.J., Turpin, D.H., Grant, N.J., Turpin, D.H., Harrison, D.L. & Black, T.A. (2003) Transfer conductance in second growth Douglas-fir (Pseudotsuga menziesii (Mirb.)Franco). Plant, Cell and Environment, 26(8), 1215-1227. Wirth_Lichstein_2009Wirth, C. and J. W. Lichstein. 2009. The Imprint of Species Turnover on Old-Growth Forest Carbon Balances - Insights From a Trait-Based Model of Forest Dynamics. Pages 81-113 in C. Wirth, G. Gleixner, and M. Heimann, editors. Old-Growth Forests: Function, Fate and Value. Springer, New York, Berlin, Heidelberg. Wright_etal_2004Wright, I. J., P. B. Reich, M. Westoby, D. D. Ackerly, Z. Baruch, F. Bongers, J. Cavender-Bares, T. Chapin, J. H. C. Cornelissen, M. Diemer, J. Flexas, E. Garnier, P. K. Groom, J. Gulias, K. Hikosaka, B. B. Lamont, T. Lee, W. Lee, C. Lusk, J. J. Midgley, M. L. Navas, U. Niinemets, J. Oleksyn, N. Osada, H. Poorter, P. Poot, L. Prior, V. I. Pyankov, C. Roumet, S. C. Thomas, M. G. Tjoelker, E. J. Veneklaas, and R. Villar. 2004. The worldwide leaf economics spectrum. Nature 428:821-827. Xiao_etal_2006Xiao, CW., Janssens, I.A., Curiel Yuste, J., Ceulemans, R. (2006) Variation of specific leaf area and upscaling to leaf area index in mature Scots pine. Trees 20: 304-310. https://doi.org/10.1007/s00468-005-0039-x