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References

  • Akaike, H. (1974) A new look at the statistical model identification. IEEE Transactions on Automatic Control, 19, 716723.
  • Allen, C.D., Macalady, A.K., Chenchouni, H., Bachelet, D., McDowell, N., Vennetier, M., Kitzberger, T., Rigling, A., Breshears, D.B., Hogg, E.H., Gonzalez, P., Fensham, R., Zhang, Z., Castro, J., Demidova, N., Lim, J.-H., Allard, G., Running, S.W., Semerci, A. & Cobb, N. (2010) A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests. Forest Ecology and Management, 259, 660684.
  • Baccini, A., Goetz, S.J., Walker, W.S., Laporte, N.T., Sun, M., Sulla-Menashe, D., Hackler, J., Beck, P.S.A., Dubayah, R., Friedl, M.A., Samanta, S. & Houghton, R. (2012) Estimated carbon dioxide emissions from tropical deforestation improved by carbon-density maps. Nature Climate Change, 2, 182185.
  • Beer, C., Lucht, W., Schmullius, C. & Shvidenko, A. (2006) Small net carbon dioxide uptake by Russian forests during 1981–1999. Geophysical Research Letters, 33, L15403. doi:10.1029/2006GL026919.
  • Bellassen, V., Delbart, N., Le Maire, G., Luyssaert, S., Ciais, P. & Viovy, N. (2011) Potential knowledge gain in large-scale simulations of forest carbon fluxes from remotely sensed biomass and height. Forest Ecology and Management, 261, 515530.
  • Bonan, G.B. (2008) Forests and climate change: forcings, feedbacks, and the climate benefits of forests. Science, 320, 14441449.
  • Boudreau, J., Nelson, R., Margolis, H., Beaudoin, A., Guindon, L. & Kimes, D. (2008) Regional aboveground forest biomass using airborne and spaceborne LiDAR in Québec. Remote Sensing of Environment, 112, 38763890.
  • Chave, J., Coomes, D., Jansen, S., Lewis, S.L., Swenson, N.G. & Zanne, A.E. (2009) Towards a worldwide wood economics spectrum. Ecology Letters, 12, 351366.
  • DeFries, R.S., Houghton, R.A., Hansen, M.C., Field, C.B., Skole, D. & Townshend, J. (2002) Carbon emissions from tropical deforestation and regrowth based on satellite observations for the 1980s and 1990s. Proceedings of the National Academy of Sciences USA, 99, 1425614261.
  • Denman, K.L., Brasseur, G., Chidthaisong, A., Ciais, P., Cox, P.M., Dickinson, R.E., Hauglustaine, D., Heinze, C., Holland, E., Jacob, D., Lohmann, U., Ramachandran, S., da Silva Dias, P.L., Wofsy, S.C. & Zhang, X. (2007) Couplings between changes in the climate system and biogeochemistry. Climate change 2007: the physical science basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (ed. by S. Solomon , D. Qin , M. Manning , Z. Chen , M. Marquis , K.B. Averyt , M. Tignor and H.L. Miller ), 499588. Cambridge University Press, Cambridge.
  • EFI (2005) LTFRA database. European Forest Institute. Available at: http://www.efi.int/portal/virtual_library/databases/ (accessed 8 June 2012).
  • ESRI (2008) Continents shapefile. Baruch Geoportal. Baruch College. City University of New York. Available at: <http://www.baruch.cuny.edu/geoportal/data/esri/esri_intl.htm (accessed 7 December 2012).
  • FAO (2010) Global Forest Resources Assessment 2010. Main report. FAO Forestry Paper 163. Food and Agriculture Organization, Rome.
  • Friedlingstein, P., Cox, P., Betts, R. et al. (2006) Climate–carbon cycle feedback analysis: results from the C(4)MIP model intercomparison. Journal of Climate, 19, 33373353.
  • Gibbs, H.K., Brown, S., Niles, J.O. & Foley, J.A. (2007) Monitoring and estimating tropical forest carbon stocks: making REDD a reality. Environmental Research Letters, 2, 045023. doi:10.1088/1748-9326/2/4/045023.
  • Goodale, C.L., Apps, M.J., Birdsey, R.A., Field, C.B., Heath, L.S., Houghton, R.A., Jenkins, J.C., Kohlmaier, G.H., Kurz, W., Liu, S.R., Nabuurs, G.J., Nilsson, S. & Shvidenko, A.Z. (2002) Forest carbon sinks in the Northern Hemisphere. Ecological Applications, 12, 891899.
  • Grainger, A. (2009) Towards a new global forest science. International Forestry Review, 11, 126133.
  • Guo, Z., Fang, J., Pan, Y. & Birdsey, R. (2010) Inventory-based estimates of forest biomass carbon stocks in China: a comparison of three methods. Forest Ecology and Management, 259, 12251231.
  • Hastie, T.J. & Tibshirani, R.J. (1990) Generalized additive models. Chapman & Hall/CRC, Boca Raton, FL.
  • Hurtt, G.C., Fisk, J., Thomas, R.Q., Dubayah, R., Moorcroft, P.R. & Shugart, H.H. (2010) Linking models and data on vegetation structure. Journal of Geophysical Research, 115, G00E10. doi:10.1029/2009JG000937.
  • JRC (2003) Global Land Cover 2000 database. European Commission. Joint Research Centre. Available at: http://bioval.jrc.ec.europa.eu/products/glc2000/glc2000.php (accessed 3 July 2012).
  • JRC (2009) The Biomass Compartment Database of the GHG-AFOLU project of the European Commission. Joint Research Centre. Available at: http://afoludata.jrc.ec.europa.eu/index.php/public_area/biomass_compartments (accessed 6 January 2012).
  • Kellndorfer, J., Walker, W., LaPoint, E. & Kirsch, K. (2010) Statistical fusion of LiDAR, InSAR, and optical remote sensing data for forest stand height characterization: a regional-scale method based on LVIS, SRTM, Landsat ETM+, and ancillary data sets. Geophysical Research Letters, 115, G00E08.
  • Kellndorfer, J., Walker, W., LaPoint, E., Bishop, J., Cormier, T., Fiske, G., Hoppus, M., Kirsch, K. & Westfall, J. (2012) NACP aboveground biomass and carbon baseline data (NBCD 2000), USA 2000 data set. ORNL DAAC, Oak Ridge, TN. Available at: http://daac.ornl.gov (accessed 7 November 2012)
  • Köble, R. & Seufert, G. (2001) Novel maps for forest tree species in Europe. Proceedings of the 8th European Symposium on the Physico-Chemical Behaviour of Air Pollutants: ‘A Changing Atmosphere!’, Torino, Italy, 17–20 September 2001.
  • Kurz, W.A., Dymond, C.C., Stinson, G., Rampley, G.J., Neilson, E.T., Carroll, A.L., Ebata, T. & Safranyik, L. (2008) Mountain pine beetle and forest carbon feedback to climate change. Nature, 452, 987990.
  • Lefsky, M.A., Cohen, W.B., Harding, D.J., Parker, G.G., Acker, S.A. & Gower, S.T. (2002) Lidar remote sensing of above-ground biomass in three biomes. Global Ecology and Biogeography, 11, 393399.
  • Liski, J., Korotkov, A.V., Prins, C.F.L., Karjalainen, T., Victor, D.G. & Kauppi, P.E. (2003) Increased carbon sink in temperate and boreal forests. Climatic Change, 61, 8999.
  • Lo, E. (2005) Gaussian error propagation applied to ecological data: post-ice-storm-downed woody biomass. Ecological Monographs, 75, 451466.
  • Mayaux, P., Eva, H., Gallego, J., Strahler, A.H., Herold, M., Agrawal, S., Naumov, S., De Miranda, E.E., Di Bella, C.M., Ordoyne, C., Kopin, Y. & Roy, P. (2006) Validation of the global land cover 2000 map. IEEE Transactions on Geoscience and Remote Sensing, 44, 17281739.
  • Moorcroft, P.R., Hurtt, G.C. & Pacala, S.W. (2001) A method for scaling vegetation dynamics: the ecosystem demography model (ED). Ecological Monographs, 71, 557585.
  • Neumann, M., Saatchi, S.S., Ulander, L.M.H. & Fransson, J.E.S. (2012) Assessing performance of L- and P-Band polarimetric interferometric SAR data in estimating boreal forest above-ground biomass. IEEE Transactions on Geoscience and Remote Sensing, 50, 714726.
  • Olson, D.M., Dinerstein, E., Wikramanayake, E.D., Burgess, N.D., Powell, G.V.N., Underwood, E.C., D'Amico, J.A., Itoua, I., Strand, H.E., Morrison, J.C., Loucks, C.J., Allnutt, T.F., Ricketts, T.H., Kura, Y., Lamoreux, J.F., Wettengel, W.W., Hedao, P. & Kassem, K.R. (2001) Terrestrial ecoregions of the world: a new map of life on Earth. Bioscience, 51, 933938.
  • Pan, Y., Birdsey, R.A., Fang, J., Houghton, R., Kauppi, P.E., Kurz, W.A., Phillips, O.L., Shvidenko, A., Lewis, S.L., Canadell, J.G., Ciais, P., Jackson, R.B., Pacala, S.W., McGuire, A.D., Piao, S., Rautiainen, A., Sitch, S. & Hayes, D. (2011) A large and persistent carbon sink in the world's forests. Science, 333, 988993.
  • Patenaude, G., Hill, R.A., Milne, R., Gaveau, D.L.A., Briggs, B.B.J. & Dawson, T.P. (2004) Quantifying forest above ground carbon content using LiDAR remote sensing. Remote Sensing of Environment, 93, 368380.
  • Pinheiro, J. & Bates, D. (2000) Mixed-effects models in S and S-PLUS. Springer, New York.
  • Randerson, J.T., Hoffman, F.M., Thornton, P.E., Mahowald, N.M., Lindsay, K., Lee, Y.-H., Nevison, C.D., Doney, S.C., Bonan, G., Stöckli, R., Covey, C., Running, S.W. & Fung, I.Y. (2009) Systematic assessment of terrestrial biogeochemistry in coupled climate–carbon models. Global Change Biology, 15, 24622484.
  • Ranson, K.J., Sun, G., Lang, R.H., Chauhan, N.S., Cacciola, R.J. & Kilic, O. (1997) Mapping of boreal forest biomass from spaceborne synthetic aperture radar. Journal of Geophysical Research, 102, 2959929610.
  • Saatchi, S.S., Houghton, R.A., Alvala, R.C.D., Soares, J.V. & Yu, Y. (2007) Distribution of aboveground live biomass in the Amazon Basin. Global Change Biology, 13, 816837.
  • Saatchi, S.S., Harris, N.L., Brown, S., Lefsky, M., Mitchard, E.T., Salas, W., Zutta, B.R., Buermann, W., Lewis, S.L., Hagen, S., Petrova, S., White, L., Silman, M. & Morel, A. (2011) Benchmark map of forest carbon stocks in tropical regions across three continents. Proceedings of the National Academy of Sciences USA, 108, 98999904.
  • Santoro, M., Beer, C., Cartus, O., Schmullius, C., Shvidenko, A., McCallum, I., Wegmüller, U. & Wiesmann, A. (2011) Retrieval of growing stock volume in boreal forest using hyper-temporal series of Envisat ASAR ScanSAR backscatter measurements. Remote Sensing of Environment, 115, 490507.
  • Santoro, M., Cartus, O., Fransson, J.E.S., Shvidenko, A., McCallum, I., Hall, R.J., Beaudoin, A., Beer, C. & Schmullius, C. (2013) Estimates of forest growing stock volume for Sweden, Central Siberia and Québec using Envisat Advanced Synthetic Aperture Radar backscatter data. Remote Sensing, 5, 45034532.
  • Saugier, B., Roy, J. & Mooney, H.A. (2001) Estimations of global terrestrial productivity: converging toward a single number? Terrestrial global productivity (ed. by J. Roy , B. Saugier and H.A. Mooney ), pp. 543557. Academic Press, San Diego, CA.
  • Schepaschenko, D., Shvidenko, A. & Nilsson, S. (1998) Phytomass (live biomass) and carbon of Siberian forests. Biomass and Bioenergy, 14, 2131.
  • Schepaschenko, D., McCallum, I., Shvidenko, A., Fritz, S., Kraxner, F. & Obersteiner, M. (2011) A new hybrid land cover dataset for Russia: a methodology for integrating statistics, remote sensing and in situ information. Journal of Land Use Science, 6, 245259.
  • Shinozaki, K., Yoda, K., Hozumi, K. & Kira, T. (1964) A quantitative analysis of plant form – the pipe model theory. I. Basic analyses. Japanese Journal of Ecology, 14, 97105.
  • Shvidenko, A., Schepaschenko, D., Nilsson, S. & Bouloui, Y. (2007) Semi-empirical models for assessing biological productivity of northern Eurasian forests. Ecological Modelling, 204, 163179.
  • Shvidenko, A., Schepaschenko, D., McCallum, I. & Nilsson, S. (2010) Can the uncertainty of full carbon accounting of forest ecosystems be made acceptable to policymakers? Climatic Change, 103, 137157.
  • Somogyi, Z., Teobaldelli, M., Federici, S., Matteucci, G., Pagliari, V., Grassi, G. & Seufert, G. (2008) Allometric biomass and carbon factors database. iForest – Biogeosciences and Forestry, 1, 107113.
  • Taylor, J.R. (1997) An introduction to error analysis. The study of uncertainties in physical measurements. University Science Books, Sausalito, CA.
  • Teobaldelli, M., Somogyi, Z., Migliavacca, M. & Usoltsev, V.A. (2009) Generalized functions of biomass expansion factors for conifers and broadleaved by stand age, growing stock and site index. Forest Ecology and Management, 257, 10041013.
  • Thomas, S.C. & Martin, A.R. (2012) Carbon content of tree tissues: a synthesis. Forests, 3, 332352.
  • UN-REDD (2011) UN-REDD Programme. Support to National REDD+ Action. Global Programme Framework 2011–2015. Adopted as of 9 August 2011. The United Nations Collaborative Programme on Reducing Emissions from Deforestation and Forest Degradation in Developing Countries.
  • USDA (2012) Forest inventory and analysis national program. United States Department of Agriculture. Available at: http://www.fia.fs.fed.us/ (accessed 7 November 2012).
  • Wagner, W., Luckman, A., Vietmeier, J., Tansey, K., Balzter, H., Schmullius, C., Davidson, M., Gaveau, D., Gluck, M., Le Toan, T., Quegan, S., Shvidenko, A., Wiesmann, A. & Yu, J.J. (2003) Large-scale mapping of boreal forest in Siberia using ERS tandem coherence and JERS backscatter data. Remote Sensing of Environment, 85, 125144.
  • Wolf, A., Ciais, P., Bellassen, V., Delbart, N., Field, C.B. & Berry, J.A. (2011) Forest biomass allometry in global land surface models. Global Biogeochemical Cycles, 25, GB3015. doi:10.1029/2010GB003917.
  • Wood, S.N. (2006) Generalized additive models: an introduction with R. Chapman & Hall/CRC Press, Boca Raton, FL.
  • Wutzler, T., Wirth, C. & Schumacher, J. (2008) Generic biomass functions for common beech (Fagus sylvatica) in central Europe: predictions and components of uncertainty. Canadian Journal of Forest Research, 38, 16611675.
  • Zanne, A.E., Lopez-Gonzalez, G., Coomes, D.A., Ilic, J., Jansen, S., Lewis, S.L., Miller, R.B., Swenson, N.G., Wiemann, M.C. & Chave, J. (2009) Data from: towards a worldwide wood economics spectrum. Dryad Digital Repository. Available at: http://datadryad.org/handle/10255/dryad.234 (accessed 2 November 2011).
  • Zianis, D., Muukkonen, P., Mäkipää, R. & Mencuccini, M. (2005) Biomass and stem volume equations for tree species in Europe. Silva Fennica Monographs, 4, 63.
  • Zuur, A.F., Ieno, E.N., Walker, N.J., Saveliev, A.A. & Smith, G.M. (2009) Mixed effects models and extensions in ecology with R. Springer, New York.