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References

  • Allen, R.B., Clinton, P.W. & Davis, M.R. (1997) Cation storage and availability along a Nothofagus forest development sequence in New Zealand. Canadian Journal of Forest Research – Revue Canadienne de Recherche Forestiere, 27, 323330.
  • Amiro, B.D., Orchansky, A.L., Barr, A.G., Black, T.A., Chambers, S.D., Chapin, F.S., Gouldenf, M.L., Litvakg, M., Liu, H.P., McCaughey, J.H., McMillan, A. & Randerson, J.T. (2006) The effect of post-fire stand age on the boreal forest energy balance. Agricultural and Forest Meteorology, 140, 4150.
  • Aragao, L., Shimabukuro, Y.E., Santo, F. & Williams, M. (2005) Landscape pattern and spatial variability of leaf area index in Eastern Amazonia. Forest Ecology and Management, 211, 240256.
  • Beerling, D. & Woodward, F.I. (2001) Vegetation and the Terrestrial Carbon Cycle: The First 400 Million Years. Cambridge University Press, Cambridge.
  • Begon, M., Townsend, C.R. & Harper, J.L. (2004) Ecology: From Individuals to Ecosystems, 4th edn. Blackwell Publishing Limited, Oxford.
  • Binkley, D., Smith, F.W. & Son, Y. (1995) Nutrient supply and declines in leaf-area and production in lodgelarge sapling pine. Canadian Journal of Forest Research – Revue Canadienne de Recherche Forestiere, 25, 621628.
  • Bond-Lamberty, B., Wang, C. & Gower, S.T. (2002a) Aboveground and belowground biomass and sapwood area allometric equations for six boreal tree species of northern Manitoba. Canadian Journal of Forest Research – Revue Canadienne de Recherche Forestiere, 32, 14411450.
  • Bond-Lamberty, B., Wang, C., Gower, S.T. & Norman, J. (2002b) Leaf area dynamics of a boreal black spruce fire chronosequence. Tree Physiology, 22, 9931001.
  • Brown, J.H., Gillooly, J.F., Allen, A.P., Savage, V.M. & West, G.B. (2004) Toward a metabolic theory of ecology. Ecology, 85, 17711789.
  • Chase, T.N., Pielke, R.A., Kittel, T.G.F., Nemani, R. & Running, S.W. (1996) Sensitivity of a general circulation model to global changes in leaf area index. Journal of Geophysical Research – Atmospheres, 101, 73937408.
  • Chen, J.M., Rich, P.M., Gower, S.T, Norman J.M. & Plummer, S. (1997) Leaf area index of boreal forests: theory, techniques, and measurements. Journal of Geophysical Research, 102, 2942929443.
  • Clinton, P.W., Allen, R.B. & Davis, M.R. (2002) Nitrogen storage and availability during stand development in a New Zealand Nothofagus forest. Canadian Journal of Forest Research – Revue Canadienne de Recherche Forestiere, 32, 344352.
  • Coomes, D.A. (2006) Challenges to the generality of WBE theory. Trends in Ecology and Evolution, 21, 594596.
  • Coomes, D.A. & Allen, R.B. (2007) Mortality and tree-size distributions in natural mixed-age forests. Journal of Ecology, 95, 2740.
  • Davis, M.R., Allen, R.B. & Clinton, P.W. (2004) The influence of N addition on nutrient content, leaf carbon isotope ratio, and productivity in a Nothofagus forest during stand development. Canadian Journal of Forest Research – Revue Canadienne de Recherche Forestiere, 34, 20372048.
  • Day, M.E., Greenwood, M.S. & White, A.S. (2001) Age-related changes in foliar morphology and physiology in red spruce and their influence on declining photosynthetic rates and productivity with tree age. Tree Physiology, 21, 11951204.
  • Deblonde, G., Penner, M. & Royer, A. (1994) Measuring leaf-area index with the Li-Cor LAI-2000 in pine stands. Ecology, 75, 15071511.
  • Duursma, R.A. & Robinson, A.P. (2003) Bias in the mean tree model as a consequence of Jensen's Inequality. Forest Ecology and Management, 186, 373380.
  • England, J.R. & Attiwill, P.M. (2006) Changes in leaf morphology and anatomy with tree age and height in the broadleaved evergreen species, Eucalyptus regnans F. Muell. Trees – Structure and Function, 20, 7990.
  • Enquist, B.J. (2002) Universal scaling in tree and vascular plant allometry: toward a general quantitative theory linking plant form and function from cells to ecosystems. Tree Physiology, 22, 10451064.
  • Enquist, B.J., Brown, J.H. & West, G.B. (1998) Allometric scaling of plant energetics and population density. Nature, 395, 163165.
  • Goulden, M.L., Winston, G.C., McMillan, A.M.S., Litvak, M.E., Read, E.L., Rocha, A.V. & Elliot, J.R. (2006) An eddy covariance mesonet to measure the effect of forest age on land–atmosphere exchange. Global Change Biology, 12, 21462162.
  • Gower, S.T., McMurtrie, R.E. & Murty, D. (1996) Aboveground net primary production decline with stand age: potential causes. Trends in Ecology and Evolution, 11, 378382.
  • Harcombe, P., Allen, R.B., Wardle, J.A. & Platt, K.H. (1998) Spatial and temporal patterns in structure, biomass, growth, and mortality in a monospecific Nothofagus solandri var. cliffortioides forest in New Zealand. Journal of Sustainable Forestry, 6, 313345.
  • Hirose, T. (2005) Development of the Monsi–Saeki theory on canopy structure and function. Annals of Botany, 95, 483494.
  • Hollinger, D.Y. (1989) Canopy organization and foliage photosynthetic capacity in a broad-leaved evergreen montane forest. Functional Ecology, 3, 5362.
  • Hutchings, M.J. & Budd, C.S.J. (1981) Plant self-thinning and leaf-area dynamics in experimental and natural monocultures. Oikos, 36, 319325.
  • Irvine, J., Law, B.E., Kurpius, M.R., Anthoni, P.M., Moore, D. & Schwarz, P.A. (2004) Age-related changes in ecosystem structure and function and effects on water and carbon exchange in ponderosa pine. Tree Physiology, 24, 753763.
  • Kashian, D.M., Turner, M.G. & Romme, W.H. (2005) Variability in leaf area and stemwood increment along a 300-year lodgelarge sapling pine chronosequence. Ecosystems, 8, 4861.
  • Kerkhoff, A.J. & Enquist, B.J. (2006) Ecosystem allometry: the scaling of nutrient stocks and primary productivity across plant communities. Ecology Letters, 9, 419427.
  • Kitajima, K., Mulkey, S.S. & Wright, S.J. (2005) Variation in crown light utilisation characteristics among tropical canopy trees. Annals of Botany, 95, 535547.
  • Koch, G.W., Sillett, S.C., Jennings, G.M. & Davis, S.D. (2004) The limits to tree height. Nature, 428, 851854.
  • Kostner, B., Falge, E. & Tenhunen, J.D. (2002) Age-related effects on leaf area/sapwood area relationships, canopy transpiration and carbon gain of Norway spruce stands (Picea abies) in the Fichtelgebirge, Germany. Tree Physiology, 22, 567574.
  • Long, J.N. & Smith, F.W. (1984) Relation between size and density in developing stands – a description and possible mechanisms. Forest Ecology and Management, 7, 191206.
  • Long, J.N. & Smith, F.W. (1992) Volume increment in Pinus contorta var latidolia – the influence of stand development and crown dynamics. Forest Ecology and Management, 53, 5364.
  • Lonsdale, W.M. (1990) The self-thinning rule – dead or alive. Ecology, 71, 13731388.
  • Lonsdale, W.M. & Watkinson, A.R. (1982) Light and self-thinning. New Phytologist, 90, 431445.
  • Martin, T.J. & Ogden, J. (2006) Wind damage and response in New Zealand forests: a review. New Zealand Journal of Ecology, 30, 295310.
  • McCracken, I.J. (1980) Mountain climate in the Craigieburn Range, New Zealand. Mountain Environments and Subalpine Growth (eds U.Benecke & M.R.Davis), pp. 4159. N.Z. For. Ser. Res. Inst. Tech. Paper No. 70.
  • Meng, S.X., Rudnicki, M., Lieffers, V.J., Reid, D.E.B. & Silins, U. (2006) Preventing crown collisions increases the crown cover and leaf area of maturing lodgelarge sapling pine. Journal of Ecology, 94, 681686.
  • Midgley, J.J. (2001) Do mixed-species mixed-size indigenous forests also follow the self-thinning line? Trends in Ecology and Evolution, 16, 661662.
  • Niinemets, U. (1999) Components of leaf dry mass per area – thickness and density – alter leaf photosynthetic capacity in reverse directions in woody plants. New Phytologist, 144, 3547.
  • Niinemets, U., Cescatti, A. & Christian, R. (2004) Constraints on light interception efficiency due to shoot architecture in broad-leaved Nothofagus species. Tree Physiology, 24, 617630.
  • Osawa, A. & Allen, R.B. (1993) Allometric theory explains self-thinning relationships of mountain beech and red pine. Ecology, 74, 10201032.
  • Osawa, A. & Sugita, S. (1989) The self-thinning rule – another interpretation of Wellers results. Ecology, 70, 279283.
  • Pearcy, R.W., Ehleringer, J., Mooney, H.A. & Rundel, P.W. (1991) Plant Physiological Ecology: Field Methods and Instrumentation. Chapman and Hall, London.
  • Peet, R.K. (1992) Community structure and ecosystem function. Plant Succession: Theory and Prediction (eds D.C.Glenn-Lewin, R.K.Peet & T.T.Veblen), pp. 103151. Chapman and Hall, London.
  • Raddatz, R.L. (2007) Evidence for the influence of agriculture on weather and climate through the transformation and management of vegetation: illustrated by examples from the Canadian Prairies. Agricultural and Forest Meteorology, 142, 186202.
  • Roderick, M.L. & Barnes, B. (2004) Self-thinning of plant populations from a dynamic viewpoint. Functional Ecology, 18, 197203.
  • Ryan, M.G., Binkley, D. & Fownes, J.H. (1997) Age-related decline in forest productivity: pattern and process. Advances in Ecological Research, 27, 213262.
  • Terborgh, J. (1985) The vertical component of plant-species diversity in temperate and tropical forests. American Naturalist, 126, 760776.
  • Tobin, B., Black, K., Osborne, B., Reidy, B., Bolger, T. & Nieuwenhuis, M. (2006) Assessment of allometric algorithms for estimating leaf biomass, leaf area index and litter fall in different-aged Sitka spruce forests. Forestry, 79, 453465.
  • Turner, D.P., Acker, S.A., Means, J.E. & Garman, S.L. (2000) Assessing alternative allometric algorithms for estimating leaf area of Douglas-fir trees and stands. Forest Ecology and Management, 126, 6176.
  • Warton, D.I., Wright, I.J., Falster, D.S. & Westoby, M. (2006) Bivariate line-fitting methods for allometry. Biological Reviews, 81, 259291.
  • Weller, D.E. (1989) The interspecific size–density relationship among crowded plant stands and its implications for the −3/2 power rule of self-thinning. American Naturalist, 133, 2041.
  • Weller, D.E. (1990) Will the real self-thinning rule please stand up – a reply. Ecology, 71, 12041207.
  • White, J. (1981) The allometric interpretation of the self-thinning rule. Journal of Theoretical Biology, 89, 475500.
  • Williams, M., Malhi, Y., Nobre, A.D., Rastetter, E.B., Grace, J. & Pereira, M.G.P. (1998) Seasonal variation in net carbon exchange and evapotranspiration in a Brazilian rain forest: a modelling analysis. Plant Cell and Environment, 21, 953968.
  • Xiao, C.W., Janssens, I.A., Yuste, J.C. & Ceulemans, R. (2006) Variation of specific leaf area and upscaling to leaf area index in pole Scots pine. Trees – Structure and Function, 20, 304310.
  • Yoda, K.T., Kira, T., Ogawa, H. & Hozumi, K. (1963) Self-thinning in overcrowded pure stands under cultivated and natural conditions. Journal of Biology of Osaka City University, 14, 107129.