Free Access
Issue |
Ann. For. Sci.
Volume 58, Number 1, January 2001
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Page(s) | 1 - 13 | |
DOI | https://doi.org/10.1051/forest:2001104 |
References
-
- 1
- Baldocchi D., Valentini R., Running S., Oechel W., Dahlman R., Stategies for measuring and modeling carbon dioxide and water vapor fluxes over terrestrial ecosystems, Global Change Biol. 2 (1996) 159-168.
- 2
- Bartelink H.H., Allometric relationships for biomass and leaf area of beech (Fagus sylvatica L.), Ann. Sci. For. 54 (1997) 39-50.
- 3
- Bartelink H.H., A model of dry matter partitioning in trees, Tree Physiol. 18 (1998) 91-101.
- 4
- Baskerville G.L., Use of logarithmic regression in the estimation of plant biomass, Can. J. For. Res. 2 (1972) 49-53.
- 5
- Bauhus J., Bartsch N., Fine-root growth in beech (Fagus sylvatica) forest gaps, Can. J. For. Res. 26 (1996) 2153-2159.
- 6
- Birdsey R.A., Methods to estimate forest carbon storage, in: Sampson R.N., Hair D. (Eds.), Forests and global change, Vol. 1: Opportunities for increasing forest cover, American Forests, Washington D.C., 1992, pp. 255-261.
- 7
- Cannell M.G.R., Growing trees to sequester carbon in the UK: answers to some common questions, Forestry 72 (1999) 237-247.
- 8
- Drexhage M., Chauvière M., Colin F., Nielsen C.N.N., Development of structural root architecture and allometry of Quercus petraea, Can. J. For. Res. 29 (1999) 600-608.
- 9
- Drexhage M., Colin F., Estimating root system biomass from breast-height diameters using literature derived data, Forestry (submitted).
- 10
- Duchaufour Ph., Pédologie 1. Pédogénèse et Classification, 2nd edn., Masson, Paris, 1983.
- 11
- Duvigneaud P., Kestemont P., Productivité biologique en Belgique, Duculot, Gembloux, 1977, 617 p.
- 12
- Epron D., Farque L., Lucot E., Badot P.M., Soil CO2 efflux in a beech forest: the contribution of root respiration, Ann. For. Sci. 56 (1999) 289-295.
- 13
- Flewelling J.W., Pienaar L.V., Multiplicative regression with lognormal errors, For. Sci. 27 (1981) 281-289.
- 14
- Gallego H.A., Santa Regina I., Rico M., Biomass equations and nutrient distribution for Quercus pyrenaica Willd. Forests, Mésogée 53 (1993) 75-82.
- 15
- Gholz H.L., Grier C.C., Campbell A.G., Brown A.T., Equations for estimating biomass and leaf area of plants in the Pacific Northwest, Oreg. State Univ. For. Res. Lab., Research Paper No. 41, 1979.
- 16
- Gower S.T., Grier C.C., Vogt D.J., Vogt K.A., Allometric relations of deciduous (Larix occidentalis) and evergreen conifers (Pinus contorta and Pseudotsuga menziesii) of the Cascade Mountains in central Washington, Can. J. For. Res. 17 (1987) 630-634.
- 17
- Granier A., Ceschia E., Damesin C., Dufrêne E., Epron D., Gross P., Lebaube S., Le Dantec V., Le Goff N., Lemoine D., Lucot E., Ottorini J.-M., Pontailler J.Y., Saugier B., Carbon balance of a young beech forest over a two-year experiment, Funct. Ecol. 14 (2000) 312-325.
- 18
- Granier A., Biron P., Lemoine D., Water balance, transpiration and canopy conductance in two beech stands, Agric. For. Meteorol. 100 (2000) 291-308.
- 19
- Hendricks C.M.A., Bianchi F.J.J.A., Root density and root biomass in pure and mixed forest stands of Douglas-fir and Beech, Netherlands J. Agric. Sci. 43 (1995) 321-331.
- 20
- Krause C., Morin H., Changes in radial increment in stems and roots of balsam fir (Abies balsamea (L.) mill.) after defoliation by spruce budworm, For. Chron. 71 (1995) 747-754.
- 21
- Kurz W.A., Kimmins J.P., Analysis of some sources of error in methods used to determine fine root production in forest ecosystems: a simulation approach, Can. J. For. Res. 17 (1987) 909-912.
- 22
- Kurz W.A., Significance of shifts in carbon allocation patterns for long-term site productivity research, in: Dyck W.J., Mees C.A. (Eds.), Proceedings of IEA/BE A3 Workshop, Research strategies for long-term site productivity, Seattle, WA, August 1988, Report No. 8, Forest Research Institute, New Zealand, Bulletin 152 (1989).
- 23
- Kurz W.A., Beukema S.J., Apps M.J., Estimation of root biomass and dynamics for the carbon budget model of the Canadian forest sector, Can. J. For. Res. 26 (1996) 1973-1979.
- 24
- Lebaube S., Le Goff N., Ottorini J.-M., Granier A., Carbon balance and tree growth in a Fagus sylvatica stand, Ann. For. Sci. 57 (2000) 49-61.
- 25
- Leonardi S., Santa Regina I., Rapp M., Gallego H.A., Rico M., Biomass, litterfall and nutrient content in Castanea sativa coppice stands of southern Europe, Ann. Sci. For. 53 (1996) 1071-1081.
- 26
- MacClaugherty C.A., Aber J.D., The role of fine roots in the organic matter and nitrogen budgets of two forested ecosystems, Ecology 63 (1982) 1481-1490.
- 27
- Meyer F.H., Göttsche D., Distribution of root tips and tender roots of Beech, in: Integrated Experimental Ecology - Methods and Results of Ecosystem Research in the German Solling Project, Springer-Verlag, Berlin, 1971, pp. 48-52.
- 28
- Oliver C.D., Larson B.C., Overview of stand development patterns, in: Forest stand dynamics, John Wiley & Sons Inc., New York, 1996, pp. 145-170.
- 29
- Pellinen P., Biomasseuntersuchungen im Kalkbuchenwald, Dissertation Universität Göttingen, Germany, 1986, 134 p.
- 30
- Santantonio D., Hermann R.K., Overton W.S., Root biomass studies in forest ecosystems, Pedobiologia 17 (1977) 1-31.
- 31
- Santantonio D., Hermann R.K., Standing crop, production and turnover of fine roots on dry, moderate, and wet sites of mature Douglas-fir in Western Oregon, Ann. Sci. For. 42 (1985) 113-142.
- 32
- Santa Regina I., Tarazona T., Calvo R., Aboveground biomass in a beech forest and a Scots pine plantation in the Sierra de la Demanda area of northern Spain, Ann. Sci. For. 54 (1997) 261-269.
- 33
- Stober C., Eckart G.A., Persson H., Root growth and response to nitrogen, in: Schulze E.-D. (Ed.), Carbon and nitrogen cycling in European forest Ecosystems, Ecological Studies 142 (2000) Springer-Verlag, Heidelberg.
- 34
- Stokes A., Guitard D., Tree root response to mechanical stress, in: Altman A., Waisel Y. (Eds.), The biology of root formation and development, Basic Life Sciences, Plenum Publishing Corporation, New York, 65 (1997) 227-236.
- 35
- Thies W.G., Cunningham P.G., Estimating large-root biomass from stump and breast-height diameters for Douglas-fir in Western Oregon, Can. J. For. Res. 26 (1996) 237-243.
- 36
- Van Praag H.J., Sougnez-Remy S., Weissen F., Carletti G., Root turnover in a beech and a spruce stand of the Belgian Ardennes, Plant and Soil 105 (1988) 87-103.
- 37
- Wang J.R., Zhong A.L., Simard S.W., Kimmins J.P., Aboveground biomass and nutrient accumulation in an age sequence of paper birch (Betula papyrifera) in the Interior Cedar Hemlock zone, British Columbia, For. Ecol. Manage. 83 (1996) 27-38.
Abstract
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