Free access
Issue
Ann. For. Sci.
Volume 58, Number 1, January 2001
Page(s) 31 - 46
DOI http://dx.doi.org/10.1051/forest:2001105

References

1
Arneth A., Kelliher F.M., McSeveny T.M., Byers J.N., Net ecosystem productivity, net primary productivity and ecosystem carbon sequestration in a Pinus radiata plantation subject to soil water deficit, Tree Physiol. 18 (1998) 785-793.
2
Baeyens L., van Slycken J., Stevens D., Description of the soil profile in Brasschaat, Internal research paper, Institute for Forestry and Game Management, Geraardsbergen, Belgium, 1993.
3
Bristow K.L., Campbell G.S., On the relationship between incoming solar radiation and daily maximum and minimum temperature, Agric. For. Meteorol. 31 (1984) 159-166.
4
Cermak J., Riguzzi F., Ceulemans R., Scaling up from the individual tree to the stand level in Scots pine. I. Needle distribution, overall crown and root geometry, Ann. Sci. For. 55 (1998) 63-88.
5
Chung H.H., Barnes R.L., Photosynthate allocation in Pinus taeda. I. Substrate requirements for synthesis of shoot biomass, Can. J. For. Res. 7 (1977) 106-111.
6
de Pury D.G.G., Farquhar G.D., Simple scaling of photosynthesis from leaves to canopies without the errors of big-leaf models, Plant Cell Environ. 20 (1997) 537-557.
7
de Pury D.G.G., Ceulemans R., Scaling-up carbon fluxes from leaves to stands in a patchy coniferous/deciduous forest, in: Mohren G.M., Kramer K., Sabate S. (Eds.), Impacts of global change on tree physiology and forest ecosystems, Kluwer Academic Publishers, Dordrecht, 1997, pp. 263-272.
8
Farquhar G.D., von Caemmerer Berry J.A., A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species, Planta 149 (1980) 78-90.
9
Gond V., de Pury D.G.G., Veroustraete F., Ceulemans R., Seasonal variations in leaf area index, leaf chlorophyll, and water content; scaling-up to estimate fAPAR and carbon balance in a multilayer, multi-species temperate forest, Tree Physiol. 19 (1999) 673-679.
10
Goulden M.L., Munger J.W., Fan S.-M., Daube B.C., Wofsy S.C., Exchange of carbon dioxide by a deciduous forest: response to interannual climate variability, Science 271 (1996) 1576-1578.
11
Groenenberg B-J., Vires W.d., Kros H., Simulation of the long term carbon and nitrogen dynamics in Dutch forest soils under Scots pine, Hydrology Earth Systems Science 2 (1998) 439-449.
12
Janssens I.A., Schauvliege M., Samson R., Lust N., Ceulemans R., Studie van de koolstofbalans van, en de koolstofopslag in het Vlaamse bos, Study report UIA/RUG/AMINAL, Ministry of the Flemish Community, 1998 (in Dutch).
13
Janssens I.A., Sampson D.A., Cermak J., Meiresonne L., Riguzzi F., Overloop S., Ceulemans R., Above- and below-ground phytomass and carbon storage in a Belgian Scots pine stand, Ann. Sci. For. 56 (1999) 81-90.
14
Janssens I.A., Meiresonne L., Ceulemans R., Mean soil CO2 efflux from a mixed forest: temporal and spatial integration, in: Ceulemans R., Veroustraete F., Gond V., van Rensbergen J. (Eds.), Forest Ecosystem Modelling, Upscaling and Remote Sensing, SPB Academic Publishing, The Hague, 1999, pp. 19-33.
15
Jarvis P.G., Scaling processes and problems, Plant Cell Environ. 18 (1995) 1079-1089.
16
Kindermann J., Wurth G., Kohlmaier G.H., Badeck F.W., Interannual variation of carbon exchange fluxes in terrestrial ecosystems, Glob. Biogeochem. Cycles 10 (1996) 737-755.
17
Kohlmaier Badeck F.W., Otto R.D., Hager C., Donges S., Kinderman J., Wurth G., Lang T., Jakel U., Ramge P., Klaudius A., Habermehl S., Ludeke, M.K.B., The Frankfurt Biosphere Model: a global process-oriented model of seasonaland long-term CO2 exchange between terrestrial ecosystems and the atmosphere. II. Global results for potential vegetation in an assumed equilibrium state, Clim. Res. 8 (1997) 61-72.
18
Landsberg J.L., Kaufmann M.R., Binkley D., Isebrands J.G., Jarvis P.G., Evaluating progress toward closed forest models based on fluxes of carbon, water and nutrients, Tree Physiol. 9 (1991) 1-15.
19
Landsberg J.L., Waring R., A generalized model of forest productivity using simplified concepts of radiation-use efficiency, carbon balance and partitioning, For. Ecol. Manage. 95 (1997) 209-228.
20
Leuning R., A critical appraisal of a combined stomatal-photosynthesis model for C3 plants, Plant Cell and Env. 18 (1995) 339-355.
21
Lloyd J., Taylor J.A., On the temperature dependence of soil respiration, Func. Ecol. 8 (1995) 315-323.
22
Ludeke M.K.B., Badeck F.W., Otto R.D., Hager C., Donges S., Kinderman J., Wurth G., Lang T., Jakel U., Klaudius A., Ramge P., Habermehl S., Kohlmaier G.H., The Frankfurt biosphere model: a global process-oriented model of seasonal and long-term CO2 exchange between terrestrial ecosystems and the atmosphere. I. Model description and illustrative results for cold deciduous and boreal forests, Clim. Res. 4 (1994) 143-166.
23
McMurtrie R.E., Landsberg J.J., Using a simulation model to evaluate the effects of water and nutrients on the growth and carbon partitioning of Pinus radiata, For. Ecol. Manage. 52 (1992) 243-260.
24
Meiresonne L., Overloop S., Transpiratiebegroting van een grove dennenbestand: een eerste modelmatige benadering, Ministry of the Flemish Community, Institute for Forestry and Game Management, Belgium, 1999, pp. 103-119 (in Dutch).
25
Monsi M., Saeki, T., Uber den Lichtfaktor in den Pflanzengesellschaften und seine Bedeutung fur die Stoffproduktion, Jpn. J. Bot. 14 (1953) 22-52.
26
Myneni R.B., Keeling C.D., Tucker C.J., Asrar G., Nemani R.R., Increased plant growth in the northern high latitudes from 1981 to 1991, Nature 386 (1997) 698-702.
27
Nadelhoffer K.J., Raich J.W., Fine root production estimates and belowground carbon allocation in forest ecosystems, Ecology 73 (1992) 1139-1147.
28
Nay S.M., Mattson K.G., Bormann B.T., Biases of chamber methods for measuring soil CO2 efflux demonstrated with a laboratory apparatus, Ecology 75 (1994) 2460-2463.
29
Neirynck J., De Keersmaeker L., Meettoren Gontrode. Bosbodemmeetnet, Final report 1995, IBW-RUG, Belgium, 1996 (in Dutch).
30
Overloop S., Monitoring van de luchtkwaliteit in een dennenbos onder stedelijke invloed, Ministry of the Flemish Community, Institute for Forestry and Game Management, Belgium, 1999, pp. 77-88 (in Dutch).
31
Raich J.W., Potter C.S., Global patterns of carbon dioxide emissions from soils, Glob. Biogeochem. Cycles 9 (1995) 23-36.
32
Roskams P., Sioen G., Overloop S., Meetnet voor de intensive monitoring van het bosecosysteem in het Vlaamse Gewest - resultaten 1991-1992, Ministry of the Flemish Community, Institute for Forestry and Game Management, Belgium, 1997 (in Dutch).
33
Ryan M.G., Linder S., Vose J.M., Hubbard R.M., Dark respiration of pines, Ecol. Bull. 43 (1994) 50-63.
34
Ryan M.G., Yoder B.J., Hydraulic limits to tree height and tree growth, BioScience. 47 (1997) 235-242.
35
Ryan M.G., Hubbard R.M., Pongracic S., Raison R.J., McMurtrie R.E., Foliage, fine-root, woody-tissue and stand respiration in Pinus radiata in relation to nitrogen status, Tree Physiol. 16 (1996) 333-343.
36
Sampson D.A., Cooter E.J., Dougherty P.M., Allen H.L., Comparison of the UKMO and GFDL GCM climate projections in simulations of NPP for southeastern loblolly pine stands, Clim. Res. 7 (1996) 55-69.
37
Sampson D.A., Ceulemans R., Secrets: Simulated carbon fluxes from a mixed coniferous/deciduous Belgian forest, in: Ceulemans R., Veroustraete F., Gond V., van Rensbergen J. (Eds.), Forest Ecosystem Modelling, Upscaling and Remote Sensing, SPB Academic Publishing, The Hague, 1999, pp. 95-108.
38
Saxton K.E., Rawls W.J., Romberger J.S., Papendick R.I., Estimating generalized soil-water characteristics from texture, Soil Sci. Soc. Am. J. 50 (1986) 1031-1036.
39
Sinclair T.R., Knoerr K.R., Distribution of photosynthetically active radiation in the canopy of a loblolly pine plantation, J. Appl. Ecol. 19 (1982)183-191.
40
Sprugel D.G., Ryan M.G., Brooks J.R., Vogt K.A., Martin T.A., Respiration from the organ level to the stand, in: Smith W.K., Hinkley T.M. (Eds.), Resource Physiology of Conifers. Acquisition, Allocation, and Utilization, Academic Press, Inc., San Diego, 1995, pp. 255-291.
41
Stanners D., Bourdeau P., Europe's environment - the dobris assessment, European Environment Agency, Copenhagen, 1995.
42
Sterba H., Forest decline and growth trends in central Europe - a review, in: Spiecker H., Mielikainen K., Kohl M., Skovsgaard (Eds.), Growth Trends in European Forests: studies from 12 countries, Springer-Verlag, Berlin, 1996, pp. 149-166.
43
Spitters C.J.T., Toussaint H.A.J.M., Goudriaan J., Separating the diffuse and direct component of global radiation and its implications for modeling canopy photosynthesis Part I. Components of incoming radiaiton, Agric. For. Meteorol. 38 (1986) 217-229.
44
Steffen W., Noble I., Canadell J., Apps M., Schulze E.-D., Jarvis P.G., Baldocchi D., Ciais P., Cramer W., Ehleringer J., Farquhar G., Field C.B., Ghazi A., Gifford R., Heimann M., Houghton R., Kabat P., Korner C., Lambin E., Linder S., Mooney H.A., Murdiyarso D., Post W.M., Prentice I.C., Raupach M.R., Schimel D.S., Shvidenko A., Valentini R., The terrestrial carbon cycle: implications for the Kyoto Protocol, Science 2809 (1998) 1393-1394.
45
Thornley J.M., Grasslands Dynamics: an ecosystem simulation model, CAB International, Wallingford, 1998, 241 p.
46
Valentini R., Matteucci G., Dolman A.J., Schulze E.-D., Rebmann C., Moors E.J., Granier A., Gross P., Jenson N.O., Pilegaard K., Lindroth A., Grelle A., Bernhofer C., Grunwald T., Aubinet M., Ceulemans R., Kowalski A.S., Vesala T., Runnik U., Berbigler P., Loustau D., Guomundsson J., Thorgelrsson H., Ibrom A., Morgenstern K., Clement R., Moncrieff J., Montagnani L., Minerbi S., Jarvis P., Respiration as the main determinant of carbon balance in European forests, Nature 404 (2000) 861-865.
47
van den Berge K., Maddelein D., de Vos B., Roskams P., Analyse van de luchtverontreiniging en de gevolgen daarvan op het bosecosysteem, Study report No. 19 of AMINAL, Ministry of the Flemish Community, 1992 (in Dutch).
48
Waring R.H., Landsberg J.J., Williams M., Net primary production of forests: a constant fraction of gross primary productivity?, Tree Physiol. 18 (1998) 129-134.


Abstract

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