Free Access
Issue
Ann. For. Sci.
Volume 57, Number 5-6, June-September 2000
Second International Workshop on Functional-Structural Tree Models
Page(s) 571 - 585
DOI https://doi.org/10.1051/forest:2000143

References

1
Balandier P., Étude dynamique de la croissance et du développement des bourgeons de quelques cultivars de pêcher cultivés à diverses altitudes sous le climat tropical de l'île de la Réunion, Ph.D. Thesis, Université de Clermont-Ferrand II, France, 1992, 90 pp. + ann.
2
Balandier P., A method to evaluate needs and efficiency of formative pruning of fast-growing broad-leaved trees and results of an annual pruning, Can. J. For. Res. 27, 6 (1997) 809-816.
3
Balandier P., Bonhomme M., Rageau R., Capitan F., Parisot E., Leaf bud endodormancy release in peach trees: evaluation of temperature models in temperate and tropical climates, Agric. For. Meteor. 67 (1993) 95-113.
4
Balandier P., Le Dizès S., Jacquet P., Cruiziat P., Formation de la bille de pied en culture d'arbres à bois précieux, DERF convention report, Cemagref, Clermont-Ferrand, France (1996), 83 pp.
5
Barczi J.F., Reffye (De) P., Caraglio Y., Essai sur l'identification et la mise en \oeuvre des paramètres nécessaires à la simulation d'une architecture végétale, In Modélisation et simulation de l'architecture des végétaux, Bouchon J., De Reffye P., Barthélémy D. (Eds.), INRA Ed., Versailles, France, Coll. Science Update, 1997, pp. 205-254.
6
Bartelink H.H., A model of dry matter partitioning in trees, Tree Physiol. 18 (1998) 91-101.
7
Bouchon J., Houllier F., Une brève histoire de la modélisation de la production des peuplements forestiers : place des méthodes architecturales, In Architecture des arbres fruitiers et forestiers, Montpellier, France, 1993/11/23-25, INRA Ed., Paris, Les colloques 74 (1995) 17-25.
8
Boussoualine H., Amélioration d'INCA, outil de simulation de la croissance de l'arbre, mémoire ISIMA et DEA informatique, Clermont-Ferrand, France, 1997, 70 pp. + ann.
9
Canell M.G.R., Dewar R.C., Carbon allocation in trees: a review of concepts for modelling. In: Begon M. and Fitter A.H. (Eds.), Advances in ecological research, Academic Press, London, 1994, pp. 59-104.
10
Champagnat P., Rest and activity in vegetative buds of trees, Ann. Sci. For. 46 Suppl. (1989) 9-26.
11
Cluzeau C., Dupouey J.L., Courbaud B., Polyhedral representation of crown shape. A geometric tool for growth modelling, Ann. Sci. For. 52 (1995) 297-306.
12
Cooper A.J., Root temperature and plant growth, Research Review No. 4, Commonwealth Agricultural Bureaux, 1973, 73 pp.
13
Courbaud B., Modélisation de la croissance en forêt irrégulière. Perspectives pour les pessières irrégulières de montagne, Rev. For. Fr. 47 (No. sp.) (1995) 173-182.
14
Courbaud B., Process-based vs. empirical tree growth models: is light interception a better predictor of tree growth than stand basal area?, Tree Physiol., in press.
15
De Reffye P., Houllier F., Modelling plant growth and architecture. Some recent advances and applications to agronomy and forestry, Current Sci. 73, 11 (1997) 984-992.
16
De Reffye P., Houllier F., Blaise F., Fourcaud T., Essai sur les relations entre l'architecture d'un arbre et la grosseur de ses axes végétatifs, in: Modélisation et simulation de l'architecture des végétaux, Bouchon J., De Reffye P., Barthélémy D. (Eds.), INRA Ed., Versailles, France, Coll. Science Update, 1997, pp. 255-424.
17
Dewar R.C., A simple model of light and water use evaluated for Pinus radiata, Tree Physiol. 17 (1997) 259-265.
18
Doehlert D.C., Chourey P.S., Possible roles of sucrose synthase in sink function, in Bonnemain J.L., Delrot S., Lucas W.L., Dainty J. (Eds.), Recent advances in phloem transport and assimilates compartmentation, 1991, pp. 187-193.
19
Doussan C., Pagès L., Vercambres G., Modelling of the hydraulic architecture of root systems: an integrated approach to water absorption - model description, Ann. Bot. 81 (1998) 213-223.
20
Escobar-Gutiérrez A.J., Daudet F.A., Gaudillère J.P., Maillard P., Frossard J.S., Modelling of allocation and balance of carbon in walnut (Juglans regia L.) seedlings during heterotrophy-autotrophy transition, J. Theor. Biol. 194 (1998) 29-47.
21
Farquhar G.D., Caemmerer von S., Berry J.A., A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species, Planta 149 (1980) 78-90.
22
Fournier C., Andrieu B., A 3D architectural and process-based model of maize development, Ann. Bot. 81 (1998) 233-250.
23
Gary C., Jones J.W., Tchamitchian M., Crop modelling in horticulture: state of the art, Scientia Horticult. 74 (1998) 3-20.
24
Génard M., Pagès L., Kervella J., A carbon balance model of peach tree growth and development for studying the pruning response, Tree Physiol. 18 (1998) 351-362.
25
Goudriaan J., Crop micrometeorology. A simulation study, Simulation monographs, Centre for Agricultural Publishing and Documentation, Wageningen, 1977.
26
Harley P.C., Thomas R.B., Reynolds J.F., Strain B.R., Modelling photosynthesis of cotton grown in elevated CO2, Plant Cell Env. 15 (1992) 271-282.
27
Houllier F., Leban J.M., Colin F., Linking growth modelling to timber quality assessment for Norway spruce, For. Ecol. Man. 74 (1995) 91-102.
28
Jacquet P., INCA: Outil d'intégration spécialisé dans l'étude de l'arbre, mémoire CNAM, Clermont-Ferrand, France (1996), 120 pp. + ann.
29
Jarvis, P.G., The interpretation of the variation in leaf water potential and stomatal conductance found in canopies in the field, Phil. Trans. R. Soc. London B 273 (1976) 593-610.
30
Johnson I.R., Thornley J.H.M., Temperature dependence of plant and crop processes, Ann Bot. 55, 1 (1985) 1-24.
31
Kajji A., Carbon economy in young walnut (in French), Ph.D. Thesis, University Clermont-Ferrand 2, France, 1992, 77 pp.
32
Knowe S.A., Ahrens G.R., DeBell D.S., Comparison of diameter-distribution-prediction, stand-table-projection, and individual-tree-growth modeling approaches for young red alder plantations, For. Ecol. Manage. 98 (1997) 49-60.
33
Korol R.L., Milner K.S., Running S.W., Testing a mechanistic model for predicting stand and tree growth, For. Sci. 42, 2 (1996) 139-153.
34
Lacointe A., Carbon allocation among tree organs: a review of basic processes and representation, Ann. For. Sci. 57 (2000) 521-533.
35
Lacointe A., Kajji A., Daudet F.A., Archer P., Frossard J.S., Seasonal variation of photosynthetic carbon flow rate into young walnut and its partitioning among the plant organs and functions, J. Plant Physiol. 146 (1995) 222-230.
36
Lacointe A., Gary C., Demotes-Mainard S., Vandame M., La répartition des assimilats dans la plante: faits et hypothèse, in: Cruiziat P., Lagouarde J.P. (Eds.), École-chercheur du département de Bioclimatologie, Tome 1 : De la plante au couvert, INRA, Département de Bioclimatologie, Thivernal-Grignon, France, 1996, 155-180.
37
Le Dizès S., Modélisation des relations structure-fonction du noyer; application à la taille, Ph.D. Thesis, University of Orsay, France, 1998, 205 pp. + ann.
38
Le Dizès S., Martin-Clouaire R., Jacquet P., Cruiziat P., A knowledge-based system for simulating structure-function relationships in walnut tree growth processes, in: Proceedings of Information and communication technology application in Agriculture, Wageningen, The Netherlands, 1996/06/16-19, WICC-IAC, Computers and Electronics in Agriculture, 1996, pp. 315-321.
39
Le Dizès S., Cruiziat P., Lacointe A., Sinoquet H., Le Roux X., Balandier P., Jacquet P., A model for simulating structure-function relationships in walnut tree growth processes, Silva Fenn. 31, 3 (1997) 313-328.
40
Le Roux X., Sinoquet H., Vandame M., Spatial distribution of leaf dry weight per area and leaf nitrogen content in relation to local radiation regime within an isolated tree crown, Tree Physiol. 19 (1999) 181-188.
41
Le Roux X., Grand S., Dreyer E., Daudet F.A., Parameterisation and testing of a biochemically based photosynthesis model for walnut (Juglans regia L.) trees and seedlings, Tree Physiol. (1999) 481-492.
42
Mauget J.C., Comportement comparé des bourgeons de l'année et des bourgeons latents chez le noyer (Juglans regia L., cv. "Franquette"). Conséquence sur la morphogénèse de l'arbre, Agronomie 4, 6 (1984) 507-515.
43
Mauget J.C., Frizot N., Guinard J., Effect of time and position of summer pruning on the release from inhibition of the axillary buds of walnut sprouts, In: International walnut meeting, Tarragona, Spain, 1991/10, Acta Hort. 311 (1993) 210-216.
44
Morris D.M., Kimmins J.P., Duckert D.R., The use of soil organic matter as a criterion of the relative sustainability of forest management alternatives: a modelling approach using FORECAST, For. Ecol. Manage. 94 (1997) 61-78.
45
Norman J.M., Welles J.M., Radiative transfer in an array of canopies, Agron. J. 75 (1983) 481-488.
46
Pagès L., Doussan C., Vercambre G., Below-ground environment and ressource acquisition. Simulation models should include plant structure and function, Ann. For. Sci. 57 (2000) 513-520.
47
Penning de Vries F.W.T., The cost of maintenance processes in plant cells, Ann. Bot. 39 (1975) 77-92.
48
Perttunen J., Sievänen R., Nikinmaa E., Salminen H., Saarenmaa H., Väkevä J., LIGNUM: a tree model based on simple structural units, Ann. Bot. 77 (1996) 87-98.
49
Perttunen J., Sievänen R., Nikinmaa E., LIGNUM: a model combining the structure and the functioning of trees, Ecol. Modelling 108 (1998) 189-198.
50
Pinkard E.A., Beadle C.L., Davidson N.J., Battaglia M., Photosynthetic light responses of Eucalyptus nitens (Deane and Maiden) Maiden to green pruning, Trees 12 (1998) 119-129.
51
Rageau R., Étude expérimentale des lois d'action de la température sur la croissance des bourgeons floraux du pêcher (Prunus persica L. Batsch) pendant la post-dormance, C. R. Acad. Agric. Fr. 68, 9 (1982) 709-718.
52
Rauscher H.M., Isebrands J.G., Host G.E., Dickson R.E., Dickmann D.I., Crow T.R., Michael D.A., ECOPHYS: An ecophysiological growth process model for juvenile poplar, Tree Physiol. 7 (1990) 255-281.
53
Richardson E.A., Seeley S.D., Walker D.R., A model for estimating the completion of rest for Redhaven and Elberta peach trees, Hortsci. 9, 4 (1974) 331-332.
54
Riedacker A., Rythmes de croissance et de régénération des racines des végétaux ligneux, Ann. Sci. For. 33, 3 (1976) 109-138.
55
Ross J.K., The radiation regime and the architecture of plant stands, The Hague: Junk W. Pubs, 1981.
56
Ruget F., Respiration de croissance et d'entretien : méthodes de mesure, comparaison des résultats, Agronomie 7 (1981) 601-610.
57
Sievänen R., Nikinmaa E., Nygren P., Ozier-Lafontaine H., Perttunen J., Hakula H., Components of a functional-structural tree model, Ann. For. Sci. 57 (2000) 399-412.
58
Sinoquet H., Le Roux X., Short term interactions between tree foliage and the aerial environment: An overview of modelling approaches available for tree structure-function models, Ann. For. Sci. 57 (2000) 477-496.
59
Snowdon P., Woollons R.C., Benson M.L., Incorporation of climatic indices into models of growth of Pinus radiata in a spacing experiment, New For. 16 (1998) 101-123.
60
Spiecker H., Mielikainen K., Kohl M., Skovsgaard J.P., Growth trends in European forests, in Spiecker H., Kohl M., Mielikainen K., Skovsgaard J.P. (Eds.), European Forest Institute, Springer-Verlag, Berlin, Heidelberg, New York, pp. 355-367.
61
Thaler P., Pagès L., Modelling the influence of assimilate availability on root growth and architecture, Plant Soil 201 (1998) 307-320.
62
Thornley J.H.M., Respiration, growth and maintenance in plants, Nature 227 (1970) 304-305.
63
Thornley J.H.M., Modelling shoot-root relations: the only way forwards?, Ann. Bot. 81 (1998) 165-171.
64
Väisänen H., Kellomäki S., Oker-Blom P., Valtonen E., Structural development of Pinus sylvestris stands with varying initial density: a preliminary model for quality of sawn timber as affected by silvicultural measures, Scand. J. For. Res. 4 (1989) 223-238.
65
Varlet Grancher C., Variation et estimation de l'énergie d'origine solaire reçue sur des plans d'inclinaison et d'azimut variables, Ann. Agron. 26, 3 (1975) 245-264.
66
Walsh J.W.T., The science of daylight, Mac Donald, London, 1961, 291 pp.
67
Wang Y.P., Jarvis P.G., Description and validation of an array model MAESTRO, Agric. For. Meteorol. 51 (1990) 257-280.


Abstract

Copyright INRA, EDP Sciences