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Ann. For. Sci.
Volume 57, Number 3, March-April 2000
Page(s) 287 - 301
DOI http://dx.doi.org/10.1051/forest:2000119

References

1
Alsheimer M., Kostner B., Falge E., Tenhunen J.D., Temporal and spatial variation in transpiration of Norway spruce stands within a forested catchment of the Fichtelgebirge, Germany, Ann. Sci. For. 55 (1998) 103-123.
2
Anderson H.V., Hoover M.D., Reinhart K.G., Forests and water: effects of forest management on floods, sedimentation and water supply, USDA For. Serv. Gen. Tech. Report PSW (1976) 18.
3
Aussenac G., Étude microclimatique de coupes par bandes en forêt d'Épinal (Vosges), Comparaison avec la coupe rase, Rev. For. Fr. XXV 4 (1973) 283-293.
4
Aussenac G., Effets de conditions microclimatiques différentes sur la morphologie et la structure anatomique des aiguilles de quelques résineux, Ann. Sci. For. 30 (4) (1973) 375-392.
5
Aussenac G., Étude des gelées tardives en relation avec les problèmes de reboisement, Ann. Sci. For. 30 (2) (1973) 141-155.
6
Aussenac G., Couverts forestiers et facteurs du climat : leurs interactions, conséquences écophysiologiques chez quelques résineux, Thèse de Doctorat ès Sciences, Nancy (1975) p. 234.
7
Aussenac G., A propos de la crise de découvert des résineux, Analyse d'un cas en Lorraine, Rev. For. Fr. XXIX, 2 (1977) 127-130.
8
Aussenac G., Ducrey M., étude bioclimatique d'une futaie feuillue (Fagus silvatica L. et Quercus sessiliflora Salisb.) de l'Est de la France. I. Analyse des profils microclimatiques et des caractéristiques anatomiques et morphologiques de l'appareil foliaire, Ann. Sci. For. 34 (4) (1977) 265-284.
9
Aussenac G., Influence du couvert forestier sur la croissance de quelques résineux dans le jeune âge, Can. J. For. Res. 7 (1) (1977) 8-18.
10
Aussenac G., Ducrey M., étude de la croissance de quelques espèces forestières cultivées à différents niveaux d'éclairement et d'alimentation hydrique, 103e Congrés des Sociétés savantes Nancy I (1978) 105-117.
11
Aussenac G., Granier A., Naud R., Influence d'une éclaircie sur la croissance et le bilan hydrique d'un jeune peuplement de Douglas (Pseudotsuga menziesii (Mirb) Franco), Can. J. For. Res. 12, 1 (1982) 222-231.
12
Aussenac G., El Nour M., évolution du potentiel hydrique et du système racinaire de jeunes plants de Cèdre, Pin laricio de Corse et Pin noir plantés à l'automne et au printemps, Ann. Sci. For. 43 (1) (1986) 1-14.
13
Aussenac G., Granier A. Effects of thinning on water stress and growth in douglas fir, Can. J. For. Res. 1, 18 (1988) 100-105.
14
Aussenac G., Guehl J.-M., Granier A., Kaushal P., Grieu P., Critères physiologiques pour l'évaluation de la qualité des plants forestiers avant plantation, Rev. For. Fr., no. spécial (1987) 131-139.
15
Aussenac G., Guehl J.-M., Dépérissements et accidents climatiques, Rev. For. Fra. XLVI 5 (1995) 458-470.
16
Aussenac G., Granier A., Breda N., Effets des modifications de la structure du couvert forestier sur le bilan hydrique, l'état hydrique des arbres et la croissance, Rev. For. Fra. XLVII 1 (1995) 54-62.
17
Brasseur F., de Sloover J.R., L'extinction du rayonnement dans les gammes spectrales bleu, rouge et rouge lointain. Comparaison de deux peuplements forestiers de haute Ardenne, Bull. Soc. Roy. Bot. Belge. 109 (1976) 319-334.
18
Bellefleur P., Laroque G., Compétition pour le rayonnement solaire en début de succession secondaire dans une érablière à bouleau jaune et hêtre, Can. J. For. Res. 13, 3 (1983) 514-521.
19
Berbigier P., Bonnefond J.M., Measurement and modelling of radiation transmission within a stand of maritime pine (Pinus pinaster Ait), Ann. Sci. For. 52 (1995) 23-42.
20
Breda N., Granier A., Intra and interannual variations of transpiration, leaf area index and radial growth of a sessile oak stand (Quercus petraea), Ann. Sci. For. 53 (1996) 521-536.
21
Breda N., Granier A., Aussenac G., Effects of thinning on soil water balance and tree water relations, transpiration and growth in oak forest (Quercus petraea (Matt) Liebl.), Tree Physiol. 15 (1995) 295-306.
22
Bréda N., L'indice foliaire des couverts forestiers : mesure, variabilité et rôle fonctionnel, Rev. For. Fr. LI. 2 (1999) 135-150.
23
Cannell M.G.R., Grace J., Competition for light: detections forestiers : mesure, variabilité et rôle fonctionnel Rev. For. Fr. (in press), measurement, and quantification, Can. J. For. Res. 23 (1993) 1973-1979.
24
Carlson D.W., Groot A., Microclimate of a clear cut, forest interior, and small opening in trembling aspen forest, Agri. For. Meteorol. 87 (1997) 313-329.
25
Chen J., Franklin J.F., Spies T.A., Contrasting microclimates among clearcut, edge, and interior of old-growth Douglas-fir forest, Agri. For. Meteorol. 63 (1993) 219-237.
26
Chen J., Franklin J.F., Growing season microclimate variability within an old-growth Douglas-fir forest, Clim. Res 8 (1997) 21-34.
27
Collet C., Guehl J.M., Frochot H., Ferhi A., Effects of two forest grasses differing in their growth dynamics on the water relations and the growth of Quercus petraea seedlings, Can. J. Bot. 74 (1996) 1562-1571.
28
Collet C., Frochot H., Effects of interspecific competition on periodic shoot elongation in oak seeedlings, Can. J. For. Res. 26 (1996) 1934-1942
29
Cregg B., Hennessey T.C., Dougherty P.M., Water relations of Loblolly Pine trees in southeastern Oklahoma following precommercial thinning, Can. J. For. Res. 20, 9 (1990) 1501-1513.
30
Cuif, 1909, Influence du couvert de la forêt sur la température du sol à diverses profondeurs, Bulletin des séances de la Société des Sciences de Nancy, pp. 1-19.
31
Cutini A., The influence of drought and thinning on leaf area index estimates from canopy transmittance method, Ann. Sci. For. 53 (1996) 595-603.
32
Dalton C.T., Messina M.G., Water relations and growth of loblolly pine seedlings planted under a shelterwood and in a clear cut, Tree physiol. 15 (1995) 19-26.
33
De Vries M.L., Wilde S.A., Effect of the density of red pine stands on moisture supply in sandy soils, Neth. J. Agri. Sci. 10, 3 (1962) 235-239.
34
Dhote J.F., 1998, Modélisation de la dynamique des peuplements de grands feuillus sociaux. Habilitation à diriger des recherches. Université Henri Poincaré Nancy, p. 101.
35
Donner B.L., Running S.W., Water stress response after thinning Pinus contorta in Montana, For. Sci. 32 (1986) 614-625.
36
Ducrey M., Huc R., Effets de l'éclaircie sur la croissance et le fonctionnement écophysiologique d'un taillis de chêne vert, RFF (1999) (in press).
37
Duffy P.J.B., Fraser J.W., Local frost occurences in eastern Ontario woodlands, Department of Forestry Publications No. 1029 (1963) p. 24.
38
Fairbairn W.A., Neustein S.A., Study of response of certains coniferous species to light intensity, Forestry 43 (1970) 57-71.
39
Frochot H., Levy G., Facteurs du milieu et optimisation de la croissance initiale en plantations de feuillus, R.F.F. XXXVIII 3 (1986) 301-306.
40
Frochot H., Levy G., Lefèvre Y., Werhlen L., Amélioration du démarrage des plantations de feuillus précieux ; cas du frêne en station à bonne réserve en eau, R.F.F. XLIV, No. spécial (1992) 61-65.
41
Frochot H., Levy G., Facteurs limitants la croissance initiale d'une plantation de merisier (Prunus avium L.) sur rendzine brunifiée, Ann. Sci. For. 37, 3 (1980) 239-248.
42
Geiger R., The climate near the ground. Harvard, University Press Cambridge (1965) p. 611.
43
Ginn S.E., Seiler J.R., Cazell B.H., Kyreh R.E., Physiological and growth responses of eight year old Loblolly pine stands to thinning, For. Sci. 37, 4 (1991) 1030-1040.
44
Girard S., Clement A., Cochard H., Boulet-Gercourt B., Guehl J.M., Effects of dessication on post-planting stress in bare-root Corsican pine seedlings, Tree Physiol. 17(7) (1997) 429-435.
45
Girard S., Clément A., Boulet-Gercourt B, Guehl J.M., Effects of exposure to air on planting stress in red oak seedlings, Ann. Sci. For. 54 (1997) 395-401.
46
Granberg H.B., Ottosson-Lofvenius M., Odin H., Radiative and aerodynamic effects of an open pine shelterwood on calm, clear nights, Agri. For. Meteorol. 63 (1993) 171-188.
47
Gray A.N., Spies T.A., Gap size, within gap position and canopy structure effects on conifer seedling establishment, J. Ecol. 84 (1996) 635-645.
48
Groot A., Carlson D.W., Influence of shelter on night temperatures, frost damage, and bud break of white spruce seedlings, Can. J. For. Res. 26, 9 (1996) 1531-1538.
49
Gross K., Homlicher A., Weinreich A., Wagner E., Effect of shade on stomatal conductance, net photosynthesis, photochemical efficiency and growth of oak saplings, Ann. Sci. For. 53 (1996) 279-290.
50
Grulois J., Extinction du rayonnement global, tropismes et paramètres foliaires. Bull. Soc. Roy. Bot. Belgique 100 (1967) 315-334.
51
Guehl J.M., Aussenac G., Gas exchange response to air humidity in Abies alba, Plant Physiology 83 (1987) 316-322.
52
Guehl J.M., Aussenac G., Bouachrine J., Zimmerman R., Pennes J.M. Ferhi A., Grieu P., Sensitivity of leaf gas exchange to atmospheric and soil drought and water-use efficiency in some mediterranean Abies species, Can. J. For. Res 21 (1991) 1507-1515.
53
Harrington C.A., Reukema D.L., Initial shock and long term stand development following thinning in a douglas fir plantation, For. Sci. 29, 1 (1983) 33-46.
54
Hassika P., Berbigier P., Bonnefons J.M., Measurement and modelling of the phothosynthethically active radiation transmitted in a canopy of maritime pine, Ann. Sci. For. 54 (1997) 715-730.
55
Hawke M.F., Wedderburn M.E., Microclimate changes under Pinus radiata agroforestry regimes in New Zealand, Agri. For. Meteorol 71 (1994) 133-1455.
56
Helms J.A., Apparent photosynthesis of Douglas - fir in relation to silvicultural treatments, For. Sci. 10 (1964) 432-442.
57
Kelliher F.M., Black T.A., Price D.T., Estimating the effects of understory removal from a Douglas Fir Forest using a two-layer canopy evapotranspiration model, Water Resour. Res. 22 (1986) 1891-1899.
58
Kelliher F.M., Whitehead D., McNeney K.J., Judd M.J., Partitioning evapotranspiration into tree and understory components in two young Pinus radiata D. Don. stands, Agri. For. Meteorol. 50 (1990) 211-227.
59
Kellomaki S., Oker-Blom P., Canopy structure and light climate in a young scots pine stand, Silva Fenn. 17 (1983) 1-17.
60
Kurachi N., Hagihara A., Hozumi K., Canopy photosynthetic production in a Japanese larch stand. I Seasonal and vertical changes of leaf characteristics a long the light gradient in a canopy, Ecological Res. 7 (1992) 255-265.
61
Lavigne M.B., Groth and net assimilation rates in thinned and thinned stands of balsam fir, Can. J. For. Res. 18 (1988) 1205-1212.
62
Lee R., Forest microclimatology, Columbia University Press New York, 1978 p. 276.
63
Levy G., Frochot H., Becker M., Installation des peuplements de chêne et facteurs du milieu, R.F.F. XLII 2 (1990) 240-245.
64
Liechty H.O., Holmes M.J., Reed D.D., Mroz G.D., Changes in microclimate after stand conversion in two northern hardwoods stands, For. Ecol. Manag. 50 (1992) 253-264.
65
Logan K.T., Growth of tree seedlings as affected by light intensity. I White birch, Yellow birch, sugar maple and silver maple, Department of forestry Publications no. 1121, 1965, p. 16.
66
Logan K.T., Growth of tree seedlings as affected by light intensity. II Red pine,White pine, Jack pine and eastern larch, Department of forestry Publications no. 1160, 1966, p. 19.
67
Logan K.T., Growth of tree seedlings as affected by light intensity. III. Basswood and white elm, Department of forestry Publications no. 1176, 1966, p. 15.
68
Logan K.T., Growth of tree seedlings as affected by light intensity. V. White Ash, Beech, Hemlock and general conclusion, Department of forestry Publications no. 1323, 1973, p. 12.
69
Loustau D., Cochard H., Utilisation d'une chambre de transpiration portable pour l'estimation de l'évapotranspiration d'un sous-bois de Pin maritime à Molinie (Molinia coerulea (L.) Moench.) Ann. Sci. for. 48, 1 (1991) 29-45.
70
Luttschawager D., Rust S., Wulf M., Forkert J., Huttl R.F., Tree canopy and herb layer transpiration in three Scots pine stands with different stand structures, Ann. For. Sci. 56 (4) (1999) 265-274.
71
Lyr H., Effect of the root temperature on growth parameter of various European tree species, Ann. Sci. for. 53 (1996) 317-323.
72
Madsen P., Growth and survival of Fagus silvatica seedlings in relation to light intensity and soil water content, Scan. J. For. Res. 9 (1994) 316-332.
73
Margolis H., Brand D.G., An ecophysiological basis for understanding plantation establishment, Can. J. For. Res. 20 (1990) 375-390.
74
Mc Clurklin D.G., Soil moisture trends following thinning in shortleaf pine, Soil Sci. Soc. Am. Proc. 25, 2 (1961) 135-138.
75
Morikawa Y., Hattori S., Kiyono Y., Transpiration of a 31 year old Chamaecyparis obtusa Endl. stand before and after thinning, Tree Physiol. 20 (1986) 105-114.
76
Odin H., Meteorology in forest operations, in Symposium on Forest meteorology, W.M.O. Otawa, 1978, pp. 167-177.
77
Oswald H., Aussenac G., Stabilité des peuplements et traitements sylvicoles sur sols hydromorphes Séminaire ``Conditions et effets des excés d'eau en Agriculture'' INRA, Paris, 1985, pp. 147-155.
78
Petersen T.D., Newton M., Zedaker S.M., Influence of Ceanothus velutinus and associates forbs on the water stress and stemwood production od Douglas-Fir, For. Sci. 34 (1988) 333-343.
79
Perttu K., Climatic zones regarding the cultivation of Picea abies L; in Sweden. II. Radiation cooling and frost risk, Research notes 36, Swedish University of Agricultural Sciences, 1981, p. 25.
80
Pienne H., Effects of increasing spacing on carbon mineralization rates and temperature in a stand of young balsam fir, Can. J. For. Res. 8 (1978) 398-406.
81
Pienne H., Van Cleve K., Weight loss of litter and cellulose bags in a thinned white spruce forest in interior Alaska, Can. J. For. Res. 8 (1978) 42-46.
82
Planchais I., Pontailler J.Y., Aplication d'un modèle de pénétration de la lumière à une jeune plantation de hêtre à abri latéral, Ann. Sci. For. 54 (1997) 243-260.
83
Planchais I., Pontailler J.Y., Validity of leaf areas and angles estimated in a beech forest from analysis of gap frequencies, using hemispherical photographs and a plant canopy analyser, Ann. For. Sci. 56(1) (1999) 1-10.
84
Porte A., Bosc A., Champion I., Loustau D., Estimating the foliage area of Maritime pine (Pinus pinaster Aït.) branches and crowns with application to modelling the foliage area distribution in the crown, Ann. Sci. For. 57 (2000) 73-86.
85
Pothier D. Margolis A., Analysis of growth and light interception of balsam fir and white birch saplins following precommercial thinning, Ann. Sci. For. 48 (1991) 126-132.
86
Prescott C.E., Effects of clearcutting and alternative silvicultural systems on rates of decomposition and nitrogen mineralisation in a coastal montane coniferous forest, For. Ecol. Manag. 95 (1997) 253-260.
87
Price D.T., Black T.A., Kelliher F.M., Effects of salal understory removal on photosynthesis rate and stomatal conductance of young douglad fir tree, Can. J. For. Res. 16 (1986) 90-97.
88
Raynor G., Wind and temperature structure in a Coniferous Forest and a contiguous field, For. Sci. 17 (1971) 351-363.
89
Reynolds P.E., Simpson J.A., Lautenschlager R.A., Bell F.W., Gordon A.M., Buckley D. A., Gresch A., Alternative conifer release treatments affect below and near-ground microclimate, For. Chron. 73 (1997) 75-82.
90
Ritchie G.A., Evidence for red:far red signaling and photomorphogenic growth response in Douglas-fir (Pseudotsuga menziesii) seedlings, Tree Physiol. 17 (1997) 161-168.
91
Roberts J., Pymar C.F., Wallace J.S., Pitman R.M., Seasonal changes in leaf area, stomatal conductance and transpiration from bracken below a forest canopy, J. Appl. Ecol. 17 (1980) 409-422.
92
Roussel L., Photologie forestière, Masson et Cie, Paris, 1972, p. 144.
93
Sampson D.A., Smith F.W., Influence of canopy structure on light penetration in lodgepole pine (Pinus contorta var. latifolia) forests, Agri. For. Meteorol. 64 (1993) 63-79.
94
Schnock G., Le bilan d'eau et ses principales composantes dans une chênaie mélangée calcicole de Haute Belgique (Bois de Virelles Blaimont), Thèse Université Libre de Bruxelles, 1970, p. 352.
95
Schulze E.D., Der CO2 Gaswechsel der Buche (Fagus silvatica L.) in Abhangigkeit von den Klimafaktoren im Freiland, Flora 159 (1970) 177-232.
96
Seltzer P., Études microclimatologiques en Alsace, Thèse de Doctorat es Sciences, Université de Strasbourg, 1935, p. 57.
97
Sprugel D.G., Brooks J.R., Hinckley T.M., Effects of light on shoot geometry and needle morhology in Abies amabilis Tree Physiol. 16 (1996) 91-98.
98
Stoeckeler J.H., Spring frost damage in young forests plantings near La Crosse, Wisconsin, Journ. Forestry 63 (1965) 12-14.
99
Stogsdill W.R., Witter R.F., Hennessey T.C., Dougherty P.M., Water use in thinned Loblolly Pine plantations, For. Ecol. Manag. 50, 3-4 (1992) 233-245.
100
Sucoff E., Hong S.G., Effects of thinning on needle water potential in Red Pine, For. Sci. 20 (1974) 25-29.
101
Tranquillini W., Physiological ecology of the alpine timberline, 1979, Springer Berlin.
102
Wang J.R., Simard S.W., Kimmins J.P., Physiological responses to paper birch to thinning in British Columbia, For. Ecol. Manag. 73 (1995) 177-184.
103
Yasushi Morikawa, Shigeaki Hattori, Yoshiyuki Kiyono, Transpiration of a 31 year old Chamaecyparis obtusa Endl. stand before and after thinning, Ree Physiology 2 (1986) 105-114.
104
Zahner R., Water deficits and growth of trees in ``Water deficits and plant growth." II, Kozlowski editor, Academic Press, New York, 1968, pp. 199-254.
105
Ziegenhagen B., Kausch W., Productivity of young shaded oaks (Quercus robur L.) as corresponding to shoot morphology and leaf anatomy, For. Ecol. Manag. 72 (1995) 97-108.
106
Van Hees A.F.M., Growth and morphologie of pedunculate oak (Quercus pedunculata) and beech (Fagus silvatica) seedlings in relation to shading and drought, Ann. Sci. For. 54 (1997) 9-18.
107
Whitehead D., Kelliher F.M., Lane P., Pollock D., Seasonal partitioning of evaporation between trees and understorey in a widely spaced Pinus radiata stand, J. Appl. Ecol. 31 (1994) 528-542.
108
Whitehead D., Kelliher F.M., A canopy water balance model for a Pinus radiata stand before and after thinning, Agri. For. Meteorol. 55, 1-2 (1991) 109-126.
109
Woodman J.N., Variation of net photosynthesis within the crown of a large forest-crown conifer. Photosynthetica 5 (1971) 50-54.
110
Wulf M., Luttschwager D., Forkert J., und Huttl R., Untersuchungen zum deckungs-und Transpirationsgrad augewalhlter Pflanzenarten der Krautschicht in Kiefernbestanden, Agew. Bot. 70 (1996) 165-171.


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