Open Access
Issue
Ann. For. Sci.
Volume 62, Number 7, November 2005
Page(s) 615 - 623
DOI https://doi.org/10.1051/forest:2005060
References of Ann. For. Sci. 62 615-623
  1. Aussenac G., Rainfall interception by the canopy, Ann. Sci. For. 25 (1968) 135-156.
  2. Aussenac G., Forêts et eaux : relations entre écosystèmes forestiers et ressources en eau, in: La gestion durable des forêts : contribution à la recherche, INRA mensuel 12, 1996.
  3. Aussenac G., Granier A., Effects of thinning on water stress and growth in Douglas-fir, Can. J. For. Res. 18 (1988) 100-105.
  4. Aussenac G., Granier A., Naud R., Influence d'une éclaircie sur la croissance et le bilan hydrique d'un jeune peuplement de douglas, Can. J. For. Res. 12 (1982) 222-231.
  5. Aussenac G., Granier A., Bréda N., Effets des modifications de la structure du couvert forestier sur le bilan hydrique, l'état hydrique des arbres et la croissance, Rev. For. Fr. XLVII (1995) 54-62.
  6. Bernier P.Y., Bréda N., Granier A., Raulier F., Mathieu F., Validation of a canopy gas exchange model and derivation of a soil water modifier for transpiration for sugar maple (Acer saccharum Marsch.) using sapflow density measurements, For. Ecol. Manage. 163 (2002) 185-196 [CrossRef].
  7. Black T.A., Kelliher F.M., Processes controlling understorey evapotranspiration, Phil. Trans. Roy. Soc. London B 324 (1989) 207-231.
  8. Bréda N., Granier A., Aussenac G., Effects of thinning on soil and tree water relations, transpiration and growth in an oak forest (Quercus petraea (Matt.) Liebl.), Tree Physiol. 15 (1995) 295-306 [PubMed].
  9. Denmead O.T., Bradley E.F., Flux gradient relationships in a forest canopy, in: Hutchinson B.A., Hicks B.B. (Eds.), The Forest-Atmosphere interactions, D. Reidel, Hinghamp, 1985, pp. 421-442.
  10. FAO, ISSS Working Group Reference Base. World Reference Base for Soil Resources: Keys to Reference Soil Groups of the World, World Soil Resource Report No. 84, FAO (1998), Rome, 88 p.
  11. Granier A., Évapotranspiration des forêts, C.R. Acad. Agric. Fr. 82 (1996) 119-132.
  12. Granier A., Bréda N., Modeling canopy conductance and stand transpiration of an oak forest from sap flow measurements, Ann. Sci. For. 53 (1996) 537-546.
  13. Granier A., Loustau D., Saugier B., Berbigier P., Bilan hydrique de deux peuplements de pin maritime dans les Landes : évaluation des flux des strates ligneuse et herbacée et de leur variabilité, in ATP PIREN, Influence à l'échelle régionale des couvertures pédologiques et végétales sur les bilans hydriques et minéraux du sol, Rapport final, 1989, pp. 287-315.
  14. Granier A., Bobay V., Gash J.H.C., Gelpe J., Saugier B., Shuttleworth W.J., Vapour flux density and transpiration rate comparisons in a stand of maritime pine (Pinus pinaster Ait.) in Les Landes forest, Agric. For. Meteorol. 51 (1990) 309-319 [CrossRef].
  15. Grelle A., Lundberg A., Lindroth A., Morén A.-S., Cienciala E., Evaporation components of a boreal forest: variations during the growing season, J. Hydrol. 197 (1997) 70-87 [CrossRef].
  16. Henriksen L.H., Rasmussen K.R., Nornberg P., Atmospheric deposition at a wind-exposed edge of an oak forest, Aarhus Geosci. 4 (1995) 73-82.
  17. Hoff C., Rambal S., An examination of the interaction between climate, soil and leaf area index in a Quercus ilex ecosystem, Ann. For. Sci. 60 (2003) 153-161 [EDP Sciences] [CrossRef].
  18. Kelliher F.M., Whitehead D., McAneney K.J., Judd M.J., Partitioning evapotranspiration into tree and understorey components in two young Pinus radiata D. Don stands, Agric. For. Meteorol. 50 (1990) 211-227 [CrossRef].
  19. Kelliher F.M., Leunung R., Sculze E.-D., Evaporation and canopy characteristics of coniferous forests and grasslands, Oecologia 95 (1993) 153-163 [CrossRef].
  20. Ladekarl U.L., Estimation of the components of soil water balance in a Danish oak stand from measurements of soil moisture using TDR, For. Ecol. Manage. 104 (1998) 227-238 [CrossRef].
  21. Ladekarl U.L., Hansen B., og Rasmussen K.R., Maling og vurdering af vandbalancen for lovskov? Skovrejsnings Betydning for Grundvandsdannelsen, ATV-Komiteen Vedrorende Grundvandsforurening, Institute of Geology and Geotechnics, Danish Technical Univ., 1994, pp. 19-40 (in Danish).
  22. Loustau D., Cochard H., Use of a portable transpiration chamber for estimating evapotranspiration in the Molinia caerulea understorey of a maritime pine stand, Ann. Sci. For. 48 (1991) 29-45.
  23. Lüttschwager D., Rust S., Wulf M., Forkert J., Hüttl R.F., Tree canopy and herb layer transpiration in three Scots pine stands with different stand structures, Ann. For. Sci. 56 (1999) 265-274.
  24. Mathieu F., Étude de la transpiration des couverts d'érable à sucre et de sapins baumiers à partir de mesures de flux de sève et de mesures micrométéorologiques : de l'arbre au peuplement, DEA en Fonctionnement physique, chimique et biologique de la biosphère continentale, INA-PG, Paris VI, ENS, 1999, 55 p.
  25. McNaughton K.G., Jarvis P.G., Predicting effects of vegetation changes on transpiration and evaporation, in: Kozlowski T.T. (Ed.), Water deficits and plant growth, VII, NY, Academic Press, 1983, pp. 1-47.
  26. Myneni R.B., Ross J., Asrar G., A review on the theory of photon transport in leaf canopies, Agric. For. Meteorol. 45 (1989) 1-153 [CrossRef].
  27. Nizinski J., Saugier B., Mesures et modélisation de l'interception nette dans une futaie de chênes, Acta Oecol. 9 (1988) 311-329.
  28. Penman H.L., Natural evaporation from open water, bare soils, and grass. Proc. R. Soc. Ser. A 193 (1948) 120-145.
  29. Phillips N., Oren R., A comparison of daily representations of canopy conductance based on two conditional time averaging methods and the dependence of daily conductance on environmental factors, Ann. For. Sci. 58 (2001) 217-235 [EDP Sciences] [CrossRef].
  30. 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.
  31. Roberts J., Forest transpiration: a conservative process? J. Hydrol. 66 (1983) 133-141 [CrossRef].
  32. Rutter A.J., An analysis of evaporation from a stand of Scots pine, in: Sopper W.E., Lull H.W. (Eds.), Forest hydrology, Pergamon Press, Oxford, 1967, pp. 403-417.
  33. Schnock G., Le bilan d'eau et ses principales composantes dans une chênaie mélangée calcicole de haute-Belgique (bois de Virelles-Blaimont), ULB, Fac. Sci. labo. de bota-systématique et d'écologie, 1970.
  34. Stewart J.B., Evaporation of a wet canopy of a pine forest, Water Resour. Res. 13 (1988) 915-621.
  35. Ulrich E., Lelong N., Lanier M., Schneider A., Interception des pluies en forêt : facteurs déterminants, Bulletin technique n° 30, 1995, pp. 33-45.
  36. Vertessy R.A., Benyon R.G., O'Sullivan S.K., Grobben P.R., Relationships between stem diameter, sapwood area, leaf area and transpiration in a young mountain ash forest, Tree Physiol. 15 (1995) 559-567 [PubMed].
  37. Vincke C., Approche écophysiologique des flux d'eau au sein d'une chênaie pédonculée (Q. robur L.) dépérissante sur sol à régime hydrique alternatif, Thèse UCL, 2003, 392 p.
  38. Vincke C., Bréda N., Granier A., Devillez F., Evapotranspiration of a declining Quercus robur (L.) stand from 1999 to 2001. I. Trees and forest floor dairy transpiration, Ann. For. Sci. 62 (2005) 503-512 [EDP Sciences] [CrossRef].
  39. Vincke C., Delvaux B., Porosity and available water of temporarily waterlogged soils in a Quercus robur (L.) declining stand, Plant Soil 271 (2005) 189-203 [CrossRef].
  40. Welles J.M., Norman J.M., Instrument for indirect measurement of canopy architecture, Agron. J. 83 (1991) 818-825.
  41. Wilson K.B., Hanson P.J., Mulholland P.J., Baldocchi D.D., Wullschleger S.D., A comparison of methods for determining forest evapotranspiration and its components: sap-flow, soil water budget, eddy covariance and catchment water balance, Agric. For. Meteorol. 106 (2001) 153-168 [CrossRef].
  42. Wullschleger S.T., Meinzer F.C., Vertessy R.A., A review of whole-plant water use studies in trees, Tree Physiol. 18 (1998) 499-512 [PubMed].