Free Access
Issue
Ann. For. Sci.
Volume 58, Number 1, January 2001
Page(s) 47 - 58
DOI https://doi.org/10.1051/forest:2001102

References

1
Adamson J.K., Hornung M., Kennedy V.H., Norris D.A., Paterson I.S., Stevens P.A., Soil solution chemistry and throughfall under adjacent stands of Japanase Larch and Sitka Spruce at three contrasting locations in Britain, Forestry 66 (1993) 51-68.
2
Anne P., Sur le dosage rapide du carbone organique des sols, Ann. Agron. 2 (1945) 161-172.
3
Aussenac G., Couverts forestiers et facteurs du climat : Leurs interactions, conséquences écophysiologiques chez quelques résineux, Thèse Univ. Nancy I, 1975, 234 p.
4
Benecke P., Mayer R., Aspects of soil water behavior as related to beech and spruce stands. Some results of the water balance investigations, in: Ellenberg H. (Ed.), Integrated experimental ecology - Methods and results of ecosystem research in the german Solling project, Ecological Vol. 2, Springer-Verlag, Berlin, 1971, pp. 153-163.
5
Bergkvist B., Folkeson L., The influence of tree species on acid deposition, proton budgets and element fluxes in south Swedish forest ecosystems, Ecol. Bull. 44 (1995) 90-99.
6
Bergmann W., Ernährungsstörungen bei Kulturpflanzen. Entstehung, visuelle und analytishe diagnose, Bergmann W. (Ed.), 2nd edn., Gustav Fisher Verlag, Stuttgard, 1988.
7
Binkley D., The influence of tree species on forest soils: Processes and Patterns, in: Mead D.J., Cornforth I.S. (Eds.), Proceedings of the trees and soil workshop, 1994, Agronomy Society of New Zealand Special Publication #10., Lincoln Univ. Press, Canterbury (N.Z.), 1995, pp. 1-33.
8
Boettcher S.E., Single-tree influence on soil properties in the mountains of eastern Kentucky, Ecology 71 (1990) 1365-1372.
9
Bonneau M., Le diagnostic foliaire, Rev. For. Fr. XL (1988) 19-26.
10
Boudot J.P., Becquer T., Merlet D., Rouiller J., Ranger J., Dambrine E., Mohamed D.A., Potential role of aluminium toxicity in nutrient deficiencis as related to forest decline: An assessment of soil solution data from the Vosges mountains, in: Landmann G., Bonneau M. (Eds.), Forest decline and atmospheric deposition effects in the french mountains, Springer-Verlag, Berlin, 1994, pp. 270-285.
11
Boudot J.P., Becquer T., Merlet D., Rouiller J., Aluminium toxicity in declining forests: a general overview with a seasonal assessment in a silver fir forest in the Vosges mountains (France), Ann. Sci. For. 51 (1994) 27-51.
12
Bremmer J.M., Determination of nitrogen in soil by the Kjeldahl method, J. Agric. Sci. 55 (1960) 11-33.
13
Bringmark E., Spatial variation in soil pH of beech forests in relation to buffering properties and soil depths, Oikos 54 (1989) 165-177.
14
Brown A.H.F., Iles M.A., Water chemistry profiles under four tree species at Gisburn, NW England, Forestry 64 (1991) 169-187.
15
Carleton T.J., Kavanagh T., Influence of stand age and spatial location on throughfall chemistry beneath black spruce, Can. J. For. Res. 20 (1990) 1917-1925.
16
Càrcamo H.A., Parkinson D., Bargshoon D., Distribution of earthworms along a sharp acidification gradient, Pedobiologia 42 (1998) 88-95.
17
Davis M.R., Chemical composition of soil solutions extracted from New Zealand beech forests and West German beech and spruce forests, Plant Soil 126 (1990) 237-246.
18
Driscoll C.T., The chemistry of aluminum in surface waters, in: Sposiro G. (Ed.), The environmental chemistry of aluminum, CRC press, Boca Raton, FL, 1989, pp. 241-277.
19
Duchaufour P., Bonneau M., Une nouvelle méthode de dosage du phosphore assimilable dans les sols forestiers, Bull. Assoc. Fr. Étude. Sol. 4 (1959) 193-198.
20
Duchaufour P., Pédologie : 1. Pédogénèse et classification, Masson, Paris, 1977.
21
Falkengren-Grerup U., Effect of stemflow on beech forest soils and vegetation in southern sweden, J. Appl. Ecol. 26 (1989) 341-352.
22
Fernandez-Sanjurjo M.J., Alvarez E., Fernandez Vega V., Garcia-Rodeja E., Chemistry of soil solutions under different kinds of vegetation in the vicinity of a thermal power station, Environ. Pollut. 101 (1998) 131-142.
23
Fernandez-Sanjurjo M.J., Alvarez E., Garcia-Rodeja E., Speciation and solubility control of aluminium in soils developed from slates of the river Sor watershed (Galicia, NW Spain), Water Air Soil Pollut. 103 (1998) 35-53.
24
Forgeard F., Gloaguen J.C., Touffet J., Interception des précipitations et apports au sol d'éléments minéraux par les eaux de pluie et les pluviolessivats dans une hêtraie atlantique et dans quelques peuplements résineux de Bretagne, Ann. Sci. For. 37 (1980) 53-71.
25
Giesler R., Chemistry of soil solution extracted by centrifugation - Methodology and field applications, Ph.D. Thesis Univ. Umeå, Sweden, 1996.
26
Hornung M., Reynolds B., Stevens P.A., Hugues S., Water quality changes from input to stream, in: Edwards R.W. (Ed.), Acid waters in Wales, Kluwer Academic Plublishers, Dordrecht, 1990, pp. 223-240.
27
Hugues S., Norris D.A., Stevens P.A., Reynolds B., Williams T.G., Effects of forest age on surface drainage water and soil solution aluminium chemistry in stagnopodzols in Wales, Water Air Soil Pollut. 77 (1994) 115-139.
28
Jussy J.H., Colin-Belgrand M., Ranger J., Production and root uptake of mineral nitrogen in a chronosequence of Douglas-fir (Pseudotsuga menziesii) in the Beaujolais Mounts, For. Ecol. Manage. 128 (2000) 197-209.
29
Koch A.S., Matzner E., Heterogeneity of soil and soil solution chemistry under Norway spruce (Picea abies Karst.) and European beech (Fagus silvatica L.) as influenced by distance from the stem basis, Plant Soil 151 (1993) 227-237.
30
Lundstrom U.S., Nyberg L., Danielsson L., van Hees P.A.W., Anderson M., Forest soil acidification: monitoring on the regional scale, Varmland, Sweden, Ambio 27 (1998) 551-556.
31
Markewitz D., Richter D., The bio in aluminum and silicon geochemistry, Biochem. 42 (1998) 235-252.
32
Marschner H., Root-induced changes in the availability of micronutrients in the rhizosphere. in: Waisel Y., Eshel A., Kafkafi U. (Eds.), Plants roots, the hidden half, Dekker inc., 1991, pp. 508-527.
33
Matzner E., Blanck K., Hartmann G., Stock R., Needle chlorosis pattern in relation to soil chemical properties in two Norway spruce (Picea abies, Karts.) forests of the german Harz mountains, in: Bucher J.B., Bucher-Wallin I. (Eds.), Air pollution and forest decline, 1989, pp. 195-199.
34
Ministère de l'Agriculture de la Pêche et de l'Alimentation, La forêt et les industries du bois, Collection GraphAgri-Forêt-Bois, Édition bilingue Français-Anglais, Ministère de l'Agriculture, 1996.
35
Nihlgard B., The microclimate in a beech and a spruce forest - a comparative study from Kongalund, Scania, Sweden, Bot. Notiser 122 (1969) 333-352.
36
Nykvist N., Leaching and decomposition of water-soluble organic substances from different types of leaf and needle litter, Studia Forestalia Suecica 3 (1963) 1-31.
37
Ranger J., Discours D., Mohamed-Ahamed D., Moares C., Dambrine E., Merlet D., Rouiller J., Comparaison des eaux liées et des eaux libres des sols de 3 peuplements d'épicéa commun (Picea abies Karst) des Vosges. Application à l'étude du fonctionnement actuel des sols et conséquences pour l'état sanitaire des peuplements, Ann. Sci. For. 50 (1993) 425-444.
38
Ranger J., Nys C., The effect of spruce (Picea abies Karst.) on soil development: an analytic and experimental approach, Eur. J. Soil Sci. 45 (1994) 193-204.
39
Raulund-Rasmussen K., Borggaard O.K., Hansen H.C.B., Olsson M., Effect of natural organic soil solutes on weathering rates of soil minerals, Eur. J. Soil Sci. 49 (1998) 397-406.
40
Riha S.J., Senesac G., Pallant E., Effects of forest vegetation on spatial variability of surface mineral soil pH, soluble aluminum and carbon, Water Air Soil Pollut. 31 (1986) 929-940.
41
Ritchie G.S.P., Soluble alumium in acidic soils: principles and practicalities, Plant Soil 171 (1995) 17-27.
42
Rouiller J., Guillet B., Bruckert S., Cations acides échangeables et acidités de surface. Approche analytique et incidence pédogénétique, Bull. Assoc. Fr. Étude Sol 2 (1980) 161-175.
43
SAS institute Inc., SAS/STAT user's guide, Version 6, 3rd edition, North Carolina, USA: SAS institute, 1990.
44
Skeffington R.A., Soil properties under three species of tree in southern England in relation to acid deposition in throughfall, in: Ulrich B., Pankrath J. (Eds.), Effect of accumulation of air pollutants in forest ecosystems, Reidel publishing Company, 1983, pp. 219-231.
45
Smith W.H., Character and significance of forest tree root exudates, Ecology 57 (1976) 324-331.
46
Strobel B.W, Bernhoft I., Borgaard O.K., Low-molecular-weight aliphatic carboxylic acids in soil solutions under different vegetations determined by capillary zone electrophoresis, Plant Soil 212 (1999) 115-121.
47
Tamm O., Um best äming ow de oorganiska komponenterna i markens gelcomplex, Meded Stat. Skogsfors. 19 (1922) 385-404.
48
Tice K.R., Graham R.C., Wood H.B., Transformations of 2:1 phyllosilicates in 41-year-old soils under oak and pine, Geoderma 70 (1996) 49-62.
49
Titus B.D., Mahendrappa M.K., Lysimeter system designs used in soils research: a review, Information report N-X-301, Natural Resources of Canada, Canadian Forest Service, 1996.
50
Ulrich E., Lanier M., Combes D., Dépôts atmosphériques, concentrations dans les brouillards et dans les solutions du sol (sous-réseau CATAENAT), Rapport scientifique sur les années 1993 à 1996, Office National des Forêts, 1998.
51
Zabowski D., Ugolini F.C., Lysimeter and centrifuge soil solutions: seasonal differences between methods, Soil Sci. Soc. Am. J. 54 (1990) 1130-1135.


Abstract

Copyright INRA, EDP Sciences