Free Access
Issue |
Ann. For. Sci.
Volume 57, Number 2, February 2000
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Page(s) | 89 - 100 | |
DOI | https://doi.org/10.1051/forest:2000105 |
References
-
- 1
- Antonova G.F., Stasova V.V., Effects of environmental factors on wood formation in Scots pine stems, Trees 7 (1993) 214-219.
- 2
- Antonova G.F., Stasova V.V., Effects of environmental factors on wood formation in larch (Larix sibirica Ldb.) stems, Trees 11 (1997) 462-468.
- 3
- Barbour J.R., Fayle D.C.F., Chauret G., Cook J., Karsh M.B., Ran S., Breast-height relative density and radial growth in mature jack pine (Pinus banksiana) for 38 years after thinning, Can. J. For. Res. 24 (1994) 2439-2447.
- 4
- Bartel J.A., Krestov P.V., Klinka K., Site index - site quality relationships for Engelmann spruce, lodgepole pine, and subalpine fir in the Engelmann Spruce - Subalpine Fir zone, Unpublished Report, Forest Sciences Department, University of British Columbia, Vanvouver, BC, 1999.
- 5
- Blasing T.J., Duvick D.N., Cook E.R., Filtering the effects of competition from ring-width series, Tree-Ring Bull. 43 (1983) 19-30.
- 6
- Briffa K.R., Jones P.D., Schweingruber F.H., Shiyatov S.G., Cook E.R., Unusual twentieth-century summer warmth in a 1000-year temperature record from Siberia, Nature 376 (1995) 156-159.
- 7
- Brooks R.J., Flanagan L.B., Ehleringer J.R., Responses of boreal conifers to climate fluctuations: indications from tree-ring widths and carbon isotope analyses, Can. J. For. Res. 28 (1998) 524-533.
- 8
- Chambers J.M., Cleveland W.S., Kleiner B., Tukey P.A., Graphical methods for data analysis, Wadsworth & Brooke/Cole Publ. Comp., Pacific Grove, California, 1983.
- 9
- Chen H.Y.H., Klinka K., Height growth models for high elevation subalpine fir, Engelmann spruce, and lodgepole pine in British Columbia, in press.
- 10
- Cleaveland M.K., Climatic response of densitometric properties in semiarid site tree rings, Tree-Ring Bull. 46 (1986) 13-29.
- 11
- Cogbill C.V., White P.S., The latitude-elevation relationship for spruce-fir forest and treeline along the Appalachian mountain chain, Vegetatio 94 (1991) 153-175.
- 12
- Conkey L.E., Response of tree-ring density to climate in Maine, USA, Tree-Ring Bull. 39 (1979) 29-38.
- 13
- Conkey L.E., Red spruce tree-ring widths and densities in eastern North America as indicators of past climate, Quaternary Research 26 (1986) 232-243.
- 14
- Cook E.R., A time series analysis approach to tree ring standardization. Ph.D. dissertation, The University of Arizona, Tucson, 1985.
- 15
- Cook E.R., Peters K., The smoothing spline: a new approach to standardizing forest interior tree-ring width series for dendroclimatic studies, Tree Ring Bull. 41 (1981) 45-53.
- 16
- Cregg B.M., Dougherty P.M., Henessey T.C., Growth and wood quality of young loblolly pine trees in relation to stand density and climatic factors, Can. J. For. Res. 18 (1988) 851-858.
- 17
- D'Arrigo R.D., Jacoby G.C., Free R.M., Tree-ring width and maximum latewood density at the North American treeline: parameters of climate change, Can. J. For. Res. 22 (1992) 1290-1296.
- 18
- Daubenmire R.F., Plant communities, Harper and Row, New York, 1968.
- 19
- Dobrys J., Kyncl J., Klinka K., Blackwell B.A., Climate signals in coastal old-growth forest trees near Vancouver, British Columbia, Radiocarbon (1996), 733-741.
- 20
- Dutilleul P., Herman M., Avella-Shaw T., Growth rate effects on correlations among ring width, wood density, and mean tracheid length in Norway spruce (Picea abies), Can. J. For. Res. 28 (1998) 56-68.
- 21
- Earle C.J., Brubaker L.B., Lozhin A.K., Anderson P.M., Summer Temperature since 1600 for the Upper Kolyama Region, Northeastern Russia, Reconstructed from Tree Rings, Arctic Alpine Res. 26 (1994) 60-65.
- 22
- Fritts H.C., Relationships of ring widths in arid-site conifers to variations in monthly temperature and precipitation, Ecol. Monogr. 44 (1974) 411-440.
- 23
- Fritts H.C., Tree Rings and Climate, Academic Press Inc., New York 1976.
- 24
- Fritts H.C., PRECON V. 5.14b Upgrade, Dendrochronological Modeling, Harold. C. Fritts, 5703, North Lady Lane, Tucson, AZ 85704-3905, 1997.
- 25
- Fritts H.C., Blasing T.J., Hayden B.P., Kutzbach J.E., Multivariate techniques for specifying tree-growth and climate relationships and for reconstructing anomalies an paleoclimate, J. Appl. Meteor. 10 (1971) 845-864.
- 26
- Green R.N., Klinka K., A field guide for site identification and interpretation for the Vancouver Forest Region, Land Manage. Handbook No. 28, B.C. Min. For., Victoria, B.C. 1994.
- 27
- Grissino-Mayer H., Holmes R., Fritts H.C., International Tree Ring Data Bank Program Library, Version 2.1 (Diskette), Laboratory of Tree-Ring Research, University of Arizona, Tucson, Arizona, 1997.
- 28
- Guiot J., The bootstrapped response function, Tree Ring Bull. 51 (1991) 39-41.
- 29
- Hogg E.H., Climate and the southern limit of the western Canadian boreal forest, Can. J. For. Res. 24 (1994) 1835-1845.
- 30
- Holmes R.L., Computer-assisted quality control in tree-ring dating and measurement, Tree Ring Bull. 43 (1983) 69-78.
- 31
- Holmes R.L., Dendrochronology Program Library (Diskette), Laboratory of Tree-Ring Research, University of Arizona, Tucson, Arizona, 1994.
- 32
- Jakoby G.C., Cook E.R., Past temperature variations inferred from a 400-year tree-ring chronology from Yukon Territory, Canada, Arctic Alpine Res. 13 (1981) 409-418.
- 33
- Jozsa L.A., Middleton G.R., A discussion of wood quality attributes and their practical implications, Special Publication No. SP-34, Forintec Canada Corp., Western Labaratory, Vancouver, B.C., 1994.
- 34
- Kienast F., Schweingruber F.H., Bräker O.U., Schär E., Tree-ring studies on conifers along ecological gradients and the potential of single-year analyses, Can. J. For. Res. 17 (1987) 683-696.
- 35
- Klinka K., Wang Q., Carter R.E., Chen H.Y.H., Height growth-elevation relationships in subalpine forests of interior British Columbia, The Forestry Chronicle 72(2) (1996) 1-6.
- 36
- Krajina V.J., Biogeoclimatic zones in British Columbia, Ecol. Western North Amer. 1 (1965) 1-17.
- 37
- Krajina V.J., Ecology of forest trees of British Columbia, Ecol. Western N. Amer. 2 (1969) 1-146.
- 38
- Kramer P.J., Kozlowsky T.T., Physiology of Woody Plants, Academic Press Inc., New York, 1979.
- 39
- Larsen C.P.S., MacDonald G.M., Relations between tree-ring widths, climate, and annual area burned in the boreal forest of Alberta, Can. J. For. Res. 25 (1995) 1746-1755.
- 40
- Larson P.R., Some indirect effect of environment on wood formation, in: Zimmermann M.H. (ed.), The Formation of Wood in Forest Tees, Academic Press Inc., New York, 1964, pp. 345-365.
- 41
- Larson P.R., Wood formation and the concept of wood quality, Yale University School of Forestry Bulletin 74, 1969.
- 42
- Lindström H., Basic density in Norway spruce. Part I. A literature review, Wood and Fiber Science 28 (1996) 15-27.
- 43
- Ludlow A.R., Some factors influencing the increment of forests, Forestry 70 (1997) 381-388.
- 44
- Major J., A functional, factorial approach to plant ecology, Ecology 32 (1951) 392-412.
- 45
- Meidinger D., Pojar J. (eds.), Ecosystems of British Columbia. Special Report Series 6, BC Min., For.Victoria, BC., 1991.
- 46
- Monserud A.R., Time-Series Analyses of Tree-Ring Chronologies, Forest Sci. 32 (1986) 349-372.
- 47
- Nicholls J.W.P., Wright J.P., The effect of environmental factors on wood characteristics. 3. The influence of climate and site on young Pinus radiata material, Can. J. For. Res. 6 (1976) 113-121.
- 48
- Oliver C.D., Larson B.C., Forest stand dynamics, McGraw-Hill, New York, 1996.
- 49
- Parker M.L., Bruce R.D., Jozsa L.A ., X-Ray densitometry of wood at the W.F.P.L., Technical Report No. 10, Forintek Canada Corp., Western Forest Products Labaratory, Vancouver, BC, 1980.
- 50
- Petty J.A., MacMillan D.C., Steward C.M., Variation of density and growth ring width in stems of Sitka and Norway spruce, Forestry 63 (1990) 39-49.
- 51
- Piutti E., Cescatti A., A quantitative analysis of the interactions between climatic response and intraspecific competition in European beech, Can. J. For. Res. 27 (1997) 277-284.
- 52
- Pojar J., Klinka K., Meidinger D.V., Biogeoclimatic ecosystem classification in British Columbia, For. Ecol. Manage. 22 (1987) 119-154.
- 53
- Savidge R.A., Auxin and ethylene regulation of diameter growth in trees, Tree Physiology 4, (1988) 401-414.
- 54
- Schweingruber F.H., Tree Rings: Basics and Applications of Dendrochronology, Kluwer Academic Publishers, Dordrecht, Boston, London, 1988.
- 55
- Schweingruber F.H., Braeker O.U., Schaer E., Dendroclimatic studies on conifers from central Europe and Great Britain, Boreas 8 (1979) 427-452.
- 56
- Schweingruber F.H., Briffa K.R., Nogler P., A tree-ring densitometric transect from Alaska to Labrador, Int. J. Biometeorol. 37 (1993) 151-169.
- 57
- SPSS Inc., Systat 6.0 for Windows: Statistics, SPSS Inc., Chicago, 1996.
- 58
- Sukachev V., Dylis N., Fundamentals of Biogeocoenology, Oliver and Boyd, London, 1964.
- 59
- Szeicz J.M., White spruce light rings in northwestern Canada, Arctic and Alpine Research 28 (1996) 184-189.
- 60
- Tabachnik B.G., Fidell L.S., Using multivariate statistics. 3rd ed., Harper Collins, New York, 1996.
- 61
- Tranquillini W., Physiological Ecology of the Alpine Timberline, Springer. Berlin- Heidelberg, 1979.
- 62
- Wiles G.C., D'Arrigo R.D., Jacoby G.C., Temperature changes along the Gulf of Alaska and the Pacific Northwest coast modelled from coastal tree rings, Can. J. For. Res. 26 (1996) 474-481.
- 63
- Worall J., Interrelationships among some phenological and wood property variables in Norway spruce, Tappi 53 (1970) 58-63.
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