Geoscience Reference
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Kozlowski TT, Pallardy SG (1997) Growth control in woody plants. Academic, San Diego, 641 pp
Kutscha NP, Hyland F, Schwarzmann JM (1975) Certain seasonal changes in balsam fir cambium
and its derivatives. Wood Sci Technol 9:175-188
Larson PR (1962) The indirect effect of photoperiod on tracheid diameter in Pinus resinosa .
Am J Bot 49:132-137
Larson PR (1964) Some indirect effects of environment on wood formation. In: Zimmermann M
(ed) The formation of wood in forest trees. Academic, New York, pp 345-366
Larson PR (1969) Wood formation and the concept of wood quality. School of Forestry and
Environmental Studies, Bull No 74. Yale University, New Haven, Connecticut, USA, pp 3-17
Larson PR (1994) The vascular cambium: development and structure. Springer-Verlag, New York,
Berlin, Doldrecht, 725 pp
Leikola M (1969) The influence of environmental factors on the diameter growth of young trees.
Acta For Fenn 92:1-44
LeRoux X, Laconinte A, Escobar-Guitierrez A, LeDizès S (2001) Carbon-based models of
individual tree-growth: a critical appraisal. Ann For Sci 58:469-506
Lev-Yadun S, Aloni R (1995) Differentiation of the ray system in woody plants. Bot Rev 61:45-84
Makela A (1990) Modeling structural-functional relationships in whole-tree growth: resource allo-
cation. In: Dixon R, Meldahl R, Ruark G, Warren W (eds) Process-modeling of forest growth
responses to environmental stress. Timber Press, Portland, Oregon, pp 81-95
Mann ME, Bradley RS, Hughes MK (1998) Global-scale temperature patterns and climate forcing
over the past six centuries. Nature 392:779-787
McCarroll D, Loader NJ (2004) Stable isotopes in tree rings. Quaternary Sci Rev 23:771-801
Mikola P (1962) Temperature and tree growth near the northern timberline. In: Kozlowski TT (ed)
Tree growth. Ronald, New York, pp 265-287
Misson L (2004) Maiden: a model for analyzing ecosystem processes in dendroecology. Can J
Forest Res 34:874-887
Mullen JL, Ishikawa H, Evans ML (1998) Analysis of changes in relative elemental growth rate
patterns in the elongation zone of Arabidopsis roots upon gravistimulation. Planta 206:598-603
Nieminen KM, Kauppinen L, Helariutta Y (2004) A weed for wood? Arabidopsis as a genetic
model for xylem development. Plant Physiol 135:653-659
Parkerson RH, Whitmore F (1972) A correlation of stem sugars, starch, and lipid with wood
formation in eastern white pine. Forest Sci 18:178-183
Pederson N, Cook ER, Jacoby GC, Peteet DM, Griffin KL (2004) The influence of winter tempera-
tures on the annual radial growth of six northern-range-margin tree species. Dendrochronologia
22:7-29
Peterson TC, Vose RS (1997) An overview of the global historical climatology network tempera-
ture database. B Am Meteorol Soc 78:2837-2849
Plomion C, Leprovost G, Stokes A (2001) Wood formation in trees. Plant Physiol 127:1513-1523
Preston RD (1974) The physical biology of plant cell walls. Chapman and Hall, London, 250 pp
Pritchard J (1994) The control of cell expansion in roots. New Phytol 127:3-26
Rayle DL, Cleland RE (1992) The acid growth theory of auxin-induced cell elongation is alive and
well. Plant Physiol 99:1271-1274
Richardson DD (1964) The external environment and tracheid size in conifers. In: Zimmermann
M (ed) The formation of wood in forest trees. Academic, New York, pp 367-388
Roberts LW (1976) Cytodifferentiation in plants: xylogenesis as a model system. Cambridge
University Press, Cambridge, 160 pp
Roland JC (1978) Early differences between radial walls and tangential walls of actively growing
cambial zone. IAWA Bull 1:7-10
Rossi S, Deslauriers A, Anfodillo T, Morin H, Saracino A, Motta R, Borghetti R (2006) Conifers in
cold environments synchronize maximum growth rate of tree-ring formation with day length.
New Phytol 170:301-310
Rossi S, Deslauriers A, Anfodillo T, Carraro V (2007) Evidence of threshold temperatures for
xylogenesis in conifers at high altitudes. Oecologia152:1-12
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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