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OldList References

  • Badeau V., Becker M., Bert D., Dupouey J.-L., Lebourgeois F., Picard J.F. 1996. Long-term growth trends of trees: ten years of dendrochronological studies in France. In: Growth trends in European forests, Spiecker H., Mielikänen K., Köhl M. and Skovsgaard J.P. Eds. Springer-Verlag Berlin Heidelberg. European Forest Institute Research Report 5, 167-181.
  • Bert D., 1993. Impact of ecological factors, climatic stresses and pollution on growth anf health of silver fir (Abies alba Mill.) in the Jura mountains: an ecological and dendrochronological study. Acta Oecologica 14, 2, 229-246
  • Brown, P.M., W.D. Shepperd, C.C. Brown, S.A. Mata, and D.L. McClain. 1995. Oldest known Engelmann spruce. USDA Forest Service Rocky Mtn. Forest and Range Exper. Sta. Res. Note RM-RN-534. 6pp.
  • Brunstein, F.C., and D.K. Yamaguchi. 1992. The oldest known Rocky Mountain bristlecone pines (Pinus aristata Engelm.). Arctic and Alpine Research 24:253-256.
  • Bunkers, M.J., L.R. Johnson, J.R. Miller, and C.H. Sieg. 1999. Old Black Hills ponderosa pines tell a story. Proceedings of the South Dakota Academy of Sciences 78:149-162.
  • Colenutt, M.E., and B.H. Luckman. 1995. The dendrochronological characteristics of alpine larch. Canadian Journal of Forest Research 25:777-789.
  • Cook, E.R., T. Bird, M. Peterson, M. Barbetti, B. Buckley, R. D'Arrigo, R. Francey, and P. Tans. 1991. Climatic change in Tasmania inferred from a 1089-year tree-ring chronology of huon pine. Science 253:1266-1268.
  • Currey, D.R. 1965. An ancient bristlecone pine stand in eastern Nevada. Ecology 46:564-566.
  • Douglass, A.E. 1919. Climatic Cycles and Tree Growth: Vol. 1. A Study of the Annual Rings of Trees in Relation to Climate and Solar Activity. Carnegie Inst. of Wash. Publ. No. 289.
  • Duvick, D.N., and T.J. Blasing. 1983. Iowa's oldest oaks. Proceedings of the Iowa Academy of Science 90:32-34.
  • Giddings, Jr., J.L. 1951. The forest edge at Norton Bay, Alaska. Tree-Ring Bulletin 18:2-6.
  • Huntington, E. 1914. The Climatic Factor as Illustrated in Arid America. Carnegie Institute of Washington Publication No. 192.
  • Jones, E.W. 1959. Biological flora of the British Isles. Quercus L. Journal of Ecology 47: 169-222.
  • Lara, A., and R. Villalba. 1993. A 3620-year reconstruction of temperature from Fitzroya cupressoides tree rings in southern South America. Science 260:1104-1106.
  • Larson, D.W., and P.E. Kelly. 1991. The extent of old-growth Thuja occidentalis on cliffs of the Niagara Escarpment. Canadian Journal of Botany 69:1628-1636.
  • Luckman, B.H. 2003. Assessment of present, past and future climate variability in the Americas from treeline environments.  IAI CRN03 Annual Report 2003.
  • Luckman, B.H., E. Watson, and D.K. Youngblut. 2002. Dendroclimatic reconstruction of precipitation and temperature patterns in British Columbia and the Yukon Territory. Final Report to the Meteorological Service of Canada, Collaborative Research Agreement, 2001-2002.
  • Miles, D.H., and M.J. Worthington. 1998. Sonora Pass junipers from California USA: construction of a 3,500-year chronology. In V. Stravinskiene & R. Juknys, editors. Dendrochronology and Environmental Trends - Proceedings of the International Conference 17-21 June 1998, Kaunas, Lithuania.  Vytautas Magnas University Department of  Environmental Sciences, Kaunas.
  • Patrut, A, K F. von Reden, D.A. Lowy, A.H. Alberts, J.W. Pohlman, R. Wittmann, D. Gerlach, L. Xu and C.S. Mitchell. 2007. Radiocarbon dating of a very large African baobab. Tree Physiology 27, 1569–1574.
  • Piovesan G., Di Filippo A., Alessandrini A., Biondi F. e B. Schirone, 2005. Structure, dynamics and dendroecology of an old-growth Fagus forest in the Apennines. Journal of Vegetation Science 16: 13-28
  • Rubino, D.L. and B.C. McCarthy.  2000. Dendroclimatological analysis of white oak (Quercus alba L., Fagaceae) from an old-growth forest of southeastern Ohio, USA. Journal of the Torrey Botanical Society 127(3):240 - 250.
  • Schädelin, W. 1905. Von eine grossen Eiche. Schweiz. Z . Forstz. 56:286-7.
  • Schulman, E. 1956. Dendroclimatic Changes in Semiarid America. Univ. of Ariz. Press, Tucson.
  • Schweingruber, F.H. 1987. Tree Rings: Basics and Applications of Dendrochronology. D. Reidel Publ. Co., Dordrecht.
  • Speer, J.H. 2001. Oak mast history from dendrochronology: A new technique demonstrated in the southern Appalachian region. Ph.D. Dissertation, University of Tennessee, Knoxville. 225 p.
  • Stahle, D.W., M.K. Cleaveland, and J.G. Hehr. 1988. North Carolina climate changes reconstructed from tree rings: A.D. 372 to 1985. Science 240:1517-1519.
  • Swetnam, T. W., and P.M. Brown. 1992. Oldest known conifers in the southwestern United States: temporal and spatial patterns of maximum age. In: M.R. Kaufmann, W.H. Moir, and R.L. Bassett (tech. coor.), Old-Growth Forests in the Southwest and Rocky Mountain Regions: the Status of Our Knowledge.  Proceedings of a Workshop, Portal, Arizona, March 9-13, 1992. USDA Forest Service General Technical Report RM-213:24-38.
  • Wood, S. W., Allen, K. J., Hua, Q. and Bowman, D. M. J. S. 2010. Age and growth of a fire prone Tasmanian temperate old-growth forest stand dominated by Eucalyptus regnans, the world's tallest angiosperm. Forest Ecology and Management 260:438-447.
  • Worrall, J. 1990. Subalpine larch: oldest trees in Canada? The Forestry Chronicle :478-479.
  • Youngblut, D.K. 2003. The dendroclimatic potential of whitebark pine from the western Canadian Cordillera. M.Sc. Thesis, University of Western Ontario.

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