Abstract
Dendrochronology is the science of tree-ring analysis. It derives from the Greek root words dendron for tree and chronos for time. Thus, dendrochronology uses the history of tree growth, as expressed in its annually produced radial growth rings, to provide information about the past. The realization that trees growing in suitable environments put on one annual ring of growth per year has a very long history going back at least to Theophrastus in ancient Greece. However, it was not until the early twentieth century that the basic principles of dendrochronology were formally developed and exploited. Annual tree-ring chronologies can also be used to reconstruct past climate. This branch of dendrochronology is called dendroclimatology.
References
- 1 Webb, G.E. (1983). Tree Rings and Telescopes: The Scientific Career of A. E. Douglass, The University of Arizona Press, Tucson.
- 2 Studhalter, R.A. (1956). Early history of crossdating, Tree-Ring Bulletin 21, 31–35.
- 3
Douglass, A.E.
(1919).
Climatic Cycles and Tree Growth, Vol.
I,
A Study of the Annual Rings of Trees in Relation to Climate and Solar Activity,
Carnegie Institute of Washington, Publication No. 289.
10.5962/bhl.title.21707 Google Scholar
- 4 Douglass, A.E. (1928). Climatic Cycles and Tree Growth, Vol. II, A Study of the Annual Rings of Trees in Relation to Climate and Solar Activity, Carnegie Institute of Washington, Publication No. 289.
- 5 Stokes, M.A. & Smiley, T.L. (1968). An Introduction to Tree-Ring Dating, University of Chicago Press, Chicago.
- 6 Schulman, E. (1956). Dendroclimatic Changes in Semiarid America, The University of Arizona Press, Tucson.
- 7 Haury, E. (1962). HH-39: Recollections of a dramatic moment in southwestern archaeology, Tree-Ring Bulletin 24, 11–14.
- 8 Baillie, M.G.L. (1982). Tree-Ring Dating and Archaeology, The University of Chicago Press, Chicago.
- 9 Baillie, M.G.L. & Pilcher, J.R. (1973). A simple cross-dating program for tree-ring research, Tree-Ring Bulletin 33, 7–14.
- 10 Holmes, R.L. (1983). Computer-assisted quality control in tree-ring dating and measurement, Tree-Ring Bulletin 43, 69–78.
- 11 Fritts, H.C. (1976). Tree Rings and Climate, Academic Press, New York.
- 12
E.R. Cook &
L.A. Kairiukstis, eds
(1990).
Methods of Dendrochronology: Applications in the Environmental Sciences,
Kluwer,
Dordrecht.
10.1007/978-94-015-7879-0 Google Scholar
- 13 Fritts, H.C. (1991). Reconstructing Large-Scale Climatic Patterns from Tree-Ring Data, The University of Arizona Press, Tucson.
- 14 Cook, E.R. & Peters, K. (1981). The smoothing spline: a new approach to standardizing forest interior tree-ring width series for dendroclimatic studies, Tree-Ring Bulletin 41, 45–53.
- 15 Cook, E.R., Briffa, K.R., Meko, D.M., Graybill, D.A. & Funkhouser, G. (1995). The ‘segment length curse’ in long tree-ring chronology development for paleoclimatic studies, The Holocene 5, 229–237.
- 16
Briffa, K.R.,
Jones, P.D.,
Schweingruber, F.H.,
Karlen, W. &
Shiyatov, S.G.
(1996).
Tree-ring variables as proxy-indicators: problems with low-frequency signals, in
Climatic Variations and Forcing Mechanisms of the Last 2000 Years,
NATO ASI Series I, Vol.
41,
P.D. Jones,
R.S. Bradley &
J. Jouzel, eds, pp.
9–41.
10.1007/978-3-642-61113-1_2 Google Scholar
- 17 Fritts, H.C., Mosimann, J.E. & Bottorff, C.P. (1969). A revised computer program for standardizing tree-ring series, Tree-Ring Bulletin 29, 15–20.
- 18 Briffa, K.R. & Jones, P.D. (1990). Basic chronology statistics and assessment, in Methods of Dendrochronology: Applications in the Environmental Sciences, E.R. Cook & L.A. Kairiukstis, eds, Kluwer, Dordrecht, pp. 137–152.
- 19 Wigley, T.M.L., Briffa, K.R. & Jones, P.D. (1984). On the average value of correlated time series, with applications in dendroclimatology and hydrometeorology, Journal of Climate and Applied Meteorology 23, 201–213.
- 20 Fritts, H.C. (1962). An approach to dendroclimatology: screening by means of multiple regression techniques, Journal of Geophysical Research 67, 1413–1420.
- 21
Fritts, H.C.,
Blasing, T.J.,
Hayden, B.P. &
Kutzbach, J.E.
(1971).
Multivariate techniques for specifying tree-growth and climate relationships and for reconstructing anomalies in paleoclimate,
Journal of Applied Meteorology
10,
845–864.
10.1175/1520-0450(1971)010<0845:MTFSTG>2.0.CO;2 Google Scholar
- 22 Cook, E.R., Meko, D.M., Stahle, D.W. & Cleaveland, M.K. (1999). Drought reconstructions for the continental United States, Journal of Climate 12, 1145–1162.
- 23 Cook, E.R., Briffa, K.R. & Jones, P.D. (1994). Spatial regression methods in dendroclimatology: a review and comparison of two techniques, International Journal of Climatology 14, 379–402.
- 24 Briffa, K.R., Jones, P.D. & Schweingruber, F.H. (1988). Summer temperature patterns over Europe: a reconstruction from 1750 A.D. based on maximum latewood density indices of conifers, Quaternary Research 30, 36–52.
- 25 Briffa, K.R., Jones, P.D. & Schweingruber, F.H. (1992). Tree-ring density reconstructions of summer temperature patterns across western North America since 1600, Journal of Climate 5, 735–754.
- 26 Schweingruber, F.H., Braeker, O.U. & Schaer, E. (1987). Temperature information from a European dendroclimatological sampling network, Dendrochronologia 5, 9–33.
- 27 Schweingruber, F.H., Briffa, K.R. & Jones, P.D. (1991). Yearly maps of summer temperatures in western Europe from A.D. 1750 to 1975 and western North America from 1600 to 1982: results of a radiodensitometrical study on tree rings, Vegetatio 92, 5–71.
- 28 D'Arrigo, R.D., Jacoby, G.C. & Free, R.M. (1992). Tree-ring width and maximum latewood density at the North American tree line: parameters of climatic change, Canadian Journal of Forest Research 22, 1290–1296.
- 29 Briffa, K.R., Jones, P.D., Schweingruber, F.H., Shiyatov, S.G. & Cook, E.R. (1995). Unusual twentieth-century summer warmth in a 1000-year temperature record from Siberia, Nature 376, 156–159.
- 30 Cook, E.R., Buckley, B.M., D'Arrigo, R.D. & Peterson, M.J. (2000). Warm-season temperatures since 1600 BC reconstructed from Tasmanian tree rings and their relationship to large-scale sea surface temperature anomalies, Climate Dynamics 16, 79–91.
- 31 Jacoby, G.C. Jr & D'Arrigo, R. (1989). Reconstructed northern hemisphere annual temperature since 1671 based on high-latitude tree-ring data from North America, Climatic Change 14, 39–59.
- 32 Jones, P.D., Briffa, K.R., Barnett, T.P. & Tett, S.F.B. (1998). High-resolution palaeoclimatic records for the last millennium: interpretation, integration and comparison with general circulation model control-run temperatures, The Holocene 8, 455–471.
- 33 Mann, M.E., Bradley, R.S. & Hughes, M.K. (1999). Northern Hemisphere temperatures during the past millennium: inferences, uncertainties, and limitations, Geophysical Research Letters 26, 759–762.
- 34 Overpeck, J., Hughen, K., Hardy, D., Bradley, R., Case, R., Douglas, M., Finney, B., Gajewski, K., Jacoby, G., Jennings, A., Lamoureux, S., Lasca, A., MacDonald, G., Moore, J., Retelle, M., Smith, S., Wolfe, A. & Zielinski, G. (1997). Arctic environmental change of the last four centuries, Science 278, 1251–1256.
- 35
Schweingruber, F.H.
(1988).
Tree Rings: Basics and Applications of Dendrochronology,
D. Reidel,
Dordrecht.
10.1007/978-94-009-1273-1 Google Scholar
