Two independent calibrated and verified climate reconstructions from ecologically contrasting tree-ring sites in the southern Colorado Plateau, U.S.A. reveal decadal-scale climatic trends during the past two millennia. Combining precisely dated annual mean-maximum temperature and October through July precipitation reconstructions yields an unparalleled record of climatic variability. The approach allows for the identification of thirty extreme wet periods and thirty-five extreme dry periods in the 1,425-year precipitation reconstruction and 30 extreme cool periods and 26 extreme warm periods in 2,262-year temperature reconstruction. In addition, the reconstructions were integrated to identify intervals when conditions were extreme in both climatic variables (cool/dry, cool/wet, warm/dry, warm/wet). Noteworthy in the reconstructions are the post-1976 warm/wet period, unprecedented in the 1,425-year record both in amplitude and duration, anomalous and prolonged late 20th century warmth, that while never exceeded, was nearly equaled in magnitude for brief intervals in the past, and substantial decadal-scale variability within the Medieval Warm Period and Little Ice Age intervals.
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Allen, C. D., Betancourt, J. L., and Swetnam, T. W.: 1998, ‘Landscape changes in the Southwestern United States: Techniques, long-term data sets, and trends’, Sisk, T. (ed.), Perspectives on the land use history of north America: A context for understanding our changing environment, USGS Biological Science Report USGS/BRD/BSR 1998–03, pp. 71–84.
Barber, V. A., Juday, G. P., and Finney, B. P.: 2000, ‘Reduced growth of Alaskan white spruce in the twentieth century from temperature-induced drought stress’, Nature 405, 668–672.
Betancourt, J. L., Pierson, E. A., Aasen-Rylander, K., Fairchild-Parks, J. A., and Dean, J. S.: 1993, ‘Influence of history and climate on New Mexico Pinyon-Juniper Woodlands’ in Proceedings of managing pinyon-juniper ecosystems for sustainability and social needs, USDA Forest Service General Tech. Report, RM-236, Santa Fe, NM, pp. 42–62.
Briffa, K. R., Bartholin T. S., Eckstein, D., Jones, P. D., Karlen, W, Schweingruber, F. H., and Zetterberg, P.: 1990, ‘A 1,400-year tree-ring record of summer temperatures in Fennoscandia’, Nature 346, 434–439.
Briffa, K. R., Jones, P. D., Bartholin, T. S., Eckstein, D., Schweingruber, F. H., Karlen, W., and Zetterberg, P.: 1992a: ‘Fennoscandian summers from AD 500: Temperature change on short and long timescales’, Clim. Dyn. 7, 111–119.
Briffa, K. R., Jones, P. D., and Schweingruber, F. H.: 1992b, ‘Tree-ring density reconstructions of summer temperature patterns across Western North America since 1600, J. Climatol. 5, 735–744.
Briffa, K. R., Jones, P. D., and Schweingruber, F. H.: 1994, ‘Summer temperatures across Northern North America: Regional reconstructions from 1760 using tree-ring densities’, J. Geophys. Res. 99(D12), 25,835–25,844.
Cayan, D. R., Dettinger, M. D., Diaz, H. F., and Graham, N.: 1998, ‘Decadal variability of precipitation over Western North America’, J. Clim. 11, 3148–3166.
Chatfield, C.: 1996, The Analysis of Timeseries: an Introduction, 5th edn., Chapman and Hall, New York.
Cook, E. R.: 1985, A Time Series Approach to Tree-Ring Standardization, Ph.D. Dissertation, Laboratory of Tree-Ring Research, University of Arizona, Tucson.
Cook, E. R. and Peters, K.: 1981, ‘The smoothing spline: a new approach to standardizing forest interior tree-ring width series for dendroclimatic studies’, Tree-Ring Bull. 41, 45–53.
Cook, E. R. and Kairiukstis, L.: 1990, Methods of Dendrochronology, Kluwer, Dordrecht.
Cook, E. R., Briffa, K. R., Meko, D. M., Graybill, D., and Funkhouser, G.: 1995, ‘The “segment length curse” in long tree-ring chronology development for palaeoclimatic studies’, Holocene 5, 229–237.
Dean, J. S.: 1988, ‘Dendrochronology and paleoenvironmental reconstruction on the Colorado Plateaus’, in Gumerman, G. J. (ed), The Anasazi in a Changing Environment, Cambridge University Press, Cambridge, pp. 119–167.
Dean, J. S.: 1994, ‘The medieval warm period on the Southern Colorado Plateau’, Clim. Change 26, 225–241.
Dean, J. S. and Robinson, W. J.: 1978, ‘Expanded tree-ring chronologies for the Southwestern United States’, Chronology Series III, Laboratory of Tree-Ring Research, The University of Arizona, Tucson.
Dettinger, M. D., Cayan, D. R., Diaz, H. F., and Meko, D. M.: 1998, ‘North-South precipitation patterns in Western North America on interannual-to-decadal timescales’, J. Clim. 11, 3095–3111.
Ebbesmeyer, C. C., Cayan, D. R., McLain, D. R., Nichols, F. H., Peterson, D. H., and Redmond, K. T.: 1991, ‘1976 step in the Pacific climate: Forty environmental changes between 1968–1975 and 1977–1984’, in Proceedings of Seventh Annual Pacific Climate (PACLIM) Workshop, California Department of Water Resources, pp. 115–126.
Fritts, H. C.: 1969, ‘Bristlecone pine in the White Mountains of California, growth and ring-width characteristics’, Papers of the Laboratory of Tree-Ring Research IV, The University of Arizona, Tucson.
Fritts, H. C.: 1976, Tree-Rings and Climate, Academic Press, London.
Fritts, H. C.: 1991, Reconstructing Large-Scale Climatic Patterns from Tree-Ring Data, University of Arizona Press, Tucson.
Graumlich, L. J.: 1993, ‘A 1000-year record of temperature and precipitation in the Sierra Nevada’, Quater. Res. 39, 249–255.
Gray, S. T., Betancourt, J. L., Fastie, C. L., and Jackson, S. T.: 2003, ‘Patterns and sources of multidecadal oscillations in drought-sensitive tree-ring records from the Central and Southern Rocky Mountains’, Geophys. Res. Lett. 30, 1316.
Graybill, D. A. and Funkhowser, G. S.: 1999, ‘Dendroclimatic reconstructions during the past millennium in the Southern Sierra Nevada and Owens Valley, California’, in Rose, M. R. and Wigand, P. E. (eds), Proceedings of the Southern California Climate Symposium, Technical Report No. 11, Natural History Museum of Los Angeles County, pp. 239–269.
Graybill, D. A. and Idso, S. B.: 1993, ‘Detecting the aerial fertilization effect of atmospheric CO2 enrichment in tree-ring chronologies’, Global Biogeochem. Cycles 7, 81–95.
Grissino-Mayer, H. D.: 1995, Tree-Ring Reconstructions of Climate and Fire History at El Malpais National Monument, New Mexico, Ph.D. Dissertation, Laboratory of Tree-Ring Research, The University of Arizona, Tucson, University Microfilms International, Ann Arbor.
Hughes, M. K. and Diaz, H. F.: 1994, ‘Was there a medieval warm period, and if so, where and when?, Clim. Change 26, 109–142.
Jacoby, G. C., Cook, E. R., and Ulan, L. D.: 1985, ‘Reconstructed summer degree days in Central Alaska and Northwestern Canada since 1524, Quater. Res. 23, 18–26.
Jacoby, G. C. and D’Arrigo, R.: 1989, ‘Reconstructed Northern Hemisphere annual temperature since 1671 based on high latitude tree-ring data from North America’, Clim. Change 14, 39–59.
Johnson, R. A.: 1994, Miller and Freund’s Probability and Statistics for Engineers, 5th edn., Prentice-Hall, Englewood Cliffs, New Jersey.
Kipfmueller, K. F.: 1993, Fire-Climate-Vegetation Interactions in Subalpine Forests of the Selway-Bitteroot Wilderness Area, Idaho and Montana, USA, Ph.D. Dissertation, Laboratory of Tree-Ring Research, Department of Geography, The University of Arizona, Tucson, University Microfilms International, Ann Arbor.
LaMarche, V. C. Jr.: 1973, ‘Holocene climatic variations inferred from treeline fluctuations in the White Mountains, California’, Quater. Res. 3, 632–660.
LaMarche, V. C. Jr.: 1974, ‘Paleoclimatic inferences from long tree-ring records’, Science 183, 1043–1048.
LaMarche, V. C. Jr. and Stockton, C. W.: 1974, ‘Chronologies from temperature-sensitive Bristlecone Pines at upper treeline in Western United States’, Tree-Ring Bull. 34, 21–45.
LaMarche, V. C., Graybill, D. A., Fritts, H. C., and Rose, M. R.: 1984, ‘Increasing atmospheric carbon dioxide: Tree-ring evidence for growth enhancement in natural vegetation’, Science 225, 1019–1021.
Lamb, H. H.: 1977, Climate: Past, Present, and Future, Methuen, London.
Lara, A. and Villalba, R.: 1993, ‘A 3620-year temperature record from Fitzroya cupressoides tree rings in Southern South America’, Science 260, 1104–1106.
Luckman, B. H., Briffa, K. R., Jones, P. D., and Schweingruber, F. H.: 1997, ‘Tree-ring based reconstruction of summer temperatures at the Columbia Icefield, Alberta, Canada, AD 1073–1983’, Holocene 7, 375–389.
Mantua, N. J., Hare, S. R., Zhang, Y., Wallace, J. M., and Francis, R. C.: 1997, ‘A Pacific interdecadal climate oscillation with impacts on salmon production’, Bull. Am. Meteorol. Soc. 78(6), 1069–1079.
Mooney, H. A., West, M., and Brayton, R.: 1966, ‘Field measurements of the metabolic responses of Bristlecone Pine and big sagebrush in the White Mountains of California’, Bot. Gaz. 127, 105–113.
Salzer, M. W.: 2000a, Dendroclimatology in the San Francisco Peaks Region of Northern Arizona, U.S.A., Ph.D. Dissertation, Laboratory of Tree-Ring Research, Department of Geosciences, The University of Arizona, Tucson, University Microfilms International, Ann Arbor.
Salzer, M. W.: 2000b, ‘Temperature variability and the Northern Anasazi: Possible implications for regional abandonment’, Kiva 64(4), 295–318.
Schulze, E. D., Mooney, H. A., and Dunn, E. L.: 1967, ‘Wintertime photosynthesis of Bristlecone Pine (Pinus aristata) in the White Mountains of California’, Ecology 48, 1044–1047.
Scuderi, L. A.: 1990, ‘Tree-ring evidence for climatically effective volcanic eruptions’, Quater. Res. 34, 67–85.
Scuderi, L. A.: 1993, ‘A 2000-year tree ring record of annual temperatures in the Sierra Nevada Mountains’, Science 259, 1433–1436.
Stahle, D. W., Cook, E. R., Cleaveland, M. K., Therrell, M. D., Meko, D. M., Grissino-Mayer, H. D., Watson, E., and Luckman, B. H.: 2000, ‘Tree-ring data document 16th century megadrought over North America’, EOS 81, 121–125.
Stockton, C. W.: 1975, Long Term Streamflow Records Reconstructed from Tree-Rings, University of Arizona Press, Tucson.
Swetnam, T. W. and Betancourt, J. L.: 1998, ‘Mesoscale disturbance and ecological response to decadal climatic variability in the American Southwest’, J. Clim. 11, 3128–3147.
Swetnam, T. W. and Brown, P. M.: 1992, ‘Oldest known conifers in the Southwestern United States: Temporal and spatial patterns of maximum age’, in Proceedings of the Workshop on Old-Growth Forests in the Rocky Mountains and Southwest: The Status of Our Knowledge, USDA Forest Service General Tech. Report RM-GTR 213, Portal, AZ, pp. 24–38.
Tranquillini, W.: 1964, ‘The physiology of plants at high altitudes’, Ann. Rev. Plant Physiol. 15, 345–362.
Trenberth, K. E. and Hoar, T. J.: 1996, ‘The 1990–1995 El Niño-Southern Oscillation event: Longest on record’, Geophys. Res. Lett. 23, 57–60.
Trenberth, K. E. and Hoar, T. J.:1997, ‘El Niño and climate change, Geophys. Res. Lett. 24, 3057–3060.
Vaganov, E. A., Hughes, M. K., Kirdyanov, A. V., Schweingruber, F. H., and Silkin, P. P.: 1999, ‘Influence of snowfall and melt timing on tree growth in subarctic Eurasia’, Nature 400, 149–151.
Weisberg, S.: 1985, Applied Linear Regression, 2nd edn., Wiley, New York.
Wigley, T. M. L., Briffa, K. R., and Jones, P. D.:1984, On the average value of correlated time series, with applications in dendroclimatology and hydometeorology’, J. Clim. Appl. Meteorol. 23, 201–213.
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SALZER, M.W., KIPFMUELLER, K.F. Reconstructed Temperature And Precipitation On A Millennial Timescale From Tree-Rings In The Southern Colorado Plateau, U.S.A.. Climatic Change 70, 465–487 (2005). https://doi.org/10.1007/s10584-005-5922-3
- Climatic Variability
- Warm Period
- Late 20th Century
- Cool Period
- Climatic Trend