Low-Frequency Signals in Long Tree-Ring Chronologies for Reconstructing Past Temperature Variability

Preserving multicentennial climate variability in long tree-ring records is critically important for reconstructing the full range of temperature variability over the past 1000 years. This allows the putative “Medieval Warm Period” (MWP) to be described and to be compared with 20th-century warming in modeling and attribution studies. We demonstrate that carefully selected tree-ring chronologies from 14 sites in the Northern Hemisphere (NH) extratropics can preserve such coherent large-scale, multicentennial temperature trends if proper methods of analysis are used. In addition, we show that the average of these chronologies supports the large-scale occurrence of the MWP over the NH extratropics.

[1]  Fritz H. Schweingruber,et al.  Tree-ring based reconstruction of summer temperatures at the Columbia Icefield, Alberta, Canada, AD 1073-1983 , 1997 .

[2]  G. Jacoby,et al.  Mongolian Tree Rings and 20th-Century Warming , 1996, Science.

[3]  Bernd Kromer,et al.  Persistent Solar Influence on North Atlantic Climate During the Holocene , 2001, Science.

[4]  H. Lamb The early medieval warm epoch and its sequel , 1965 .

[5]  Malcolm K. Hughes,et al.  Was there a ‘medieval warm period’, and if so, where and when? , 1994 .

[6]  V. Lamarche,et al.  Paleoclimatic Inferences from Long Tree-Ring Records , 1974, Science.

[7]  Thomas J. Crowley,et al.  How Warm Was the Medieval Warm Period? , 2000 .

[8]  G. MacDonald,et al.  Dendroclimatic Reconstruction of Summer Temperatures in Northwestern Canada since A.D. 1638 Based on Age-Dependent Modeling , 1995, Quaternary Research.

[9]  Edward R. Cook,et al.  The 'segment length curse' in long tree-ring chronology development for palaeoclimatic studies , 1995 .

[10]  Mark New,et al.  Surface air temperature and its changes over the past 150 years , 1999 .

[11]  M. Hughes,et al.  Northern hemisphere temperatures during the past millennium: Inferences, uncertainties, and limitations , 1999 .

[12]  W. Broecker,et al.  Was the Medieval Warm Period Global? , 2001, Science.

[13]  S. Goldhor Ecology , 1964, The Yale Journal of Biology and Medicine.

[14]  K. Briffa Annual climate variability in the Holocene: interpreting the message of ancient trees , 2000 .

[15]  P. Jones,et al.  The Evolution of Climate Over the Last Millennium , 2001, Science.

[16]  P. Jones,et al.  Unusual twentieth-century summer warmth in a 1,000-year temperature record from Siberia , 1995, Nature.

[17]  M. Mann Little Ice Age , 2002 .

[18]  F. Schweingruber,et al.  1300 years of climatic history for Western Central Asia inferred from tree-rings , 2002 .

[19]  P. Jones,et al.  Low-frequency temperature variations from a northern tree ring density , 2001 .

[20]  F. H. Schweingruber,et al.  Reduced sensitivity of recent tree-growth to temperature at high northern latitudes , 1998, Nature.

[21]  Heidi Cullen,et al.  A Pervasive Millennial-Scale Cycle in North Atlantic Holocene and Glacial Climates , 1997 .

[22]  L. Graumlich,et al.  HOLOCENE DYNAMICS OF TREELINE FORESTS IN THE SIERRA NEVADA , 1997 .

[23]  Crowley,et al.  Atmospheric science: Methane rises from wetlands , 2011, Nature.

[24]  M. Benarie Methods of dendrochronology , 1991 .