Monday, June 6, 2011

New paper finds temperature drop during the Little Ice Age was twice as much as prior estimates

A paper published online last week in the Journal of Climate finds global temperatures dropped twice as much as prior estimates during the Little Ice Age, and that temperatures have since recovered to levels of 1000 years ago during the Medieval Warming Period. The new multi-proxy reconstruction utilizes ice cores, sediments, tree-rings, speleothem, and pollen proxies and finds a temperature drop of about 1.1C during the Little Ice Age. Like many other temperature reconstructions, the paper also shows a prominent so-called "divergence problem" after 1960 during which reconstructions show a sharp drop in temperature diverging from thermometer records.




Temperature reconstruction of this study shown in dark blue and comparison to other reconstructions




Bo Christiansen*

Danish Meteorological Institute, Copenhagen, Denmark
Fredrik Charpentier Ljungqvist

Department of History, Stockholm University, Stockholm, Sweden






Abstract
A new multi-proxy reconstruction of the Northern Hemisphere extra-tropical mean temperature over the last millennium is presented. The reconstruction is performed with a novel method designed to avoid the underestimation of low-frequency variability that has been a general problem for regression based reconstruction methods. The disadvantage of this method is an exaggerated high-frequency variability. The reconstruction is based on a set of 40 proxies of annual to decadal resolution that have been shown to relate to the local temperature. The new reconstruction shows a very cold Little Ice Age centered around the 17th century with a cold extremum (for 50-year smoothing) of about 1.1 K below the temperature of the calibration period, AD 1880–1960. This cooling is about twice as large as corresponding numbers reported by most other reconstructions. In the beginning of the millennium the new reconstruction shows small anomalies in agreement with previous studies. However, the new temperature reconstruction decreases faster than previous reconstructions in the first 600 years of the millennium and has a stronger variability. The salient features of the new reconstruction are shown to be robust to changes in the calibration period, the source of the local temperatures, the spatial averaging procedure, and the screening process applied to the proxies. An ensemble pseudo-proxy approach is applied to estimate the confidence intervals of the 50-year smoothed reconstruction showing that the period AD 1500–1850 is significantly colder than the calibration period.

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