Abstract
Abstract. A compilation of the published literature on dust content in terrestrial and marine sediment cores was synchronized with pollen data and speleothem growth phases on the Greenland Ice Core Chronology 2005 (GICC05) time axis. Aridity patterns for eight key areas of the global climate system have been reconstructed for the last 60 000 years. These records have different time resolutions and different dating methods, i.e. different types of stratigraphy. Nevertheless, all regions analysed in this study show humid conditions during early Marine Isotope Stage 3 (MIS3) and the early Holocene or deglaciation, but not always at the same time. Such discrepancies have been interpreted as regional effects, although stratigraphic uncertainties may affect some of the proposed interpretations. In comparison, most of the MIS2 interval becomes arid in all of the Northern Hemisphere records, but the peak arid conditions of the Last Glacial Maximum (LGM) and Heinrich event 1 differ in duration and intensity among regions. In addition, we also compare the aridity synthesis with modelling results using a global climate model (GCM). Indeed, geological archives and GCMs show agreement on the aridity pattern for the Holocene or deglaciation, for the LGM and for late MIS3.
Highlights
Two of the main foci of palaeoclimate research today are (i) well-dated, high-resolution archives of past climate and (ii) modelling of global and regional characteristics with global climate models (GCMs), which include the main processes in the atmosphere, ocean, land and cryosphere as well as their coupling
We used the original stratigraphy of all records on the age scale of years b2k, but we are aware of a general error of up to ± 2000 years for all Marine Isotope Stage 3 (MIS3) dates
We use the long records of the Eifel Laminated Sediment Archive (ELSA) project at the University of Mainz (Sirocko, 2016; Sirocko et al, 2005, 2013) as a starting point for our study
Summary
Two of the main foci of palaeoclimate research today are (i) well-dated, high-resolution archives of past climate (e.g. marine and terrestrial sediments, speleothems, tree rings and ice cores) and (ii) modelling of global and regional characteristics with global climate models (GCMs), which include the main processes in the atmosphere, ocean, land and cryosphere as well as their coupling. A reliable model of past climate change should faithfully reproduce the observed climate patterns as reconstructed from geo-archives. We will test this prerequisite for a set of records that approximate past global aridity. One prerequisite of the project was to work only with publicly available data sets. We had to use only available data sets from publicly accessible databases (PANGAEA, NOAA-NCDC, Neotoma (global pollen database), ice core database from the University of Copenhagen, SISAL (speleothem database) and EPD (European Pollen Database)).
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