Abstract
Abstract. The global character of the millennial-scale climate variability associated with the Dansgaard–Oeschger (DO) events in Greenland has been well-established for the last glacial cycle. Mainly due to the sparsity of reliable data, however, the spatial coherence of corresponding variability during the penultimate cycle is less clear. New investigations of European loess records from Marine Isotope Stage (MIS) 6 reveal the occurrence of alternating loess intervals and paleosols (incipient soil horizons), similar to those from the last climatic cycle. These paleosols are correlated, based on their stratigraphical position and numbers as well as available optically stimulated luminescence (OSL) dates, with interstadials described in various Northern Hemisphere records and in GLt_syn, the synthetic 800 kyr record of Greenland ice core δ18O. Therefore, referring to the interstadials described in the record of the last climate cycle in European loess sequences, the four MIS 6 interstadials can confidently be interpreted as DO-like events of the penultimate climate cycle. Six more interstadials are identified from proxy measurements performed on the same interval, leading to a total of 10 interstadials with a DO-like event status. The statistical similarity between the millennial-scale loess–paleosol oscillations during the last and penultimate climate cycle provides direct empirical evidence that the cycles of the penultimate cycle are indeed of the same nature as the DO cycles originally discovered for the last glacial cycle. Our results thus imply that their underlying cause and global imprint were characteristic of at least the last two climate cycles.
Highlights
The last climate cycle (130–12 ka) was punctuated by two different types of abrupt climate changes
The authors refer to interstadial paleosols that do not correspond to the identified individual interstadials but rather to a group of them (L2-4 groups B17, B16, and B15, while L2-2 gathers B11 to B5). This observation is similar to what was described for the last climate cycle record by Sun et al (2012): not every interstadial is individually resolved in the stratigraphy, contrary to the various paleosols in the European loess sequences at about 50◦ N, which correspond one to one with the Greenland interstadials
The identification of interstadials and paleosols in the Harletz Marine Isotope Stage (MIS) 6 record, which were not known previously in the loess records of the nearby sequences, led us to evaluate the significance of these warm and moist episodes. Such events appear to have equivalents in the northern Mediterranean region and are expressed through different parameters. Some of these events correspond to very humid episodes as recorded in speleothems, corresponding to the deposition of Sapropel 6 in the Mediterranean Sea, associated with a northward shift in the position of the summer Intertropical Convergence Zone (ITCZ)
Summary
The last climate cycle (130–12 ka) was punctuated by two different types of abrupt climate changes. Contrary to the pollen records, wherein some dating uncertainty remains, the 14C dates obtained from earthworm granules preserved in each individual paleosol described in the loess sequences perfectly confirm this correlation (Moine et al, 2017) These new results confirmed the initial hypothesis that the length of the Greenland interstadials (GISs) corresponds to the matureness of the paleosols in Europe, from boreal brown paleosols, to tundra gleys, and even embryonic tundra gley horizons. At Harletz, the lower record of MIS 6 indicates five paleosols to incipient weathered horizons of various maturation (ISp) They are distributed along a decreasing trend in the clay content, the color reflectance, and the magnetic susceptibility but along an increasing trend in the coarse sand and the grain size ratio (coarse + fine sand– clay) (Fig. 1). Unique among the other loess sequences from the area, can these paleosols and incipient weathered horizons and interstadials be related to more global events as interpreted for last climate cycle paleosols?
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
