Climate instability during the penultimate glaciation: Evidence from two high-resolution loess records, China

The Xinzhuangyuan and Lijiayuan loess sections in the northwestern part of the Chinese Loess Plateau were studied down to paleosol unit S2, which probably formed during marine oxygen isotopic stage 7, similar to 200,000 years B.P. The thickness of the loess-soil sequence above S2 is similar to 63 m at Xinzhuangyuan and 43 m at Lijiayuan. A 2 cm sample spacing yields a mean depositional resolution of 50-80 years for the last and penultimate glacial loess units (L1 and L2) and similar to 200 years for the last interglacial soil unit (S1), thus:enabling us to reconstruct high-resolution climatic changes during the last two glacial-interglacial cycles. The grain size records of the two sections are regarded as a proxy for changes in the monsoon-desert system over northern China. Results show that frequent, large-amplitude climatic oscillations on millennial timescales occurred during the penultimate glaciation in a manner similar to that during the last glaciation, suggesting that suborbital-scale climatic variations may be a common feature of the climate system during glacial periods of the Pleistocene. The last interglacial soil (S1) is composed of three individual soils and two thin intervening loess horizons in both of the sections. Short-term variations in grain size are not prominent within the soil complex, implying the absence of strong millennial-scale climatic oscillations during the last interglaciation in northern China.