Contrasting patterns of Last-deglacial and Holocene precipitation between the southern and northern portions of Arid Central Asia

• Published in: Palaeogeography, palaeoclimatology, palaeoecology Vol. 634; p. 111946
• Main Authors: Zhang, Dongliang, Zhang, Yangyang, Feng, Zhaodong
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.01.2024
• Subjects: Arid Central Asia; Last deglaciation; Loess; Modern analogue techniques; Pollen; Precipitation; Loess; Precipitation; Pollen; Arid Central Asia; Modern analogue techniques; Last deglaciation
• ISSN: 0031-0182; 1872-616X
• DOI: 10.1016/j.palaeo.2023.111946

The north-south migration of prevailing westerly system shapes the seasonality of modern precipitation in Arid Central Asia (ACA). The temperate continental climate with warm-season precipitation dominates the northern ACA and the Mediterranean climate with cold-season precipitation dominates the southern ACA. However, the north-south contrasts of precipitation/moisture for longer time scales remain unknown. In this study, we quantitatively reconstructed the precipitation sequence covering the past ~14.4 cal. kyr BP based on pollen data obtained from Shayan loess section in southern ACA using MAT (Modern Analogue Technique) method. Our reconstruction shows that the precipitation had an increasing trend from ~14.4 to ~8.2 cal. kyr BP and a decreasing trend from ~8.2 to ~1.5 cal. kyr BP with the past 1500 years being characterized by an averagely high precipitation. The precipitation trend in southern ACA was rather different from that in northern ACA where the precipitation has increased more or less constantly since the late deglaciation. The contrast between southern and northern ACA appears to have been associated with the south-north migration of westerlies that was accompanied with alterations of NAO (North Atlantic Oscillation) phases and also with changes in strengths of Siberian High and ENSO (El Nino-southern Oscillation). •Pollen-based precipitation since ~14.4 cal. kyr BP was reconstructed using MAT method in southern ACA .•Last-deglacial precipitation trend in southern ACA was different from that in northern ACA.•Contrast between southern and northern ACA is associated with the westerlies, NAO phases, Siberian High and ENSO.