Environmental magnetic records derived from lacustrine sediments in the Western Guangdong Province, China: Implications for Late-Holocene climatic/environmental changes

Yingyi Du, Wei Zhong, Shengtan Shang, Zhi Wang, Xiaojun Wang, Mingying Quan, Tianhang Li
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Abstract

The western Guangdong Province (WGDP) in China, influenced by both the East Asian and the Indian summer monsoon, is a pivotal region for exploring the Asian summer monsoon (ASM) evolution. So far, there still lacks detail studies on late Holocene climatic/environmental changes here. In this study, multiple magnetic parameters were measured on the lake sediments of Hedong section in this area. Results indicated a dominance of pseudo-single-domain detrital (titano-)magnetite or maghemite mixed with paramagnetic and anti-ferromagnetic minerals in sediments, and the impacts of authigenic greigite, bacterial activity, post-depositional dissolution, and dilution effects were trivial. Changes in rainfall-induced surface erosion intensity were determined as a role in sediment magnetic properties. Intensified surface erosion deduced by increased rainfall favored enhanced concentrations and more coarse-grained magnetic minerals in sediments, and vice versa. Thus, the magnetic parameters can be used to reflect varying ASM strength in the past ~4300 years. They revealed four relatively humid (strengthened ASM) (i.e., 4300–4000 cal. yr BP, 3500–3130 cal. yr BP, 2640–1950 cal. yr BP, and 1250–850 cal. yr BP), and three dry periods (weakened ASM) (i.e., 4000–3500 cal. yr BP, 3130–2640 cal. yr BP, and 1950–1250 cal. yr BP) which coincided with the Bond events 3, 2, and 1 respectively. In combination with the three significant cycles (i.e., 1250-, 75-, and 65-year) revealed by spectral analysis on SIRM record, we inferred both the external forcing (e.g., solar activity) and internal hemispheric-scale atmospheric processes (e.g., ENSO, North Atlantic Oscillation) have played an integral role in late Holocene climate changes in the study region.
中国广东省西部湖沼沉积物的环境磁性记录:晚全新世气候/环境变化的意义
中国广东省西部同时受东亚和印度夏季季风的影响,是探索亚洲夏季季风演变的关键地区。迄今为止,这里仍缺乏全新世晚期气候/环境变化的详细研究。本研究对该地区河东断面的湖泊沉积物进行了多种磁性参数测量。结果表明,沉积物中以伪单域脱(榍)磁铁矿或磁铁矿为主,并混有顺磁性和反铁磁性矿物,而自生灰铁矿、细菌活动、沉积后溶解和稀释作用的影响微乎其微。降雨引起的地表侵蚀强度变化对沉积物磁性的影响是确定的。降雨量增加导致地表侵蚀加剧,有利于提高沉积物中磁性矿物的浓度和粗粒度,反之亦然。因此,磁性参数可用于反映过去约 4300 年 ASM 强度的变化。他们揭示了四个相对潮湿的时期(ASM增强期)(即4300-4000大元前、3500-3130大元前、2640-1950大元前和1250-850大元前)和三个干燥的时期(ASM减弱期)(即4000-3500大元前、3130-2640大元前和1950-1250大元前),分别与邦德事件3、2和1相吻合。结合 SIRM 记录的光谱分析所揭示的三个重要周期(即 1250 年、75 年和 65 年),我们推断外部强迫(如太阳活动)和半球尺度的内部大气过程(如厄尔尼诺/南方涛动、北大西洋涛动)在研究区域全新世晚期气候变化中发挥了不可或缺的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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