首页|Soil weathering and human activities dominate trace elements in a stalagmite from Shandong Peninsula in coastal North China during the last millennium

Soil weathering and human activities dominate trace elements in a stalagmite from Shandong Peninsula in coastal North China during the last millennium

扫码查看
原文链接
  • NETL
  • NSTL
  • Elsevier
Trace elements in speleothems are important proxies for paleoclimate reconstructions. Water-rock interaction (WRI) and prior calcite precipitation (PCP) are two mechanisms mostly used to interpret trace elements in speleothems. It is usually assumed that higher ratios of trace element to calcium (X/Ca) indicate enhanced WRI and/or PCP effects and in turn drier climates. In this study, the Mg/Ca, Sr/Ca, Ba/Ca, and Sr-87/Sr-86 ratios of stalagmite KY1 (collected from Kaiyuan Cave in Shandong Peninsula, coastal North China) were determined and the mechanisms dominating the X/Ca and Sr-87/Sr-86 ratios were investigated. The results indicate that 1) the soil layer overlying Kaiyuan Cave is an important source of trace elements in stalagmite KY1, contributing more than a half of Sr in stalagmite KY1; and 2) chemical weathering of the soil layer, instead of the two widely used mechanisms WRI and PCP, dominates the variations of the Mg/Ca, Sr/Ca, and Ba/Ca ratios in stalagmite KY1 during the last millennium. Before similar to 1670 CE, chemical weathering of and trace element release from the soil layer were controlled naturally by climates. Warm-humid climates strengthened chemical weathering of the soil layer, releasing relatively more trace elements and eventually resulted in higher X/Ca ratios in stalagmite KY1. Cold-dry climates were responsible for lower X/Ca ratios. After similar to 1670 CE, human activities played a key role on the X/Ca ratio variations in stalagmite KY1. Enhanced reclamation led possibly to deforestation, reduced residence time of groundwaters in the soil layer, weakened chemical weathering of the soil layer, resulting in lower X/Ca ratios in stalagmite KY1. This study underlines the importance of the soil layer to accurately interpret trace elements in speleothems.

SpeleothemTrace metalsSr-87/Sr-86The soil layerChemical weatheringClimate changeAnthropogenic influencesHIGH-RESOLUTIONCALCITE PRECIPITATIONSEASONAL-VARIATIONSISOTOPE VARIATIONSURANIUM ISOTOPESSOREQ CAVESPELEOTHEMCLIMATERECONSTRUCTIONPALEOCLIMATE

Liu, Yuefeng、Cheng, Ke、Czuppon, Gyorgy、Horvath, Aniko、Zhou, Houyun

展开 >

South China Normal University School of Geographical Sciences||HUN REN Res Ctr Astron & Earth Sci

South China Normal University School of Geographical Sciences||Ludong Univ

HUN REN Res Ctr Astron & Earth Sci

HUN REN Inst Nucl Res

South China Normal University School of Geographical Sciences

展开 >

2025

10.1016/j.quaint.2025.109847

Quaternary international: The journal of the International Union for Quaternary Research

Quaternary international: The journal of the International Union for Quaternary Research

ISSN:1040-6182
年,卷(期):2025.736/737(Jul.1)
  • 76