The magnetic susceptibility (MS) of Chinese loess showing a general proportional relationship to pedogenic grade has been widely recognized and used for reconstruction of paleoclimate by Quaternary scientists. The in-...The magnetic susceptibility (MS) of Chinese loess showing a general proportional relationship to pedogenic grade has been widely recognized and used for reconstruction of paleoclimate by Quaternary scientists. The in-situ pedogenic enhancement of ferrimag展开更多
探索古土壤层磁化率低值的原因,选取Kurtak剖面的20个典型黄土-古土壤样品测量等温剩磁(IRM)获得曲线.基于样品的IRM获得曲线符合累积对数高斯模型,所有样品拟合出3个矫顽力组分.组分1 (<30 m T)是成壤组分,组分2 (60~100 m T)是碎...探索古土壤层磁化率低值的原因,选取Kurtak剖面的20个典型黄土-古土壤样品测量等温剩磁(IRM)获得曲线.基于样品的IRM获得曲线符合累积对数高斯模型,所有样品拟合出3个矫顽力组分.组分1 (<30 m T)是成壤组分,组分2 (60~100 m T)是碎屑组分,组分3 (>100 m T)是赤铁矿或针铁矿;组分2是Kurtak黄土的主要磁性矿物,其含量变化受控于风速变化. CBD处理后所有样品只拟合出组分2,且CBD处理前后样品的磁化率值呈正相关性,指示碎屑组分是影响剖面磁化率的主要因素.黄土-古土壤层中都存在针铁矿,但针铁矿的含量不足以影响整个剖面磁化率的变化;而Kurtak黄土中的赤铁矿与针铁矿也可能是在源区生成,表明组分3也能指示源区信号.展开更多
基金the National Natural Science Foundation of China (Grant Nos. 40421101 and 40772109)Macquarie University, Australia
文摘The magnetic susceptibility (MS) of Chinese loess showing a general proportional relationship to pedogenic grade has been widely recognized and used for reconstruction of paleoclimate by Quaternary scientists. The in-situ pedogenic enhancement of ferrimag
文摘探索古土壤层磁化率低值的原因,选取Kurtak剖面的20个典型黄土-古土壤样品测量等温剩磁(IRM)获得曲线.基于样品的IRM获得曲线符合累积对数高斯模型,所有样品拟合出3个矫顽力组分.组分1 (<30 m T)是成壤组分,组分2 (60~100 m T)是碎屑组分,组分3 (>100 m T)是赤铁矿或针铁矿;组分2是Kurtak黄土的主要磁性矿物,其含量变化受控于风速变化. CBD处理后所有样品只拟合出组分2,且CBD处理前后样品的磁化率值呈正相关性,指示碎屑组分是影响剖面磁化率的主要因素.黄土-古土壤层中都存在针铁矿,但针铁矿的含量不足以影响整个剖面磁化率的变化;而Kurtak黄土中的赤铁矿与针铁矿也可能是在源区生成,表明组分3也能指示源区信号.
