地震地质 ›› 1989, Vol. 11 ›› Issue (1): 91-98.

• 科研简报 • 上一篇    下一篇

陕西洛川不同时代黄土中的碳酸钙的沉积速率及其在地质年代测定中的意义

盛学斌, 王克鲁   

  1. 国家地震局地质研究所
  • 收稿日期:1988-03-31 出版日期:1989-03-08 发布日期:2009-11-25

THE DEPOSITION RATES OF CaCO3 IN LOESS WITH DIFFERENT AGES IN LUOCHUAN COUNTY, SHAANXI PROVINCE AND ITS IMPLICATION IN GEOLOGIC AGE DETERMINATION

Sheng Xue-bin, Wang Ke-lu   

  1. Instiute of Geology, State Seismological Bureau
  • Received:1988-03-31 Online:1989-03-08 Published:2009-11-25

摘要: 选择地处西北半干旱区、又具有代表性的黑木沟标准剖面,逐一测试其土层中的碳酸钙与干容重,进而由相关参数推算各土层的碳酸钙的沉积速率(V,下同),这是笔者的尝试。结果表明,该剖面中的碳酸钙的沉积速率,均有自下而上递增的趋势,各层总平均速率为0.20g/cm2·103a。

关键词: 洛川, 原生碳酸钙, 次生碳酸钙, 碳酸钙的沉积速率, 地质年代

Abstract: The difference of deposition rates of CaCO3 between in loess and paleosol with different ages is found out through the analysis of 276 samples collected from the Hei-mugou standard loess section in Luochuan County. Shaanxi Province, located in dry or semidry areas of Northwest China. The deposition rates of CaCO3 tend to be greater from bottom to ,top as loess gets younger. For example, the deposition rates of CaCO3 in Wucheng loess is 0.09g/cm2·103a, 0.29 in the lower part of Lishi loess, 0.36 in the upper part; 0.21 in Malan loess; 0.07 in paleosol of Wucheng loess, 0.21 in the lower part of Lishi loess, 0.19 in the upper part; 0.18 in dark loessal soil of Holocene.The deposition rates of CaCO3 in loess with various ages are all greater than that: in their corresponding paleosol. For example, the deposition rate of CaCO3 in Wucheng, loess is 1.3 times as big as in its paleosol; 1.4 times in the lower part of Lishi loess, and 1.9 times in the upper part.The deposition rates of CaCO3 in loess-paleosol series increase synchronously from bottom to top, and the deposition rates in loess are greater than in their corresponding, paleosol, which coincides with the fact that the paleoclimate during the period of Quaternary turned from warm- humid to dry-cold, and the climate changed alternatively between warm-humid and dry-cold. From above we conclude that the deposition rate of CaCO3 and its variation can be used as a mark to divide Quaternary strata.In order to date unknown strata and to determine the activity period of fault in a certain area, it is of great importance for us to evaluate deposition rate of CaCO3 in dry or semidry areas, to find out empirical parameters and to establish certain models. The aforesaid method of dating with calcic soil is a simple and feasible way of geologic age determination.

Key words: Luochuan, Original CaCO3, Secondary CaCO3, Deposition rate of CaCO3, Geologic age