您选择的条件: 固体地球物理学(2)
  • 1967—2018年托木尔峰国家级自然保护区降水时空变化特征

    分类: 地球科学 >> 固体地球物理学 提交时间: 2019-11-14 合作期刊: 《干旱区研究》

    摘要: 本文选取1967—2018年托木尔峰国家级自然保护区周围6个气象站点的降水数据,对其降水量、降水日数、降水强度进行线性回归分析以及可信度检验。采用Mann-Kendall突变检验法对其降水量进行突变分析,检测降水发生变化的年份。结果显示:○1托木尔峰国家级自然保护区多年的降水量、降水日数、降水强度均呈波动增长的趋势。年降水量、降水日数与降水强度均通过显著性水平(α=0.05)检验。②托木尔峰国家级自然保护区的降水季节性差异明显,降水主要集中在夏季,增湿主要集中在夏季与秋季。各季节降水量均呈波动增长趋势,通过对各个季节降水量与降水强度增加趋势的可信度检验,发现在0.05水平下春、夏、秋季降水量增加趋势明显,冬季降水强度增加趋势明显。③通过对年降水量的突变分析发现突变年份为1997年,并通过显著性水平(α=0.05)检验。

  • Low-T Thermo: a new program for arbitrarily combining low-T thermochronological data to model thermal history

    分类: 地球科学 >> 地质学 分类: 地球科学 >> 固体地球物理学 分类: 地球科学 >> 地球化学 提交时间: 2017-10-26

    摘要:A robust code, called Low-T Thermo, has been developed to combine low-T thermochronological data arbitrarily to model thermal history. After apatite fission-track age and confined length are decoupled into two completely independent data to inverse thermal history and thermal history inversion using mica Ar-Ar age or bedrock quartz optically stimulated luminescence age are developed, there are eight kinds of low-T thermochronological data used to inverse thermal history including apatite fission-track age, apatite fission-track confined length, zircon fission-track age, apatite (U–Th)/He age, zircon (U–Th)/He age, mica Ar-Ar, bedrock quartz optically stimulated luminescence age and vitrinite reflectance. A total of 247 kinds of combination modes can be used to jointly inverse thermal history in theory (except the eight single methods modelling). These arbitrary combinations are helpful to model thermal history with the “incomplete” low-T thermochronological data set regarded to be unuseful for thermal history modelling and reduce experimental cost. For arbitrary combination of different low-T thermochronological data, each low-T thermochronological method is independent incompletely and the equivalent p-value is used to be the identical evaluation indicator in the inverse process. The usefulness of the code is demonstrated by modelling thermal history of existing low-T thermochronological data in the areas of Dabie Mountain, Ahimanawa Range and Southern Alps.