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长江和黄河入海沉积物不同粒级中长石/石英比值及化学风化程度评价 总被引:2,自引:0,他引:2
长石/石英(F/Q)比值是评估碎屑沉积物化学风化强度的传统指标.在长江大通站和黄河利津站及相应河口区各取9个沉积物样品,将其<125 μm的部分按1间隔分离成7组不同的粒级,用X-ray衍射法半定量分析测定了全样和不同粒级沉积物中石英和长石的相对含量,计算了长石/石英(F/Q)、钾长石/石英(Fk/Q)、斜长石/石英(Fp/Q)比值,据此评估了长江和黄河入海沉积物化学风化强度随粒级的变化.结果显示取自黄河样品的F/Q,Fk/Q和Fp/Q比值在总体上显著高于长江样品,与长江流域的化学风化强度高于黄河的结论一致,可以作为流域沉积物化学风化强度替代指标.长江样品的F/Q,Fk/Q和Fp/Q比值随粒级变细持续变低,黄河样品则呈波动式下降.黄河样品的F/Q高出长江样品的部分主要发生在<32 μm的细粒级,在粗粒级区间差别很小,当沉积物粒级下降到一定区间后F/Q差异出现快速增加,显示长江流域沉积物的风化程度高于黄河主要发生在较细粒级.上述比值在黄河样品的2~4 μm粒级中高出长江样品3~5倍,是凸显两河化学风化强度差别的敏感粒级,也可以作为两河物源示踪的指标. 相似文献
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为了研究煤矿冲击地压与岩层在三维空间破裂之间的关系,进而探索依据岩层破裂规律预测和预报冲击地压的可能性,文中采用自行研制的防爆型微地震定位监测(MS)系统,基于定位原理,监测了山东华丰煤矿冲击地压煤层(四层煤)及其解放层(六层煤)开采过程中的岩层破裂过程和二次应力场分布变化的过程,得到了如下结论:冲击地压的发生与岩层破裂密切相关,四层煤下顺槽处于六层煤顶板破裂区的外边缘时,正处于高应力区内,在此处掘进容易引发冲击地压,必须将六层煤下顺槽位置向实体煤侧移动20 m以上,或将四层煤下顺槽位置内移20 m以上,才能消除四层煤的冲击地压;六层煤和四层煤开采时,工作面前方断层活化的距离分别为250 m和350 m左右,根据这一距离,及时对断层带进行卸压处理,可以消除由断层带引发的冲击地压;监测显示了工作面周围岩层的三维破裂形态和范围,为矿井确定防水煤柱的高度提供了可靠的依据;监测证明了厚层砾岩的破裂、断层活化、采场附近关键层的破裂是引起冲击地压的主要原因,证明了所研制的硬件和定位软件具有较高的精度和实用性,可以在煤矿和边坡、隧道等领域应用. 相似文献
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地下水水质评价是进行地下水资源开发、管理的基础,地下水水质预测是对未来的地下水水质变化趋势进行预报,可为地下水污染防治提供科学的依据。在模糊综合评价中,分别采用聚类权法、加权平均算子和级别特征值法,对传统方法的权重确定、算子选择和结果向量分析等关键环节进行改进;在指数平滑预测中,根据拟合结果确定指数平滑的类型,采用试算法选取权系数,并应用于大沽河地下水源地水质评价和预测。评价结果表明,改进的模糊综合评价可解决传统方法的不适性问题,可根据级别特征值比较评价等级相等的水质,更具实用性和合理性;预测结果表明,李戈庄采区和仁兆-朴木采区未来十年水质将持续恶化,且通过卡方检验分析2016-2017年预测的误差,验证了预测方法的有效性。 相似文献
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Guo-Can Wang Robert P. Wintsch John I. Garver Mary Roden-Tice She-Fa Chen Ke-Xin Zhang Qi-Xiang Lin Yun-Hai Zhu Shu-Yuan Xiang De-Wei Li 《Island Arc》2009,18(3):444-466
Triassic turbidites dominate the Songpan–Ganzi–Bayan Har (SGBH) terrane of the northern Tibetan Plateau. U‐Pb dating on single detrital zircon grains from the Triassic Bayan Har Group turbidites yield peaks at 400–500 m.y., 900–1000 m.y., 1800–1900 m.y., and 2400–2500 m.y., These results are consistent with recently published U‐Pb zircon ages of pre‐Triassic bedrock in the East Kunlun, Altyn, Qaidam, Qilian and Alaxa areas to the north, suggesting that provenance of the Bayan Har Group may include these rocks. The similarities in the compositions of the lithic arkosic sandstones of the Bayan Har Group with the sandstones of the Lower‐Middle Triassic formations in the East Kunlun terrane to the north also suggests a common northern provenance for both. A well exposed angular unconformity between the Carboniferous–Middle Permian mélange sequences and the overlying Upper Permian or Triassic strata indicates that regional deformation occurred between the Middle and Late Permian. This deformation may have been the result of a soft collision between the Qiangtang terrane and the North China Plate and the closure of the Paleo‐Tethyan oceanic basin. The Bayan Har Group turbidites were then deposited in a re‐opened marine basin on a shelf environment. Fission‐track dating of detrital zircons from the Bayan Har Group sandstones revealed pre‐ and post‐depositional age components, suggesting that the temperatures did not reach the temperatures necessary to anneal retentive zircon fission tracks (250–300°C). A 282–292 m.y. peak age defined by low U concentration, retentive zircons likely reflects a northern granitic source. Euhedral zircons from two lithic arkoses with abundant volcanic fragments in the southern area yielded a ~237 m.y. zircon fission track (ZFT) peak age, likely recording the maximum age of deposition. A dominant post‐depositional 170–185 m.y. ZFT peak age suggests peak temperatures were reached in the Early Jurassic. Some samples appear to record a younger thermal event at ~140 m.y., a short lived event that apparently affected only the least retentive zircons. 相似文献
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