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31.
I. F. Jefferson D. Evstatiev D. Karastanev N. G. Mavlyanova I. J. Smalley 《Engineering Geology》2003,68(3-4):333-351
Loess and loess-like deposits were much studied in the Soviet Union, and are currently under investigation in Russia and surrounding countries. There is a vast literature in Russian, which touches on all aspects of loess science and technology. In particular, the studies of the origin of collapsibility are almost totally in Russian, and of course studies on the various regions of Russia and the countries of the Former Soviet Union FSU appear in Russian. This review looks at the literature in Russian and attempts to pick out key contributors, major topics and works and to identify the critical regions and zones of investigation. Because so many regions of the FSU had people living on loess ground, there is a vast literature on engineering geology and ground engineering topics, and this tends to dominate all the literature on loess in Russian. Following Russian practice, the fine-grained deposits under consideration are divided into loess and loess-like deposits. Three main topics are recognised across the whole spectrum of loess research: formation and distribution of loess deposits; stratigraphy, cyclicity and palaeoclimatology; and engineering topics, in particular hydrocollapse and subsidence, and we concentrate on the engineering geology topics. An attempt is made, based on the map of Abelev and Abelev [Abelev, Yu.M., Abelev, M.Yu., 1968. Fundamentals of design and construction on collapsible macroporous soils, 2nd ed. Stroiizdat, Moscow, 431 pp. (in Russian)] of collapsing loess deposits, to define seven loess regions within the geographical limits of the old USSR. The seven regions are those where geotechnical problems might be expected. 相似文献
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34.
我国特殊岩土研究 总被引:1,自引:0,他引:1
顾宝和 《水文地质工程地质》1997,24(2):43-45
本文分析,总结了我国特殊岩土理论与应用研究方面的新进展,内容涉及湿陷性黄土,软土膨胀岩土,红土,软岩和特殊土的结构性,指出需要进一步研究的问题,最后对特殊土的研究方法做了阐述。 相似文献
35.
陕西洛川黄土-古土壤剖面中伊利石结晶度——黄土物质来源和古气候环境的指示 总被引:6,自引:0,他引:6
伊利石是我国黄土和古土壤中最主要的粘土矿物。本文选择陕西洛川黄土-古土壤国际典型剖面为研究对象,通过测定伊利石的结晶度(Kubler指数)、Srodon峰强比值(Ir)和2M_1多型含量,发现黄土物质的起源与中高温(>280℃)地质环境有关;黄土样品中伊利石结晶度值为0.25°2θ(Cu Ka),古土壤样品中伊利石结晶度值大于0.27°2θ(Cu Ka);黄土和古土壤中伊利石结晶度值的差别,是由于古土壤中伊利石含少量的膨胀层,而黄土样品中的伊利石不含有膨胀层而引起的。古土壤中伊利石的膨胀层的成因,与伊利石 相似文献
36.
黄土高原黄土、红色粘土与古湖盆沉积物关系 总被引:7,自引:0,他引:7
本文通过磁性地层学、古生物地层学、沉积学的对比研究,讨论了中国黄土高原地区黄土,红色粘土与该区重要古湖盆之一,古三门湖堆积物之间关系,并分析气候环境对它们的影响。主要结论如下:1)红色粘土与上覆黄土可以是连续沉积,并呈相渐变关系。2)中国黄土与三门组记录了布容正极性带与松山负极性带。B/M界限位于L8,J亚带位于标志层L9与L15之间,大约S10-S13之间,O亚带位于S22-S33,或三门组之中。M/Ga界限对应于黄土与红土界限。并基本对应于三门组与游河组界限。3)红色粘土(三趾马红粘土)并非仅仅是中新世保德期沉积物。它包括上新统与中新统,上新世静乐组记录了高斯正极性带,吉尔伯特负极性带,中新世蓝田组记录了Epoch5。4)古三门湖堆积包括早更新世早期三门组(1.20—2.50Ma,松山负极性带),上新世晚期游河组(2.50—3.50Ma,高斯正极性带),更早期的三门湖沉积未出露。三门组与午域黄土为同期异相沉积,记录了松山负极性带,游河组则与该区上部红色粘土(静乐组上段)为同期异相沉积,记录了高斯正极性带 相似文献
37.
陕西洛川黄土沉积物中稀土元素及其它微量元素的化学淋滤研究 总被引:35,自引:0,他引:35
本文采用化学淋滤的方法对洛川黄土沉积物的酸溶和酸不溶相中稀土元素以及其它微量元素的分布分配特征进行了系统的分析。 相似文献
38.
Chen Jun Wan Hongtao Department of Earth Sciences Nanjing University Nanjing Jiangsuand Lu HuayuKey Lab. of Loess Quaternary Geology Chinese Academy of Sciences Xi an Shaanxi Liu Xinzhu 《《地质学报》英文版》1996,70(3):290-302
The chemical leaching method is used for a systematic analysis of distribution characteristics of acid-soluble and acid-insoluble REE and other trace elements from the Luochuan loess deposits. The study shows that the acid-insoluble phase in loess and palaeosol is a stable component of old aeolian dusts and is characteristic of the provenance; the acid-soluble phase is the unstable component in the weathering pedogenic process and reflects rock-forming features after accumulation of aeolian dusts. The acid-insoluble REE and acid-soluble Sr and Pb can be used as geochemical indicators respectively to trace the provenance characteristics and the weathering pedogenic process. 相似文献
39.
南京下蜀土的岩石磁学特征 总被引:5,自引:0,他引:5
对南京附近的下蜀土进行了岩石磁学测定,通过磁化率各向异性测量研究了它的沉积磁性组构特征,下蜀土的各异向性很不明显,各向异性废P小于水成岩的P值(>1.02),且与困面理度F高度相关,与磁线理度L相关不明显,这种特征与中国中部风成黄土极相似。对新生圩剖面进行的磁化率测量发现用化率曲线上有7个旋回的波峰、波谷变化,这与剖面中的古土壤-黄土系列相一致,说明下蜀土的剖面磁化率同样可以作为地层划分与对比,反映古气候冷暧变化的物理参数。对典型下蜀土样品进行的低温磁化率测量揭示出古土壤和黄土的成颗粒的构成不同,古土壤以超顺磁质为主,黄土以顺磁质为主。细小磁颗粒在古土壤中的积聚可能与古土壤的发育及古气候的暧湿程度有关。 相似文献
40.
The aridity of the Arabian Peninsula's deserts ranges between arid to hyperarid with hot dry climate, scarce precipitation and sparse vegetation. These harsh environmental conditions enhance some geomorphologic processes more than others, cause specific geotechnical problems, and increase desertification.From west to east, the general physiography of Saudi Arabia shows the Red Sea coastal plains and the escarpment foothills called Tihama followed by the Arabian Shield mountains, the Arabian Shelf plateau and finally the Arabian Gulf coastal plains. Sand moves by wind either as drifting sand or migrating dunes in four major sand seas, over the Arabian Shelf, and in the inter-mountain valleys, in the Arabian Shield causing problems of erosion and deposition. Human activities in the deserts may cause more instability to the sand bodies, enlarging the magnitude of the problem. Fine silty soil particles also move by wind, depositing loess mainly in selected areas downwind in the Tihama. These loess deposits subside and may form earth fissures by the process of hydrocompaction upon wetting. The addition of water can be either natural through storms or man-made through human agricultural or civil activities. Extensive sabkhas exist along the coastal plains of both the Red Sea and Arabian Gulf. The sabkha soil may also heave by salt re-crystallization or collapse by wetting. The shallow groundwater brines present in sabkhas also attack and corrode civil structures. Urbanization and excessive groundwater pumping may also deplete the fresh groundwater resources and may cause subsidence, ground fissuring and surface faulting as observed in some locations in the Arabian Shield. Although the average annual precipitation is very low, rain usually falls in the form of torrential storms, collected by dry valley basins and causing floods to unprotected downstream areas on the coastal plains of the Red Sea.The desert environment, being a fragile echo system, needs to be treated with care. Intercommunications between different national and international agencies and education of the layman should help to keep the system balanced and reduce the resulting environmental hazards. In addition, any suggested remedial measures should be planned with nature and engineered with natural materials. 相似文献