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81.
82.
2001年11月14日在昆仑山口西发生了8.1级地震,震中位置为90.9E、36.2N.分析表明,8.1级地震前一些主要地震活动性异常都出现了,例如空区、条带、增强、平静和震群等,且与7级大震比较,这些前兆图象的演变具有类似的过程,所不同的是8.1级地震的前兆地震活动图象涉及的区域范围更大、地震震级更高,这为特大地震的前兆识别和预报提供了依据.最后回顾了对这次大震的粗略预测,并讨论了有关大震预测的某些问题. 相似文献
83.
Hans-Eike Gbler 《Journal of Geochemical Exploration》1997,58(2-3)
Parts of the flood plains north of the Harz Mountains are contaminated with heavy metals, such as Pb, Cu, Zn and Cd derived from mining, which has been carried out in the Harz Mts. since the Middle Ages. It is important to know the mobility of the heavy metals in these overbank sediments in order to estimate the danger to the environment arising from this source. This paper deals with the effect of pH on heavy-metal mobility, using a constant-pH method. The investigations were carried out on an overbank sediment profile near Salzgitter Bad, north of the Harz Mts. The mobility of the heavy metals in the overbank sediment profile is described as a function of pH and depth. Besides the mobile heavy-metal fraction at a certain pH, the buffering capacity of the sediment at this pH must be taken into consideration. The different layers of the overbank sediment profile show distinct differences in buffering capacity and a natural pH harrier could be identified in the upper part of the profile. Therefore, to avoid increasing heavy-metal mobility the natural layering of the overbank sediment profile should not be disturbed. Two different kinds of desorption experiments at constant pH are also discussed, as well as the conversion of the heavy-metal species in the ore minerals into the species in the sediment. 相似文献
84.
中国热带东,西部地区冬季气候的差异与橡胶树的引种 总被引:8,自引:0,他引:8
由于青藏高原的动力影响,使得西部地区冬季出现下沉气流,多日照,利于橡胶树的越冬,而东部则出现上升气流,少日照,不利越冬,又由于青藏高原大山体,冬季明显地阻挡低层空气平流,导致高原南侧的西部地区冬季降温和缓,有利橡胶树越冬,而东部地区因无高大山体阻挡,寒潮初期降温剧烈,后期低温阴雨天气持续甚久,易导致橡胶树的严重寒害。 相似文献
85.
86.
大别山超高压石榴多硅白云母片岩中钻石U-Pb年龄 总被引:2,自引:0,他引:2
大别山超高压石榴多硅白云母片岩中钻石U-Pb年龄刘晓春(中国地质科学院地质力学研究所,北京100081)李惠民,左义成(地质矿产部天津地质矿产研究所,天津300170)关键词石榴多硅白云母片岩,U-Ph年龄,早元古代表壳岩,印支期超高压变质,大别山高... 相似文献
87.
Characteristics of Volcanic Rocks in the Shoshonite Province, Eastern China, and Their Metallogenesis 总被引:17,自引:0,他引:17
Wang Dezi Ren Qijiang Qiu Jiansheng Chen Kerong Xu Zhaowen Zeng Jiahu Department of Earth Sciences Nanjing University Nanjing Jiangsu 《《地质学报》英文版》1996,70(3):246-259
The shoshonite province in eastern China is characterized by extensive distribution (ca. 80000 km2) of Late Jurassic-Early Cretaceous (165-100 Ma) shoshonite series with subordinate high-K calc-alkali series. It was formed in a dominantly tensile stress field. In comparison with their analogues in island arcs and active continental margins in other countries, the volcanic rocks in the shoshonite province have their specific characteristics in petrology, mineralogy and geochemistry as well as related mineralization association, which are the comprehensive reflection of the special composition and structure of the mantle and crust of the province and the special Mesozoic regional tectonic setting. 相似文献
88.
A traverse through the western Kunlun (Xinjiang,China): tentative geodynamic implications for the Paleozoic and Mesozoic 总被引:13,自引:0,他引:13
The northern part of the western Kunlun (southern margin of the Tarim basin) represents a Sinian rifted margin. To the south of this margin, the Sinian to Paleozoic Proto-Tethys Ocean formed. South-directed subduction of this ocean, beneath the continental southern Kunlun block during the Paleozoic, resulted in the collision between the northern and southern Kunlun blocks during the Devonian. The northern part of the Paleo-Tethys Ocean, located to the south of the southern Kunlun, was subducted to the north beneath the southern Kunlun during the Late Paleozoic to Early Mesozoic. This caused the formation of a subduction-accretion complex, including a sizeable accretionary wedge to the south of the southern Kunlun. A microcontinent (or oceanic plateau?), which we refer to as “Uygur terrane,” collided with the subduction complex during the Late Triassic. Both elements together represent the Kara-Kunlun. Final closure of the Paleo-Tethys Ocean took place during the Early Jurassic when the next southerly located continental block collided with the Kara-Kunlun area. From at least the Late Paleozoic to the Early Jurassic, the Tarim basin must be considered a back-arc region. The Kengxiwar lineament, which “connects” the Karakorum fault in the west and the Ruogiang-Xingxingxia/Altyn-Tagh fault zone in the east, shows signs of a polyphase strike-slip fault along which dextral and sinistral shearing occurred. 相似文献
89.
我国东部新生代玄武岩中深源岩石包体内的尖晶石类矿物属铬尖晶石和铁尖晶石,金伯利岩及其地幔岩包体和金刚石中的尖晶石类矿物主要为铝铬铁矿。玄武岩中橄榄岩类包体内的尖晶石比其辉石岩类包体中的尖晶石含Cr高,含Al低,这与Cr为相容元素、Al为不相容元素、玄武岩中橄榄岩类包体是上地幔部分熔融出玄武岩浆后的残留物及其上地幔岩石的捕虏体、而辉石岩类是玄武岩浆结晶的产物有关。玄武岩中深源岩石包体中的尖晶石明显地比金伯利岩中的粗晶、地幔岩石包体及金刚石中的尖晶石含Cr低,含Al高,其主要原因是前者比后者形成的压力低 相似文献
90.
Yu ZuxiangInstitute of Geology Chinese Academy of Geological Sciences Baiwanzhuang Beijing 《《地质学报》英文版》1997,71(4):486-490
Changchengite occurs in chromite orebodies in dunite and in platinum placer deposits in chromite orebodies nearby. The mineral occurs as massive aggregates or veinlets on margins of iridisite (IrS2) and replaces it. Opaque. Lustre metallic. Colour steel-black. Streak black. Hm = 3.7. VHN20= 165 kg/ mm2. Isotropic. Cleavage none. Density 11.96 g/ cm3. Seven electron microprobe analyses give the following mean chemical results (wt. %): S 7.2, Cu 0.3, Te 0.4, Ir 41.2, Pt 2.8 and Bi 47.3 with total 99.1. The simplified formula is IrBiS. The strongest X-ray powder diffraction lines (hkl, d, I) are 210, 2.75 (70); 211, 2.51 (60); 311, 1.860 (100); 440. 1.090 (50) and 600, 1.027 (50). The X-ray powder diffraction pattern is similar to that of mayingite. After the diffraction data are indexed the mineral is determined to be cubic. The space group is P213 with a = 0.6164(4) nm, V = 0.2342 nm3 and Z = 4. 相似文献