Kokchetavite: a new potassium-feldspar polymorph from the Kokchetav ultrahigh-pressure terrane

Kokchetavite, a new polymorph of K-feldspar (KAlSi₃O₈), has been identified as micrometer-size inclusions in clinopyroxene and garnet in a garnet-pyroxene rock from the Kokchetav ultrahigh-pressure terrane, Kazakhstan. Kokchetavite has a hexagonal structure with a =5.27(1) Å, c=7.82(1) Å, V=188.09 ų, Z=1, and is found to be associated with phengite + /-cristobalite (or quartz) + siliceous glass ± phlogopite/titanite/calcite/zircon, occurring as multi-phase inclusions in clinopyroxene and garnet. It is concluded that kokchetavite could not be an exsolution phase in host minerals. Instead, it might be metastably precipitated from an infiltrated K-rich melt during rock exhumation. Alternatively, although less likely, kokchetavite might be derived from dehydration of K-cymrite, which, in turn, was formed at high pressures. In either case, kokchetavite is a metastable polymorph of K-feldspar.     

中国铜矿田区域地球化学异常特征

本文根据对中国近30个不同成因类型的铜多金属矿床的区域地球化学资料的研究,概述了不同成因类型铜矿的Cu的地球化学特征.论述了影响Cu异常规模和异常强度的主要因素,认为异常规模和异常强度并不总是与矿床规模成正比,提出了内生铜矿的勘查地球化学分类,总结了与火山岩、中酸性岩浆岩和基性—超基性岩有关的铜矿田的区域地球化学异常特征,为利用区域地球化学资料进行区域成矿预测提供了参考资料。     

土壤剖面的磁学特征及其对交通污染的指示意义——以北京首都机场高速公路为例

对北京首都机场高速公路旁采集的土壤柱状T01剖面的磁学参数和金属元素分析,探讨了研究区内现代交通导致的土壤磁学性质的变化及其对环境污染的响应.结果表明,磁参数(χ,ARM和SIRM)与重金属含量呈同步垂向变化趋势.来源于交通运输排放的污染物是土壤剖面上部(0～8 cm)磁性和金属含量增强的主要原因,8cm以下,土壤基本未受到污染,磁性矿物和重金属含量较低,磁性颗粒变化稳定,基本代表了该地区土壤的自然背景.尽管土壤岩石磁学分析表明剖面上下部受污染和未受污染样品的磁载体均是粒度较粗的多畴磁铁矿,但是结合磁参数比值曲线,说明底部样品的磁颗粒的粒度较顶部偏细.磁性矿物的含量变化没有影响磁颗粒的粒度特征.指标聚类等相关分析表明,土壤磁参数(χ,ARM和SIRM)与重金属元素(Pb,Zn和Cu)含量显著相关;结合模糊聚类分析,磁参数可用于追踪、识别交通污染物质在土壤剖面中的富集、迁移状态,揭示不同深度土壤的污染程度.     

杭州湾潮混合的初步研究 Ⅱ. 下湾区

1964年作者发表了“杭州湾潮混合的初步研究Ⅰ.上湾区”一文(毛汉礼、甘子钧等，1964)。根据表征入海径流冲淡作用的河口盐度沿程分布和变化特征，将杭州湾以海盐为界划分为上湾区和下湾区：海盐以上的上游段为上湾区，其潮混合为强混合型；海盐至湾口的下游段为下湾区。其后，又对杭州湾的盐度分布、水系和环流做了初步分析，并对潮汐、对流和风浪等作用所导致的涡动混合现象作了粗略的讨论，认为要合理地阐明下湾区的混合过程似应同时考虑侧向与垂向的混合效应(毛汉礼．沈鸿书等，1964)。本文根据1963年在杭州湾下湾区进行专题水文调查所获得的资料，对杭州湾下湾区的潮混合问题进行了研究：对表征该区潮混合扩散过程的某些特征量，如水平涡动扩散系数、水平涡动交换系数等作出量级估计，并给出涡动交换椭圆；估算了控制这一河口区域盐量平衡与动量平衡的各项物理过程的相对重要性，为进一步开展杭州湾下湾区潮混合过程的观测和理论研究提供依据。     

高产高效综放工作面端面顶板稳定性监测

通过对支架与围岩关系的研究,分析了支架与顶板的相互作用机理,得出支架支护阻力与端面顶板下沉量p–△ld具有类双曲线关系,这种类双曲线关系是高产高效综放工作面端面顶板稳定性控制的基础。根据高产高效综放工作面的开采特点提出了端面顶板监测控制的特点和要求,开发建立了在线监测体系,现场应用取得了良好的技术经济效益。     

高速公路沿线暗浜填土的勘察和评价

目前，线路勘探中对浜填土检测不够重视或缺乏有效的方法，使浜填土的处理缺乏针对性，造成不必要的浪费或工程隐患。该文探讨了在线路勘探中暗浜的勘查技术及相应评价与整治方法。     

北京地区震磁观测研究

旨地探索研究地震预报而开展的北京地区地磁观测，在震磁前兆研究与地震预测试验方面都获得了可喜的进展，本文分析了１９９０－１９９５年北京及其西部地区的地磁观测资料，研究了地磁异常信息，预测了地震活动趋势，提出了今后应加强监测与研究的区域。     

Responses to climate warming of hydrological processes in the upper Kelan River in the Altay Mountains, Xinjiang, China

Kelan River is a branch of the Ertix River, originating in the Altay Mountains in Xinjiang, northwestern China. The upper streams of the Kelan River are located on the southern slope of the Altay Mountains; they arise from small glacial lakes at an elevation of more than 2,500 m. The total water-collection area of the studied basin, from 988 to 3,480 m, is about 1,655 km2. Almost 95 percent of the basin area is covered with snow in winter. The westerly air masses deplete nearly all the moisture that comes in the form of snow during the winter months in the upper and middle reaches of the basin. That annual flow from the basin is about 382 mm, about 45 percent of which is contributed by snowmelt. The mean annual precipitation in the basin is about 620 mm, which is primarily concentrated in the upper and middle basin. The Kelan River system could be vulnerable to climate change because of substantial contribution from snowmelt runoff. The hydrological system could be altered significantly because of a warming of the climate. The impact of climate change on the hydrological cycle and events would pose an additional threat to the Altay region. The Kelan River, a typical snow-dominated watershed, has more area at higher elevations and accumulates snow during the winter. The peak flow occurs as a result of snow-melting during the late spring or early summer. Stream flow varies strongly throughout the year because of seasonal cycles of precipitation, snowpack, temperature, and groundwater. Changes in the temperature and precipitation affect the timing and volume of stream-flow. The stream-flow consists of contributions from meltwater of snow and ice and from runoff of rainfall. Therefore, it has low flow in winter, high flow during the spring and early summer as the snowpack melts, and less flows during the late summer. Because of the warming of the current climate change, hydrology processes of the Kelan River have undergone marked changes, as evidenced by the shift of the maximum flood peak discharge from May to June     

GRP文件格式到MIF格式的实现

为将ＧＲＰ文件格式转换成ＭＩＦ文件格式，提供一种数据不变，而文件存储方式改变的数据转换方法和实例。