局部大地水准面精化系统软件的设计与实现

给出了局部大地水准面精化系统的总体结构以及各分系统的详细设计与实现方法,开发了旨在对相关重力测量数据实现自动化处理的局部大地水准面精化系统工具软件,并应用于某区域实际大地水准面的精确计算。实践证明,该系统能有效提高相关数据的处理效率,有助于局部大地水准面精化过程的规范化。     

论秦岭造山带的成矿作用

对秦岭造山带区域成矿背景、矿床的时空分布、典型矿床矿田赋存部位、区域成矿元素地球化学背景、多重岩片控矿理论,构造成矿体系、成矿物质来源、矿床成因类型、矿床区域成矿模式进行了讨论,在对大量资料研究的基础上提出了新认识。最后指出秦巴地区进一步寻找大型矿床的地区。     

转型期矿业经济和矿政管理的思考

矿产资源是工业的粮食,矿业是国民经济的基础产业,是现代工业和工业文明的基石。实行两个具有全局意义的根本性转变和可持续发展战略,我国矿业经济的发展和矿产资源的行政管理面临新的挑战和机遇。文章运用社会主义市场经济理论和行政管理原理,阐述了当前矿业经济和矿政管理的严峻形势和突出问题,分析了体制转轨和增长转型期的矿业实际,从开展理论研究,提高对矿产资源重要性、紧迫性的认识;健全矿产资源管理新体制,完善矿业市场机制;强化矿业法制,切实依法管矿;适时调整矿产资源政策,改善矿业经济宏观调控等４个方面,就强化和完善矿产资源的政府职能,推进矿业经济可持续发展提出建议。     

从可持续发展的物质体系谈辽宁省的矿业与环境

从矿业资源、环境与生态的平衡关系出发,讨论了矿业资源领域在社会经济发展中的极其重要的基础地位;从矿产资源的不可再生性等特点讨论了矿业资源的可持续发展对全社会经济可持续发展战略实施的决定性作用; 从矿产资源开发、利用的现状已对环境产生的危害和正在产生的危害,讨论了矿业可持续发展的必要性、紧迫性和艰巨性。通过对辽宁省矿产资源的特点、矿业开发利用的现状及其矿业环境的分析, 讨论了矿业开发利用与矿山环境保护之间内在的、不可分割性和影响因素,并在此基础上提出了建议。     

积极探索建立适应社会主义市场经济的地质矿产资源管理新体制

文章从适应社会主义市场经济要求出发,根据我国建立社会主义市场经济体制的理论和成功经验,论述了矿产资源管理方式转变的总体思路、要求、矿产资源管理新体制的构架和运行机制,论述了地方地矿行政管理的职能。     

Geomatics 与数字地球

本文论述了Geomatics的内涵及特点,强调了数字地球是真实地球的数字化再现,是信息高度富集的统一体,是当代科学技术高度发展的产物,也是人类资源共享的一种概念模式.两者包含了地球系统的相关内容,并以3S等技术为支撑.知识经济时代对地理学提出了诸多问题,人类必须从全球的角度研究一系列资源环境问题,以保证全球性可持续发展战略的实施.     

Impact of 4DVAR assimilation of rainfall data on the simulation of mesoscale precipitation systems in a mei-yu heavy rainfall event

The multi-scale weather systems associated with a mei-yu front and the corresponding heavy precipitation during a particular heavy rainfall event that occurred on 4 5 July 2003 in east China were successfully simulated through rainfall assimilation using the PSU/NCAR non-hydrostatic, mesoscale, numerical model （MM5） and its four-dimensional, variational, data assimilation （4DVAR） system. For this case, the improvement of the process via the 4DVAR rainfall assimilation into the simulation of mesoscale precipitation systems is investigated. With the rainfall assimilation, the convection is triggered at the right location and time, and the evolution and spatial distribution of the mesoscale convective systems （MCSs） are also more correctly simulated. Through the interactions between MCSs and the weather systems at different scales, including the low-level jet and mei-yu front, the simulation of the entire mei-yu weather system is significantly improved, both during the data assimilation window and the subsequent 12-h period. The results suggest that the rainfall assimilation first provides positive impact at the convective scale and the influences are then propagated upscale to the meso- and sub-synoptic scales.
Through a set of sensitive experiments designed to evaluate the impact of different initial variables on the simulation of mei-yu heavy rainfall, it was found that the moisture field and meridional wind had the strongest effect during the convection initialization stage, however, after the convection was fully triggered, all of the variables at the initial condition seemed to have comparable importance.     

Characteristics and variations of the East Asian monsoon system and its impacts on climate disasters in China

Recent advances in studies of the structural characteristics and temporal-spatial variations of the East Asian monsoon （EAM） system and the impact of this system on severe climate disasters in China are reviewed. Previous studies have improved our understanding of the basic characteristics of horizontal and vertical structures and the annual cycle of the EAM system and the water vapor transports in the EAM region. Many studies have shown that the EAM system is a relatively independent subsystem of the Asian- Australian monsoon system, and that there exists an obvious quasi-biennial oscillation with a meridional tripole pattern distribution in the interannual variations of the EAM system. Further analyses of the basic physical processes, both internal and external, that influence the variability of the EAM system indicate that the EAM system may be viewed as an atmosphere-ocean-land coupled system, referred to the EAM climate system in this paper. Further, the paper discusses how the interaction and relationships among various components of this system can be described through the East Asia Pacific （EAP） teleconnection pattern and the teleconnection pattern of meridional upper-tropospheric wind anomalies along the westerly jet over East Asia. Such reasoning suggests that the occurrence of severe floods in the Yangtze and Hualhe River valleys and prolonged droughts in North China are linked, respectively~ to the background interannual and interdecadal variability of the EAM climate system. Besides, outstanding scientific issues related to the EAM system and its impact on climate disasters in China are also discussed.     

散乱数据插值的HASM方法

本文运用高精度曲面建模(HASM)方法,研究了空间散乱数据插值算法,并以陕西咸阳彬县大佛寺煤矿区的实测数据为案例,使用交叉统计检验方法比较分析HASM方法与地理信息系统(GIS)领域中常用传统插值方法的空间插值结果。结果表明,HASM方法具有较高的精度。本文还分析了传统常用插值方法的一些统计结果,得出一些结论,这些结论对于使用常用传统GIS空间插值方法的研究者有很好的参考作用。     

怒江六库水电站建设移民搬迁地的GIS分析选择

云南水能资源丰富,是我国重要的水电基地,水电开发具有综合效益好、比较成本低的显著特点,可极大地拉动当地的经济社会发展。电站建设涉及面广,需要解决的问题多,移民就是其中历来困扰水电开发建设的难题之一,移民搬迁贯穿于电站建设全过程,是水电开发不可分割的重要组成部分。随着社会的进步,以人为本观念的渗透,科学、有效地为水电开发移民选择理想的安置地,让移民真正从水电开发中受益已显得越来越重要。本文以拟建的怒江流域梯级电站中的六库电站为例,探讨采用GIS的空间叠置分析、缓冲区分析、网络分析等空间分析技术为移民寻找适宜居住的最佳搬迁地。安置区的选择,我们主要考虑以下因素:(1)靠近集镇或主要交通线,便于各类配套实施的建设及对外交往;(2)充裕的适宜开发的土地资源和水源条件;(3)坡度小于25度的区域;(4)安置区最好在本县,与所在区域居民语言相通,传统习俗相近便于沟通交流,有认同感;(5)安置区选择与自然保护区、国家重点建设规划用地不冲突。