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1.
新一轮全球地球化学填图:中国的机遇和挑战 总被引:4,自引:0,他引:4
论述从1988年联合国教科文组织相继批准实施国际地球化学填图(IGCP259)和全球地球化学基准(IGCP360)项目以来,中国和欧洲在制定全球地球化学填图的方法指南及技术标准方面作出的决定性贡献。文中指出,中国的"环境地球化学监控网络及动态地球化学填图"项目、欧洲的FOREGS地球化学基准值填图项目为全球其他国家开展类似工作提供了示范,但地球化学家预期10年内获得全球地表地球化学概貌的愿望至今未能实现。挪威和中国的地球化学家通过IAHS/ICCE正在酝酿"Global geochemical mapping and the sediment-bound flux of major world rivers"重大国际合作项目,以开展新一轮全球地球化学填图。通过国际极地年,IPY317项目首先从北极地区启动。新一轮全球地球化学填图项目计划以中国提出的"全球地球化学填图的泛滥平原沉积物采样草案"和挪威提出的"三角洲中河漫滩沉积物的采样草案"作为实施方案,因而巩固和扩大了中国地球化学填图技术在全球的优势地位。论文在分析中国面临的机遇与挑战后,建议政府主管部门对新一轮全球地球化学填图给予优先支持。 相似文献
2.
全球尺度地球化学填图计划对比研究 总被引:1,自引:0,他引:1
文中简述了全球尺度地球化学填图发展的历史,以近20年在中国、欧洲、美洲和澳大利亚开展的6项全球尺度地球化学填图计划为例,结合“国际地球化学填图计划”和“全球地球化学基准计划”的相关建议和要求,从样品采集和样品分析两个角度展开评价和对比,并初步总结了全球尺度地球化学填图在采样和分析两个方面存在的问题。6个填图计划中,仅欧洲的FOREGS计划采用多介质采样方案,中国的全国地球化学基准计划(CGB)按照不同的地貌特征采集不同的代表性的汇水域沉积物样品,其他4个计划采用单一介质的采样方案,采集土壤或泛滥平原/河漫滩沉积物。中国的分析水平总体处于国际领先水平,能分析的元素最多(78个),元素分析检出限全部低于地壳克拉克值,标准物质能监控所有分析的元素。 相似文献
3.
区域性与国家性的地球化学填图已取得进展,如何在可期待的未来以极低密度采样获得周期表内大多数元素在全球的分布,有赖于对填图理念的更新及采样介质、采样部署与采样方法研究的进展。英国Webb等发现在数平方千米至数十平方千米汇水盆地之河口采集水系沉积物样品,其分析结果可大致逼近其上游汇水盆地内土壤中元素之平均值。挪威及中国的研究工作表明在更大河流(其汇水盆地达数百、数千以至数万平方千米)的河口采样,这一规律依旧适用。看来,这种分形规律还可进一步延展至世界上一些汇水盆地达数十万至百万以上平方千米的主要入海河口,但这方面尚需作更多的研究。在这种新的填图理念指导下,提出了为实现全球地球化学填图的短期研究与试点计划和长期全面实现之规划。 相似文献
4.
通过分析国外区域地球化学填图计划,指出现代区域地球化学填图具有多目标的特征。强调测定多元素总量和有效态量;论证了超低密度地球填图技术。最遑,针对国土资源地质大调查,提出了裸露区,半裸露区,平原区和覆盖区的地球化学填图的内容与方法,期望对我国地球化学填图起推动作用。 相似文献
5.
国际地球化学填图新进展 总被引:3,自引:1,他引:3
欧洲和中国在国际地球化学填图中起着积极而重要的作用,而且进展也是最显著的。欧洲地球化学基准值填图计划于1996年被欧洲26个国家地质调查局长论坛(FOREGS)正式批准。经过近10年的工作,于2005年出版了电子版欧洲地球化学图集。中国不仅自己开展了多层次地球化学填图计划,而且还与发展中国家合作开展了全球尺度和成矿带尺度地球化学填图合作。欧洲和中国无论是在全球尺度,还是在区域尺度地球化学填图做法上都存在较大的差异。在采样介质上中国使用统一的采样介质,在分析技术上中国使用几种大型设备作为骨干配合使用多方法分析系统;欧洲恰恰相反,欧洲在采样介质上趋向于多介质,而分析技术上只使用少数几种大型设备。欧洲的做法尽管使用多介质采样获得了元素在更多天然介质中的分布信息,但使用单一分析技术,使得很多关键元素没有分析出来,如贵金属元素Ag,Au,Ir,Os,Pd,Pt,Rh,Ru;卤族元素F,Cl,Br,I;分散元素Ge,In,Se,Te;与生命密切相关的元素N,S,B等。尽管欧洲强调以环境为目的,但很多与环境密切相关的元素都没有分析,所以欧洲的全球尺度地球化学填图的信息量大打折扣。这些不统一的做法,特别是在全球尺度地球化学填图不统一的做法,会影响到以后全球地球化学图的编制。 相似文献
6.
通过分析国外区域地球化学填图计划,指出现代区域地球化学填图具有多目标的特征,强调测定多元素总量和有效态含量;论证了超低密度地球化学填图技术.最后,针对国土资源地质大调查,提出了裸露区、半裸露区、平原区和覆盖区的地球化学填图的内容与方法,期望对我国地球化学填图起推动作用 相似文献
7.
笔者回顾了近年来中国化探的一些理论与方法技术上的重大新进展,立足于地球化学填图基础上的矿集区、多元素异常集结区与地球化学块体理论,利用地球化学资料进行矿产资源潜力评价与稀有分散元素独立成矿的可能性评价,利用地球化学资料进行成矿岩体演化与中国西南大地幔柱的初步研究,这些探索性的研究均取得了令人鼓舞的成就。化探方法技术的应用成果显著,如地球化学填图与矿产勘查一体化,多元素分析与分析质量监控方法不断完善外来物覆盖浅钻取样,深穿透地球化学方法,全国生态、农业、环境地球化学调查,全球地球化学填图方法研究等。在回顾近年化探成果的基础上,提出中国化探在21世纪的发展,整体思路是立足于地球化学填图及地球化学填图与矿产勘查一体化。需要有将研究、填图、调查、勘查、工程一体化的大科学计划。提出了涉及地球化学填图、矿产勘查与综合利用、能源勘查、生态环境调查、全球变化研究等的12个重点发展方向。 相似文献
8.
地球化学填图与地球化学勘查 总被引:3,自引:0,他引:3
在中国与西方国家,地球化学填图的目的与做法并不相同,西方的地球化学填图是由研究机构开展的,使用等离子焰光量计、X射线荧光光谱仪等大型仪器进行多元素分析,目的是取得多种元素在地球表层分布的基础性资料。地球化学勘查则由矿业公司主要分析少量成矿元素,目的是为了找矿。而中国的地球化学填图计划却做出了巨大努力,使地球化学填图取得的资料既有学术价值又对矿产勘查具有重大的实用意义。本文详细讨论了西方国家与中国地球化学填图与地球化学勘查的思路、方法与技术的演变,并瞻望了地球化学填图在21世纪的巨大发展前景。 相似文献
9.
国际地球化学填图计划(IGMP)已在全球范围内实施,针对地球化学制图存在的某些问题,系统地提出了数据分幅标准化的区域编图设想,阐明了标准化制图的统计学原理及编图步骤。以鲁西Au等14种元素的标准化区域地球化学图在金矿系列综合预测中的应用为例,证明了该方法的有效性。 相似文献
10.
不同尺度地球化学填图能否获得稳定的和可追索的地球化学模式,能否真实反映元素含量背景,是检验填图方法是否可行的重要依据。笔者选择印度尼西亚苏门答腊岛巴东—明古鲁地区热带雨林区为研究对象,对比该区1:100 万(1 个样/100 km2)和1:25 万(1 个样/4 km2)两种不同比例尺的地球化学采样所获得的地球化学数据和异常分布模式,发现二者获得的元素含量背景值和中位数非常接近,所圈定的地球化学省在形态和变化趋势上非常类似,浓集中心的位置几乎完全重合,证明低密度地球化学填图也能获得稳定的和可追溯的地球化学模式,认为该方法在热带雨林区也是适用的。低密度地球化学填图圈出的地球化学省基本涵盖了研究区大的矿床和花岗岩体,真实的反映了研究区元素的分布情况,在这些地球化学省内开展更大比例尺的地球化学填图工作,能进一步圈定局部异常直接找矿,降低企业勘查投资风险。 相似文献
11.
More than 40 national and regional geochemical mapping projects in the world carried out from 1973 to 1988 do not conform to common standards. In particular they have many analytical deficiencies. In the period 1988 to 1992, the International Geochemical Mapping project (Project 259 of UNESCO's IGCP Program) prepared recommendations designed to standardize geochemical mapping methods. The analytical requirements are an essential component of the overall recommendations. They included the following: 71 elements should be analyzed in future mapping projects; the detection limits of trace and ultratrace elements must be lower than the corresponding crustal abundances; and the Chinese GSD and Canadian STSD standard sample series should be used for the correlation of global data. A proposal was also made to collect 5000 composite samples, at very low sampling densities to cover the whole Earth's land surface. In 1997 an IUGS Working Group on Global Geochemical Baselines was formed to continue the work which began with IGCP 259. From 1997 up to now, new progress has been made especially in China and FOREGS countries under the aegis of this working group, including the study of suitable sampling media, development of a multi-element analytical system, new proficiency test for selection of competent laboratories and role of wide-spaced mapping in mineral exploration. One of the major problems awaiting solution has been the inability of many laboratories to meet the IGCP recommendations to generate high quality geochemical maps. Fortunately several laboratories in China and Europe have demonstrated an ability to meet the requirements and they will be well placed to render technical assistance to other countries. 相似文献
12.
国际地球化学填图样品分析方法和数据对比 总被引:2,自引:0,他引:2
以中国和世界发达国家或地区(欧洲、北美、澳大利亚与日本)过去10年内完成的或目前正在开展的全球性或国家性地球化学填图项目为例,总结了国际地球化学样品分析技术的新进展,并以中国实验室与欧洲实验室的分析数据的对比结果,剖析国际地球化学填图样品分析技术面临的挑战。研究表明:分析组成地壳所有元素的构想已被越来越多国家性、全球性地球化学填图项目所采纳;中国是世界上唯一具有填图样品76元素分析能力的国家;高水平的分析实验室(欧洲与中国)取得的数据大部分可以实现对比,但仍有10余个元素的分析数据存在明显偏差。实现所有分析元素数据的全球可对比,应是今后国际地球化学填图样品分析技术的主要发展方向。 相似文献
13.
Regional, national and global scale geochemical mapping projects have been carried out in China since the late 1970s, due to the development of cost‐effective, low detection limit analytical methods. These projects have provided a huge mass of high‐quality, informative and comparable data for mineral resource exploration and are now making contributions to environmental assessment. In this paper, four national‐scale geochemical mapping projects are described. (1) The Regional Geochemistry‐National Reconnaissance Project (RGNR project), which is China's largest national geochemical mapping project, has covered 6 million km2 of upland regions since 1978. Generally, stream sediment samples were collected at a density of 1/km2 and four samples were composited into one sample and analysed for thirty‐nine elements. (2) The deep‐penetrating geochemical mapping project (DEEPMAP Project) has been conducted since 1994 in covered terrains, including sedimentary basins, at a density of 1 sample per 100 km2 with thirty to seventy elements determined per sample. In the past 10 years, an area of approximately 800 000 km2 has been covered and this project has played an important role in finding sandstone‐type uranium deposits in basins. (3) The seventy‐six geochemical element mapping project (76 GEM project) has been carried out since 1999 and involved the collection of stream sediment samples from the RGNR project targets which were analysed for seventy‐six elements. Samples from each 1:50 000 map sheet were composited into one analytical sample (approximately one composite sample per 400 km2). Approximately 1 million km2 have been surveyed to date. (4) The multi‐purpose eco‐geochemical mapping project has been conducted since 1999 in Quaternary plain areas for environmental and agricultural applications. Surface soils (depths from 0–20 cm) were collected at a density of one sample per km2, and four samples were composited into one for analysis. Deep soils (from a depth of 150 to 200 cm) were collected at a density of one sample per 4 km2 and four samples were composited into one analytical sample. All the composite samples were analysed for fifty‐four elements. 相似文献
14.
Geochemical mapping in China 总被引:5,自引:0,他引:5
China's National Geochemical Mapping Project (Regional Geochemistry-National Reconnaissance, RGNR project) was initiated in 1979. From 1978 to 1982, cooperative research projects were carried out for the preparation and distribution of standard reference samples and for the development of field sampling techniques, multi-element analytical methodology and a unified data quality monitoring procedure. Large pilot surveys were also commenced in several provinces. After five years of technical preparation, the project came into its full implementation. More than 5 million km2 of Chinese land surface has been covered by this project. During 1993–1995, another national geochemical project, under the name of ‘Environmental geochemical monitoring network and dynamic geochemical maps in China’ as a pilot survey to choose the suitable sampling medium for the global geochemical mapping application, was carried out in China. The remarkable achievements of China's geochemical mapping projects are widely recognized. Nearly 66% of new discoveries of economic mineralization by MGMR were attributed to the RGNR project. New concepts and new methodologies have emerged through these projects. They also made a great contribution to the international activity toward standardization of geochemical mapping methodology and the possible realization of wide-spaced global geochemical mapping. 相似文献
15.
Xie Xuejing 《Journal of Geochemical Exploration》1990,39(1-2)
The International Geochemical Mapping (IGM) Project (IGCP 259) is the inevitable outcome of the historical development of geochemical exploration from local to regional and then to national scales. For the successful implementation of this project, its long-term and short-term aims should be clarified and many strategical and tactical problems have to be solved. In this paper, the author lays special emphasis on two problems: (1) obtaining geochemical data for this project that are more informative for mineral exploration, basic geology and environmental study; and (2) methods for rendering the data globally comparable. The experiences of China's Regional Geochemistry-National Reconnaissance (RGNR) Project in dealing with these two critical problems are discussed. 相似文献
16.
中国化探走向2000年 总被引:4,自引:0,他引:4
总结了80年代中国化探的成就与不足之处。目的是更好的对中国化探走向2000年进行战略部署。中国的区域化探全国扫面计划在80年代取得了重大成就。已覆盖了400万km2的面积,发现了600余新的矿化产地,其中158个已成为新的有工业价值的矿床。研制了适用于乾旱、半乾旱、高寒山区、卡斯特及黄土覆盖地区的野外工作方法。研制了高效率低检出限的多元素分析系统及质量监控方案。所有这一切使得中国在系统进行地球化学填图工作方面在全世界居于领先地位,并带动了中国化探的全面发展。主要的不足之处是从80年代后半叶起,研究工作在指导整个这项计划的作用逐渐削弱,而整个计划逐渐变成纯生产性的例行工作。地球化学填图将成为地学及勘查地球化学新前沿已为国际上许多杰出科学家所承认。中国在填图技术以及信息累积上所占有的优势将给中国勘查地球化学家在90年代提供激动人心的新机会。简略的提出了一些新的研究方向。 相似文献
17.
全球变化中的地球化学基线值研究及中国的研究现状 总被引:1,自引:0,他引:1
介绍了“全球地球化学制图”(IGM)项目及其在中国的进展情况。展望了我国地球化学基线值研究工作方向及研究重点。 相似文献
18.
《Applied Geochemistry》2001,16(11-12):1309-1321
“IGCP” Projects 259 (International Geochemical Mapping) and 360 (Global Geochemical Baseline) under the aegis of UNESCO's International Geochemical Correlation Program made recommendations for standardizing geochemical mapping protocols and for conducting a wide-spaced sampling of the Earth's land surface based on a Global Reference Network of approximately 5000 160×160 km cells. A pilot study has been conducted throughout China during which these recommendations were implemented. During the pilot study, 500 floodplain samples representing drainage basins ranging in area from 1000 to 6000 km2 were collected throughout China and analyzed. The widely spaced sampling used for the pilot study was compared to the very dense sampling (× million samplings of sediment for all of China) used for China's Regional Geochemical National Reconnaissance Program. The geochemical maps generated from the wide-spaced sampling are strikingly similar to those generated from data based on the detailed sampling. Such low density floodplain sampling presents a relatively low-cost way to get a quick overview of the geochemistry of a large area of the Earth's surface. The implementation of this project in the Asia–Pacific region and the problems encountered are discussed in the present paper. 相似文献
19.
中国区域化探全国扫面计划卅年 总被引:14,自引:4,他引:10
区域化探全国扫面计划是一项科学研究研究与大规模调查密切结合的大科学计划。在20世纪70年代为计划的提出进行了许多预研究。1978年项目得到国家地质总局的批准。批准后正式展开之前进行了五年的技术准备。包括拟定工作方法规范、举办培训班、研制多元素多方法分析系统、制备水系沉积物土壤及岩石标准样, 拟定分析质量监控方案及对各种特殊景观地区野外工作方法进行研究。这项计划至今已进行了30年, 覆盖了全国700余万平方公里的面积。根据这项计划提供的地球化学异常的线索找到了数百个新矿床, 特别是金矿。所取得的海量数据还对基础地质研究、环境、生态及农业的研究提供新的依据。并为国内外地球化学填图的思路与方法技术作出了极大贡献, 使中国的地球化学填图走在了世界的最前列。 相似文献