Quantitative prediction of prospectivity for Pb–Zn deposits in Guangxi (China) by back-propagation neural network and fuzzy weights-of-evidence modelling

IF 1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Geochemistry-Exploration Environment Analysis Pub Date : 2022-01-25 DOI:10.1144/geochem2021-085
S. Xie, Ning Huang, J. Deng, Songle Wu, Mingguo Zhan, E. Carranza, Yuepeng Zhang, Fanxing Meng
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引用次数: 5

Abstract

One significant geochemical data processing aim is to delineate anomalies associated with mineral deposits. In areas with strong surface weathering, the accumulation centres of surface geochemical anomalies are often not completely matched with locations of mineral deposits. This affects anomaly interpretation and mineral prospectivity prediction. In order to solve this challenging problem, quantitative prediction of mineral prospectivity based on multi-information fusion techniques has been one of the research hotspots in the field of data analysis in recent years. This study first summarized the geological background and metallogenic control factors of each tectonic unit in Guangxi, and then analysed the relationship between Pb–Zn deposits and Pb–Zn geochemical anomalies from 60 767 geochemical stream sediment samples. Based on the re-classified geochemical element contents, gravity, aeromagnetic data and fault, magmatic rock, magmatic rock and fault intersection buffer data as input layers, together with 302 Pb–Zn ore occurrences selected as training data sets, quantitative prediction of prospectivity for Pb–Zn ore deposits in the study area was carried out using back-propagation neural network and fuzzy weights-of-evidence methods. It was found that the Pb–Zn mineral prospectivity prediction areas based on multi-information fusion techniques can eliminate effectively the influence of secondary accumulation of elements during weathering of carbonate rocks on the recognition of deposit-associated stream sediment geochemical anomalies, and identify effectively the mineral resources closely related to rock mass and structure distribution. These analyses reveal the metallogenic regularity of Pb–Zn deposits from the perspective of data mining based on machine learning and geographical information system multi-information fusion for delineation of prospective metallogenic target areas. The purpose here was to provide new ideas for reducing the effects of secondary weathering of extensive carbonate rocks in Guangxi, and in other regions with similar landscapes, on mineral prospectivity prediction. Thematic collection: This article is part of the Applications of innovations in geochemical data analysis collection available at: https://www.lyellcollection.org/cc/applications-of-innovations-in-geochemical-data-analysis
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基于反向传播神经网络和模糊证据权模型的广西铅锌矿远景定量预测
地球化学数据处理的一个重要目的是圈定与矿床有关的异常。在地表风化作用强烈的地区,地表地球化学异常的聚集中心往往与矿床位置不完全匹配。这影响了异常解释和找矿预测。为了解决这一难题,基于多信息融合技术的矿产找矿量定量预测成为近年来数据分析领域的研究热点之一。本文首先总结了广西各构造单元的地质背景和成矿控制因素,然后分析了60 767个地球化学水系沉积物样品中铅锌矿床与铅锌地球化学异常的关系。以重新分类的地球化学元素含量、重力、航磁数据和断层、岩浆岩、岩浆岩、断层交缓冲层数据为输入层,选取302个铅锌矿点作为训练数据集,采用反向传播神经网络和模糊证据权法对研究区铅锌矿床远景进行了定量预测。研究发现,基于多信息融合技术的铅锌矿远景预测区能够有效消除碳酸盐岩风化过程中元素二次富集对矿床伴生水系沉积地球化学异常识别的影响,有效识别与岩体和构造分布密切相关的矿产资源。这些分析从基于机器学习和地理信息系统多信息融合的数据挖掘角度揭示了铅锌矿床的成矿规律,为未来成矿目标区圈定提供了依据。旨在为减少广西及其他类似地貌地区大面积碳酸盐岩次生风化作用对找矿前景预测的影响提供新的思路。专题收集:本文是地球化学数据分析收集中的创新应用的一部分,可在:https://www.lyellcollection.org/cc/applications-of-innovations-in-geochemical-data-analysis上获得
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来源期刊
Geochemistry-Exploration Environment Analysis
Geochemistry-Exploration Environment Analysis 地学-地球化学与地球物理
CiteScore
3.60
自引率
16.70%
发文量
30
审稿时长
1 months
期刊介绍: Geochemistry: Exploration, Environment, Analysis (GEEA) is a co-owned journal of the Geological Society of London and the Association of Applied Geochemists (AAG). GEEA focuses on mineral exploration using geochemistry; related fields also covered include geoanalysis, the development of methods and techniques used to analyse geochemical materials such as rocks, soils, sediments, waters and vegetation, and environmental issues associated with mining and source apportionment. GEEA is well-known for its thematic sets on hot topics and regularly publishes papers from the biennial International Applied Geochemistry Symposium (IAGS). Papers that seek to integrate geological, geochemical and geophysical methods of exploration are particularly welcome, as are those that concern geochemical mapping and those that comprise case histories. Given the many links between exploration and environmental geochemistry, the journal encourages the exchange of concepts and data; in particular, to differentiate various sources of elements. GEEA publishes research articles; discussion papers; book reviews; editorial content and thematic sets.
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