在瞄准未来矿藏时克服生存偏差:考虑到缺乏可见性,对勘探搜索空间进行空测试和负测试

IF 3.2 2区 地球科学 Q1 GEOLOGY Ore Geology Reviews Pub Date : 2024-08-22 DOI:10.1016/j.oregeorev.2024.106214
Mahyar Yousefi , Vesa Nykänen , Jeff Harris , Jon M.A. Hronsky , Oliver P. Kreuzer , Guillaume Bertrand , Mark Lindsay
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引用次数: 0

摘要

矿产勘探者普遍认为,大多数露头矿床已经被发现。下一代的发现将取决于我们识别深层矿床微妙或隐蔽信号的能力。要在这种条件下确定勘探目标,就必须对目标矿床类型的形成过程有更深入的了解,并采用新的或改进的勘探方法,以有效测试埋藏的矿化物。生存偏差是一种选择偏差,其定义是由于 "缺乏可见性 "而忽略数据或信息所导致的逻辑错误。在本研究中,"缺乏可见性 "指的是以下情况:(i) 矿产勘探者忽视或忽略了特定地形,因为该地形缺乏或仅包含成矿系统的微弱信号;(ii) 由于现有数据或信息既不能证实也不能支持目标模型,这些区域被排除在进一步勘探之外。因此,关键是要对搜索空间进行更全面的分析,以便更有把握地确定没有预期目标信号的地形是否满足无效或否定测试的标准。这项研究的想法基于这样一个概念,即如果在一个被忽视的地形中存在埋藏的矿藏,它也会包含独特的地质特征和目标信号,为勘探者提供指导,尽管这些信号很可能非常微弱。在此,我们利用伊朗的一个斑岩铜矿区来解释和说明生存偏差概念的适应性。更具体地说,在这项研究中,我们测试了最近提出的目标标准(即潜在的集中流体通量点)作为矿产远景分析和勘探目标输入的实用性。我们的研究结果对未来开发区域到全球规模的勘探信息系统(EIS)具有重要意义,该系统旨在提高矿产勘探目标定位的性能。
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Overcoming survival bias in targeting mineral deposits of the future: Towards null and negative tests of the exploration search space, accounting for lack of visibility

Broad consensus exists amongst mineral explorers that most outcropping mineral deposits have been found. The next generation of discoveries will rely on our ability to recognize the subtle or cryptic signals of deep-seated deposits. Exploration targeting under such conditions requires greater knowledge of the processes that formed the targeted mineral deposit types and new or improved exploration methods designed to effectively test for buried mineralization. Survival bias is a form of selection bias that is defined as the logical error resulting from neglecting data or information because of their “lack of visibility”. In this study, “lack of visibility” refers to situations where (i) mineral explorers ignore or overlook particular terrain because it lacks or contains only weak signals of a mineralizing system, and (ii) such areas are excluded from further exploration as the existing data or information neither confirm nor support the targeting model. Therefore, it is critical to more comprehensively analyze a search space to more confidentially determine whether a terrain without the desired targeting signals satisfies the criteria of a null or negative test. The idea for this study is based on the notion that if a buried mineral deposit was present in an overlooked terrain it would nevertheless comprise distinctive geological features and targeting signals to guide the explorer, although, more likely than not, these signals would be very weak. Here we used a porphyry copper (Cu) district in Iran to explain and illustrate the adaptation of the survival bias concept. More specifically, in this study we tested the usefulness of a recently proposed targeting criterion, namely sites of potential focused fluid flux, as an input to mineral prospectivity analysis and exploration targeting. The findings of our study have implications for the future development of regional- to global-scale exploration information systems (EIS), designed to improve the performance of mineral exploration targeting.

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来源期刊
Ore Geology Reviews
Ore Geology Reviews 地学-地质学
CiteScore
6.50
自引率
27.30%
发文量
546
审稿时长
22.9 weeks
期刊介绍: Ore Geology Reviews aims to familiarize all earth scientists with recent advances in a number of interconnected disciplines related to the study of, and search for, ore deposits. The reviews range from brief to longer contributions, but the journal preferentially publishes manuscripts that fill the niche between the commonly shorter journal articles and the comprehensive book coverages, and thus has a special appeal to many authors and readers.
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