Characterization of metal-bearing nanoparticles observed in loess-covered terrain: Implications for prospecting

IF 3.4 2区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Journal of Geochemical Exploration Pub Date : 2024-05-01 DOI:10.1016/j.gexplo.2024.107488

Yuexin Lu, Bimin Zhang, Xueqiu Wang, Hanliang Liu, Jian Zhou

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Abstract

The recent depletion of mineral resources near the Earth's surface has led to a shift in mineral exploration toward concealed deposits in covered terrain. Consequently, significant attention has been directed toward metal-bearing nanoparticles in the soil above such deposits to gain insights into the composition of concealed ore bodies.

In this study, the characteristics (type, size, shape, chemical composition, and aggregation) of metal-bearing nanoparticles in ore samples of the Zhonghedi Ag-Pb-Zn polymetallic deposit and their overlying loess were systematically analyzed using transmission electron microscopy. Numerous nanoparticles containing Ag, Au, Cu, Pb, Zn, Fe, Mo, and other metallic elements were observed in the loess overlying the deposits as well as the ore samples. These nanoparticles exhibit a well-defined crystal shape, suggesting their primary particle nature. Moreover, the nanoparticles in the loess and ore samples share similarities in element distribution, size, and type, demonstrating their homologous nature. However, ore-related metal-bearing nanoparticles were not detected in samples collected from the background areas. Most metal-bearing nanoparticles in loess, excluding native particles, were oxides and sulfates, which may be attributed to oxidation of the native metal particles near the surface where oxygen fugacity increases. The elemental mapping of the nanoparticles showed that the ore-forming elements had the same distribution patterns and element assemblages to the ore material. These results indicate that metal-bearing nanoparticles in the loess have likely relationships with concealed ore bodies. Accordingly, the metal-bearing nanoparticles in the loess can provide information about concealed ore deposits, explain surface geochemical anomalies, and improve prospecting accuracy as a vector to mineralization.

Routinely finding nanoparticles in transported cover remains a challenge. However, this study shows it is viable and marks substantial progress in our knowledge and comprehension of metal-bearing nanoparticles in loess-covered terrain. Evidence of their presence and association with concealed ore bodies contributes significantly to our understanding of mineral exploration processes and offers new avenues for future research and practical applications.

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在黄土覆盖的地形中观察到的含金属纳米颗粒的特征：对勘探的影响

近年来，地球表面附近矿产资源的枯竭导致矿产勘探转向覆盖地形中的隐蔽矿藏。本研究利用透射电子显微镜系统分析了中河底银铅锌多金属矿床矿样及其上覆黄土中含金属纳米颗粒的特征（类型、大小、形状、化学成分和聚集）。在矿床上覆黄土和矿石样品中观察到大量含银、金、铜、铅、锌、铁、钼和其他金属元素的纳米颗粒。这些纳米颗粒呈现出清晰的晶体形状，表明它们是原生颗粒。此外，黄土和矿石样本中的纳米颗粒在元素分布、大小和类型上都很相似，这表明它们具有同源性。然而，在背景区域采集的样本中并未检测到与矿石相关的含金属纳米颗粒。除原生颗粒外，黄土中大部分含金属的纳米颗粒都是氧化物和硫酸盐，这可能是由于原生金属颗粒在靠近地表的地方发生了氧化，因为那里的富氧性增加了。纳米颗粒的元素图谱显示，成矿元素的分布模式和元素组合与矿石材料相同。这些结果表明，黄土中的含金属纳米颗粒很可能与隐藏的矿体有关系。因此，黄土中的含金属纳米颗粒可以提供隐伏矿床的信息，解释地表地球化学异常，并作为成矿矢量提高探矿精度。然而，这项研究表明这是可行的，标志着我们对黄土覆盖地层中含金属纳米颗粒的认识和理解取得了重大进展。纳米颗粒的存在及其与隐蔽矿体的关联证据极大地促进了我们对矿物勘探过程的理解，并为未来的研究和实际应用提供了新的途径。

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来源期刊

Journal of Geochemical Exploration 地学-地球化学与地球物理

CiteScore

7.40

自引率

7.70%

发文量

148

审稿时长

8.1 months

期刊介绍： Journal of Geochemical Exploration is mostly dedicated to publication of original studies in exploration and environmental geochemistry and related topics. Contributions considered of prevalent interest for the journal include researches based on the application of innovative methods to: define the genesis and the evolution of mineral deposits including transfer of elements in large-scale mineralized areas. analyze complex systems at the boundaries between bio-geochemistry, metal transport and mineral accumulation. evaluate effects of historical mining activities on the surface environment. trace pollutant sources and define their fate and transport models in the near-surface and surface environments involving solid, fluid and aerial matrices. assess and quantify natural and technogenic radioactivity in the environment. determine geochemical anomalies and set baseline reference values using compositional data analysis, multivariate statistics and geo-spatial analysis. assess the impacts of anthropogenic contamination on ecosystems and human health at local and regional scale to prioritize and classify risks through deterministic and stochastic approaches. Papers dedicated to the presentation of newly developed methods in analytical geochemistry to be applied in the field or in laboratory are also within the topics of interest for the journal.