期刊名：Minerals

期刊主页：https://www.mdpi.com/journal/minerals

本期内容聚焦2025年度Minerals期刊“环境矿物学与生物地球化学”栏目核心研究成果，精选18篇由期刊学术编辑严格筛选、深度评审的优质文章。诚邀您深入研读，探索领域新进展与学术新视角！

1.Transition of CO₂ from Emissions to Sequestration During Chemical Weathering of Ultramafic and Mafic Mine Tailings

CO₂在超基性和基性矿山尾矿化学风化过程中从排放到封存的转变

https://www.mdpi.com/2075-163X/15/1/68

Zhang, X.; Gou, L.-F.; Tang, L.; Liu, S.; Werner, T.T.; Jiang, F.; Deng, Y.; Mudbhatkal, A. Transition of CO₂ from Emissions to Sequestration During Chemical Weathering of Ultramafic and Mafic Mine Tailings. Minerals 2025, 15, 68.

2.Discernible Orientation for Tortuosity During Oxidative Precipitation of Fe(II) in Porous Media: Laboratory Experiment and Micro-CT Imaging

多孔介质中二价铁氧化沉淀过程中曲折度的可辨别取向：实验室实验与显微CT成像

https://www.mdpi.com/2075-163X/15/1/91

Cao, W.; Strounina, E.; Hofmann, H.; Scheuermann, A. Discernible Orientation for Tortuosity During Oxidative Precipitation of Fe(II) in Porous Media: Laboratory Experiment and Micro-CT Imaging. Minerals 2025, 15, 91.

3.Bioavailable and Bioaccessible Fractions of Potentially Toxic Elements in Copper Mining Wastes in the Southeastern Amazon

亚马逊东南部铜矿废弃物中潜在有毒元素的生物可利用性与生物可及性组分

https://www.mdpi.com/2075-163X/15/2/140

Pereira, G.V.d.A.; Pereira, W.V.d.S.; Ramos, S.J.; Guimarães, J.T.F.; Covre, W.P.; Dias, Y.N.; Fernandes, A.R. Bioavailable and Bioaccessible Fractions of Potentially Toxic Elements in Copper Mining Wastes in the Southeastern Amazon. Minerals 2025, 15, 140.

4.Cyanide Storage on Ferroan Brucite (Mg_xFe_1−x(OH)₂): Implications for Prebiotic Chemistry

氰化物在亚铁水镁石（Mg_xFe_1−x(OH)₂）上的储存：对前生命化学的启示

https://www.mdpi.com/2075-163X/15/2/141

Hara, E.K.; Templeton, A.S. Cyanide Storage on Ferroan Brucite (Mg_xFe_1−x(OH)₂): Implications for Prebiotic Chemistry. Minerals 2025, 15, 141.

5.Prediction of Mine Waste Rock Drainage Quantity Using a Machine Learning Model with Physical Constraints

基于物理约束的机器学习模型预测矿山废石排水量

https://www.mdpi.com/2075-163X/15/2/194

Zhang, C.; Ma, L.; Liu, W. Prediction of Mine Waste Rock Drainage Quantity Using a Machine Learning Model with Physical Constraints. Minerals 2025, 15, 194.

6.Utilization of the Finer Particle Fraction of Arsenic-Bearing Excavated Rock Mixed with Iron-Based Adsorbent as Sorption Layer

含砷开挖岩细粒组分与铁基吸附剂混合用作吸附层的利用

https://www.mdpi.com/2075-163X/15/3/242

Ishigami, D.; Arima, T.; Shinohara, S.; Kamijima, Y.; Ito, K.; Suzuki, T.; Nakajima, K.; Mufalo, W.; Igarashi, T. Utilization of the Finer Particle Fraction of Arsenic-Bearing Excavated Rock Mixed with Iron-Based Adsorbent as Sorption Layer. Minerals 2025, 15, 242.

7.Utilization of Natural Mineral Materials in Environmental Remediation: Processes and Applications

天然矿物材料在环境修复中的利用：过程与应用

https://www.mdpi.com/2075-163X/15/3/318

Xu, D.; Yang, Y.; Gan, L. Utilization of Natural Mineral Materials in Environmental Remediation: Processes and Applications. Minerals 2025, 15, 318.

8.Uranium Mineral Particles Produced by Weathering in Sierra Peña Blanca, Chihuahua, Mexico: A Synchrotron-Based Study

墨西哥奇瓦瓦州佩尼亚布兰卡山脉风化产生的铀矿物颗粒：基于同步辐射的研究

https://www.mdpi.com/2075-163X/15/4/333

Hernández-Herrera, C.; Canché-Tello, J.G.; Rodríguez-Guerra, Y.; Faudoa-Gómez, F.G.; Eichert, D.M.; Ignatyev, K.; Cabral-Lares, R.M.; Pérez-Reyes, V.; Esparza-Ponce, H.E.; Montero-Cabrera, M.-E. Uranium Mineral Particles Produced by Weathering in Sierra Peña Blanca, Chihuahua, Mexico: A Synchrotron-Based Study. Minerals 2025, 15, 333.

9.Thermal Decomposition and Phase Transformation of Chrysotile in Asbestos-Containing Waste

含石棉废弃物中温石棉的热分解与相变

https://www.mdpi.com/2075-163X/15/4/344

Kim, C.; Kim, Y.; Roh, Y. Thermal Decomposition and Phase Transformation of Chrysotile in Asbestos-Containing Waste. Minerals 2025, 15, 344.

10.Kinetic Aspects of Chrysotile Asbestos Thermal Decomposition Process

温石棉热分解过程的动力学研究

https://www.mdpi.com/2075-163X/15/6/609

Kusiorowski, R.; Gerle, A.; Kujawa, M.; Bloise, A. Kinetic Aspects of Chrysotile Asbestos Thermal Decomposition Process. Minerals 2025, 15, 609.

11.Gold as Pollution Tracer in Holocene Sediments of the Doñana National Park, the Largest Biological Reserve in Europe

金作为污染示踪剂在欧洲最大生物保护区多尼亚纳国家公园全新世沉积物中的应用

https://www.mdpi.com/2075-163X/15/8/801

Romero, V.; Ruiz, F.; González-Regalado, M.L.; Carretero, M.I.; Pozo, M.; Monge, G.; Cáceres, L.M.; Vidal, J.R.; Abad, M.; Izquierdo, T.; et al. Gold as Pollution Tracer in Holocene Sediments of the Doñana National Park, the Largest Biological Reserve in Europe. Minerals 2025, 15, 801.

12.Biogeochemical Interactions and Their Role in European Underground Hydrogen Storage

生物地球化学相互作用及其在欧洲地下储氢中的作用

https://www.mdpi.com/2075-163X/15/9/929

Viveros, F.E.; Liu, N.; Fernø, M.A. Biogeochemical Interactions and Their Role in European Underground Hydrogen Storage. Minerals 2025, 15, 929.

13.Assessing Jarosite Kinetic Dissolution Rates at Acidic Conditions and Different Temperatures

酸性条件下不同温度时黄钾铁矾动力学溶解速率的评估

https://www.mdpi.com/2075-163X/15/9/965

Buriti, M.D.S.; Poulain, M.; Cézac, P.; Casás, L. Assessing Jarosite Kinetic Dissolution Rates at Acidic Conditions and Different Temperatures. Minerals 2025, 15, 965.

14.Forensic Investigation of the Seepage-Induced Flow Failure at La Luciana Tailings Storage Facility (1960 Spain)

La Luciana尾矿储存设施渗流引发流动破坏的事故调查（1960年，西班牙）

https://www.mdpi.com/2075-163X/15/11/1131

Oliva-González, A.O.; Butlanska, J.; Fernández-Merodo, J.A.; Rodríguez-Pacheco, R.L. Forensic Investigation of the Seepage-Induced Flow Failure at La Luciana Tailings Storage Facility (1960 Spain). Minerals 2025, 15, 1131.

15.Experimental Investigation of CO₂–Mineral Interactions in Tight Clastic Rock Reservoirs: Implications for Geological Carbon Sequestration

致密碎屑岩储层中 CO₂-矿物相互作用的实验研究：对地质碳封存的启示

https://www.mdpi.com/2075-163X/15/11/1142

Wang, Z.; Zhang, L.; Liu, S.; Wang, M.; Tang, H.; Peng, D.; Yu, X.; Duan, X. Experimental Investigation of CO₂–Mineral Interactions in Tight Clastic Rock Reservoirs: Implications for Geological Carbon Sequestration. Minerals 2025, 15, 1142.

16.Bacteria-like Ferruginous Structures in Carboniferous Limestones as Remains of Post-Variscan Hydrothermal Activity in Southern Poland

波兰南部石炭纪灰岩中的细菌状含铁结构：后华力西期热液活动的遗迹

https://www.mdpi.com/2075-163X/15/11/1158

B?k, M.; B?k, K.; Wolska, A.; Rzepa, G.; Szczurek, S.; Strzeboński, P.; B?benek, S.; Dolnicki, P. Bacteria-like Ferruginous Structures in Carboniferous Limestones as Remains of Post-Variscan Hydrothermal Activity in Southern Poland. Minerals 2025, 15, 1158.

17.Critical Contribution of Biomass-Based Amendments in Mine Ecological Restoration: Properties, Functional Mechanisms, and Environmental Impacts

生物质改良剂在矿山生态修复中的关键贡献：特性、功能机制与环境影响

https://www.mdpi.com/2075-163X/15/12/1250

Peng, S.-M.; Li, X.-Y.; Xie, J.; Liu, W.-H.; Li, S.-X.; Luo, J.-L.; Zhao, L. Critical Contribution of Biomass-Based Amendments in Mine Ecological Restoration: Properties, Functional Mechanisms, and Environmental Impacts. Minerals 2025, 15, 1250.

18.Minerals as Windows into Habitability on Lava Tube Basalts: A Biogeochemical Study at Lava Beds National Monument, CA

熔岩管玄武岩中矿物作为宜居性窗口：加利福尼亚州熔岩床国家纪念碑的生物地球化学研究

https://www.mdpi.com/2075-163X/15/12/1303

Bower, D.M.; McAdam, A.C.; Yang, C.S.C.; Jin, F.; Millan, M.; Christiann, C.; Mussetta, M.; Knudson, C.; Jarvis, J.; Johnson, S.; et al. Minerals as Windows into Habitability on Lava Tube Basalts: A Biogeochemical Study at Lava Beds National Monument, CA. Minerals 2025, 15, 1303.

Minerals期刊介绍

主编：Prof. Dr. Leonid Dubrovinsky, University Bayreuth, Germany

期刊研究范围涵盖矿物学、矿物地球化学和年代学、经济矿物资源、矿物勘探、创新的采矿技术以及矿物加工等广泛领域。期刊现已被SCIE、Scopus等数据库收录。

2024 Impact Factor: 2.2

2024 CiteScore: 4.4

Time to First Decision: 17.7 days

Acceptance to Publication: 2.6 days