个人简历
赵璐璐,山东济南人,特任教授,硕士生导师。2019年12月博士毕业于中国地质大学(武汉)矿物学、岩石学、矿床学专业。研究生期间在亚利桑那大学进行为期一年的博士联合培养。2023年入职地学院地表系特任教授。研究兴趣包括地球关键带科学、地质恒温器、地质微生物、地表碳循环、矿物谱学、微生物矿物学、纳米地球科学等。主要从事黏土矿物学、地质微生物、地表过程演化及全球变化方面的研究工作。现为洪汉烈教授"粘土矿物学"团队和谢树成院士"地质微生物"团队成员。
近期研究方向:
环境矿物学:微-纳米尺度矿物的成因、转化及形成机制;矿物蚀变的环境学效应等;
矿物碳泵:矿物-有机质交互作用、铁-锰-碳循环等;
地质恒温器:矿物风化的恒温器效应对重大环境转型的协调机制;
地表过程演化:成土作用、关键带水-岩作用过程、数据融合/机器学习等大数据技术应用;
古气候及全球变化:以粘土矿物学及矿物谱学指标重建新生代气候演化史。
欢迎对相关研究方向有兴趣,具有地学、环境或材料科学背景的同学联系交流。
主持/参与科研项目:
南洛河流域黄土中粘土矿物演化的光谱学效应及其对季风变化的响应机制研究,国家自然科学基金青年基金项目(42002042),2021.1-2023.12,项目负责人;
光谱融合法对厚层土壤序列中粘土矿物演化及其气候记录的解译,中国博士后第67批面上基金(2020M672440),2020.9-2022.12,项目负责人;
基于机器学习的光谱融合技术解译第四纪风成序列中粘土矿物演化及其气候记录,2020年度湖北省博士后创新研究基金项目,2020.9-2022.12,项目负责人;
火星含水矿物探测及其指示的宜居环境 (2022YFF0504000),国家重点研发计划项目,2022.12-2027.11,主要参与者;
表层土中含钾粘土矿物异常发育的耦合机制-以玄武岩风化剖面为例(42172045),国家自然科学基金面上项目,2022.1-2025.12,主要参与者;
土壤矿物学,中国地质大学(武汉)特色学科团队建设专项(CUG170106),2022.5-2023.5,主要参与者。
古-始新世之交古土壤中自生粘土矿物的成因及其对古气候环境的指示(42072056),国家自然科学基金面上项目,2021.1-2024.12,主要参与者。
主要论文成果:
Zhao, L., Hong, H., Yin, K., Cheng, S., Wang, X., Algeo, T.J., 2023. The role of parent lithology in nanoscale clay-mineral transformations in a subtropical monsoonal climate. American Mineralogist (https://doi.org/10.2138/am-2022-8740).
Zhao, L., Hong, H., Fang, Q., Hei, H., Algeo, T.J., 2023. Hydrologic regulation of clay-mineral transformations in a redoximorphic soil of subtropical monsoonal China. American Mineralogist (https://doi.org/10.2138/am-2022-8706).
Zhao, L., Hong, H., Algeo, T.J., Liu, C., Lu, A., 2022. Fusion of visible near‐infrared and mid‐infrared data for modelling key soil‐forming processes in loess soils. European Journal of Soil Science 73(1), 1-20.
Zhao, L., Fang, Q., Hong, H., Algeo, T.J., Lu, A., Yin, K., Wang, C., Liu, C., Chen, L., Xie, S., 2022. Pedogenic-weathering evolution and soil discrimination by sensor fusion combined with machine-learning-based spectral modeling. Geoderma 409, 115648.
Zhao, L., Fang, Q., Algeo, T.J., Lu, A., Yin, K., Duan, Z., Hong, H., 2021. Formation of plinthite mediated by redox fluctuations and chemical weathering intensity in a Quaternary red soil, southern China. Geoderma 386, 114924.
Zhao, L., Hong, H., Fang, Q., Algeo, T.J., Wang, C., Li, M., Yin, K., 2020. Potential of VNIR spectroscopy for prediction of clay mineralogy and magnetic properties, and its paleoclimatic application to two contrasting Quaternary soil deposits. CATENA 184, 104239.
Zhao, L., Hong, H., Liu, J., Fang, Q., Yao, Y., Tan, W., Yin, K., Wang, C., Chen, M., Algeo, T.J., 2018. Assessing the utility of visible-to-shortwave infrared reflectance spectroscopy for analysis of soil weathering intensity and paleoclimate reconstruction. Palaeogeography, Palaeoclimatology, Palaeoecology 512, 80-94.
Zhao, L. Hong, H., Fang, Q., Yin, K., Wang, C., Li, Z., Torrent, J., Cheng, F., Algeo, T.J., 2017. Monsoonal climate evolution in southern China since 1.2 Ma: New constraints from Fe-oxide records in the red earth sediments from the Shengli section, Chengdu Basin. Palaeogeography, Palaeoclimatology, Palaeoecology 473,1-15.
Zhao, L., Hong, H., Yin, K., Cheng, F., 2015. Characteristics and palaeoclimate significance of clay minerals in the red earth sediment in Chengdu basin. Geological Science and Technology Information 34, 80-86 (In Chinese).
Fang, Q., Lu, A., Hong, H., Kuzyakov, Y., Algeo, T. J., Zhao, L., Olshansky, Y., Moravec, B., Barrientes, D., Chorover, J., 2023. Mineral weathering is linked to microbial priming in the critical zone. Nature Communications 14, 345.
Hong, H., Ji, K., Liu, C., Algeo, T.J., Yin, K., Zhao, L., Fang, Q., Wang, C., 2022. Authigenic anatase nanoparticles as a proxy for sedimentary environment and porewater pH. American mineralogist (https://doi.org/10.2138/am-2022-8330).
Hong, H., Algeo, T.J., Fang, Q., Zhao, L., Ji, K., Yin, K., Wang, C., Cheng, S., 2019. Facies dependence of the mineralogy and geochemistry of altered volcanic ash beds: An example from Permian-Triassic transition strata in southwestern China. Earth-Science Reviews 190, 58-88.
Fang, Q., Hong, H., Zhao, L., Furnes, H., Lu, H., Han, W., Liu, Y., Jia, Z., Wang, C., Yin, K., Algeo, T.J., 2017. Tectonic uplift-influenced monsoonal changes promoted hominin occupation of the Luonan Basin: Insights from a loess-paleosol sequence, eastern Qinling Mountains, central China. Quaternary Science Reviews 169, 312-329.
团队相关人员主页
谢树成院士 https://grzy.cug.edu.cn/xieshucheng/zh_CN/index.htm
洪汉烈教授 https://grzy.cug.edu.cn/honghanlie/zh_CN/index.htm
陈中强教授 https://bgeg.cug.edu.cn/info/1025/1225.htm
方谦研究员 https://grzy.cug.edu.cn/fangqian/zh_CN/index.htm