个人介绍

付庆龙，男，江西抚州人，研究员，主要研究方向为环境化学与溶解性有机质高分辨质谱分析。近年来期间主要研究苯胂酸类兽药洛克沙胂在土壤和植物中转化、微藻对微量元素铁的吸收和生理响应，尤其是建立了基于FT-ICR MS技术的溶解性有机质分析方法，致力于高分辨质谱技术在不同环境介质中的应用和有机物在土壤/沉积物-水界面迁移转化的分子机制。谷歌H指数20，其中以第一作者/通讯作者在Environmental Science & Technology,  Analytical Chemistry, Water Research, Environmental Microbiology, Advances in Agronomy和Journal. Agricultural and Food Chemistry等分析化学、环境科学和土壤学领域国际主流期刊上发表SCI论文25篇。先后入选日本学术振兴会（JSPS）外国人特别研究员、中国地质大学（武汉）“地大百人计划”、武汉市“武汉英才”和湖北省海外高层次人才；共同主持JSPS海外项目一项，主持国家自然科学基金青年基金，参与国家自然科学基金杰出青年基金项目和重点项目。

      欢迎有环境、土壤学和化学背景的学生报考环境科学与工程专业硕士研究生、博士研究生和资源与环境专业学位硕士研究生！

论文发表情况

第一作者论文

[16].  Fu, Q.L.^⁎, Chen, C., Liu, Y., Fujii, M. and Fu, P.Q. 2024. FT-ICR MS spectral improvement of dissolved organic matter by the absorption mode: A comparison of the electrospray ionization in positive-ion and negative-ion modes. Analytical Chemistry 96(1), 522-530.

[15].  Fu, Q.L., Fujii, M., Ma R., 2023. Development of a Gaussian-Based Alignment Algorithm for the Ultrahigh-Resolution Mass Spectra of Dissolved Organic Matter. Analytical Chemistry 95, 2796–2803.

[14].  Fu, Q.L., Fujii, M., Kwon E., 2022. Development of an Internal Calibration Algorithm for Ultrahigh-Resolution Mass Spectra of Dissolved Organic Matter. Analytical Chemistry 94, 10589-10594.

[13].  Fu, Q.L., Fujii, M., Watanabe A., Kwon E., 2022. Formula Assignment Algorithm for Deuterium-Labeled Ultrahigh-Resolution Mass Spectrometry: Implications of the Formation Mechanism of Halogenated Disinfection Byproducts. Analytical Chemistry 94, 1717-1725.

[12].   Fu, Q.L., Fujii, M., Kwon E., 2020. Development and Application of a High-Precision Algorithm for Nontarget Identification of Organohalogens Based on Ultrahigh-Resolution Mass Spectrometry. Analytical Chemistry 92, 13989-13996.

[11].   Fu, Q.L., Fujii, M., Riedel T., 2020. Development and Comparison of Formula Assignment Algorithms for Ultrahigh-Resolution Mass Spectra of Natural Organic Matter. Analytica Chimica Acta 1125, 247-257.

[10].   Fu, Q.L., Natsuike, M., Fujii, M., Waite, T.D., 2019. Iron uptake by bloom-forming freshwater cyanobacterium Microcystis aeruginosa in natural and effluent waters. Environmental Pollution 247, 392-400.

[9].   Fu, Q.L.¹, Yeung, A.C.Y.¹, Fujii, M., Neilan, B.A., Waite, T.D., 2019. Physiological responses of the freshwater N₂-fixing cyanobacterium Raphidiopsis raciborskii to Fe and N availabilities. Environmental Microbiology, 21, 1211-1223 (¹Contributed equally)

[8].   Fu, Q.L., Weng, N.Y., Fujii, M., Zhou, D.M., 2018. Temporal variability in Cu speciation, phytotoxicity, and soil microbial activity of Cu-polluted soils as affected by elevated temperature. Chemosphere 194, 285-296.

[7].    Fu, Q.L., Blaney, L., Zhou, D.M., 2018. Identifying Plant Stress Responses to Roxarsone in Soybean Root Exudates: New Insights from Two-Dimensional Correlation Spectroscopy. Journal of Agricultural and Food Chemistry 66, 53-62.

[6].  Fu, Q.L., Blaney, L., Zhou, D.M., 2017. Natural degradation of roxarsone in contrasting soils: Degradation kinetics and transformation products. Science of the Total Environment 607, 132-140.

[5].   Fu, Q.L., Liu, C., Achal, V., Wang, Y.J., Zhou, D.M., 2016. Aromatic Arsenical Additives (AAAs) in the Soil Environment: Detection, Environmental Behaviors, Toxicities, and Remediation, in: Sparks, D.L. (Ed.), Advances in Agronomy, 140, 1-41.

[4].   Fu, Q.L., Blaney, L., Zhou, D.M., 2016. Phytotoxicity and uptake of roxarsone by wheat (Triticum aestivum L.) seedlings. Environmental Pollution 219, 210-218.

[3].   Fu, Q.L., He, J.Z., Blaney, L., Zhou, D.M., 2016. Roxarsone binding to soil-derived dissolved organic matter: Insights from multi-spectroscopic techniques. Chemosphere 155, 225-233.

[2].   Fu, Q.L., He, J.Z., Blaney, L., Zhou, D.M., 2016. Sorption of roxarsone onto soils with different physicochemical properties. Chemosphere 159, 103-112.

[1].   Fu, Q.L., He, J.Z., Gong, H., Blaney, L., Zhou, D.M., 2016. Extraction and speciation analysis of roxarsone and its metabolites from soils with different physicochemical properties. Journal of Soils and Sediments 16, 1557-1568.

通讯作者论文

[11].     杨伦，吴仕希，付庆龙^⁎. 傅里叶变换离子回旋共振质谱在溶解性有机质分子表征中的应用：基于文献计量学可视化研究. 地球科学 2024, doi:10.3799/dqkx.2023.220.

[10].      杨伦，吴仕希，付庆龙^⁎. 基于超高分辨率质谱技术的溶解性有机质双电荷离子研究. 环境化学 2024, doi:10.7524/j.issn.0254-6108.2023071002

[9].    Wu, S., Fujii, M., Yang, X. and Fu, Q.L.⁎ 2023. Molecular characterization of coastal seawater dissolved organic matter by ultrahigh-resolution mass spectrometry: A photochemical study of the Tokyo Bay. Carbon Research 2, 46.

[8].   Wu, S., Fujii, M., Yang, X., Fu, Q.L.^⁎, 2023. Characterization of halogenated organic compounds by the Fourier transform ion cyclotron resonance mass spectrometry: A critical review. Water Research 2023, 246, 120694.

[7].   Sun, J.J., Liang Y., Fu, Q.L.^⁎, 2023. Chemodiversity of Dissolved Organic Matter in Groundwater Elucidated by the Ultrahigh-Resolution Mass Spectrometry: A Case Study of the Jianghan Plain, China. Journal of Earth Science 2023, In Press

[6].   Sun, J.J., Liang Y., Fu, Q.L.^⁎, 2023. Spectral Quality Assessment Strategy Based on the ¹³C‑Isotopic Pattern for the Fourier Transform Ion Cyclotron Resonance Mass Spectra of Dissolved Organic Matter. Journal of the American Society for Mass Spectrometry 2023, 34, 8, 1813-1820.

[5].   Zhou, Z.Q., Fu, Q.L.^⁎, Fujii, M., Waite T.D., 2023. Complementary Elucidation of the Molecular Characteristics of Groundwater Dissolved Organic Matter Using Ultrahigh-Resolution Mass Spectrometry Coupled with Negative- and Positive-Ion Electrospray Ionization. Environmental Science & Technology 2023, 57, 11, 4690-4700

[4].  Zhao, P.P., Du, Z.L., Fu, Q.L.^⁎, Ai, J., Hu, A.B., Wang, D.S. and Zhang, W.J.^⁎ 2023. Molecular composition and chemodiversity of dissolved organic matter in wastewater sludge via Fourier transform ion cyclotron resonance mass spectrometry: Effects of extraction methods and electrospray ionization modes. Water Research 232, 119687

[3].    Li, L.H., Fu, Q.L.^⁎, Achal, V., 2015. A comparison of the output performance on the study of microbial extracellular polymeric substances between Mainland China and other countries by bibliometric methods. Fresenius Environmental Bulletin 24, 888-895.

[2].    Li, L.H., Fu, Q.L.^⁎, Achal, V., Liu, Y.L., 2015. A comparison of the potential health risk of aluminum and heavy metals in tea leaves and tea infusion of commercially available green tea in Jiangxi, China. Environmental Monitoring and Assessment 187. 228.

[1].    Yu, M.J., Liu, Y.L., Achal, V., Fu, Q.L.^⁎, Li, L.H.^⁎, 2015. Health Risk Assessment of Al and Heavy Metals in Milk Products for Different Age Groups in China. Polish Journal of Environmental Studies 24, 2707-2714.