毛绪美

Associate professor   Supervisor of Doctorate Candidates   Supervisor of Master's Candidates

Gender : Male

Education Level : Doctoral Degree in Education

Degree : Doctoral Degree in Engineering

Status : Employed

School/Department : 环境学院

Business Address : 科教四207

Email :


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Personal Profile

主持完成:国家自然科学基金项目2项,湖北省自然科学基金项目1项;中央高校基本科研业务费专项资金项目1项;中国地调局项目2项,企业合作项目50余项。已经发表论文60余篇,出版专著2部,教材2部,授权发明专利5项。已经培养博士生2名,硕士生20余名(含在读)。长期致力于利用水化学和同位素的“指纹特征”来解读地下水(地热水)的来源和循环过程,探究水文地质、地热地质、工程地质、环境地质、矿山地质中与地下水相关的难题问题。

1. 地热水文地质学研究。已在广东、山东、湖北等地开展过工作,并对全国地热资源分布与潜力进行了研究,构建了全国地热资源数据库。对地热系统中地热水的温度分布、渗流驱动和水化学的形成有自己的见解,代表性论文(2015年以来):

[1] Xumei Mao*, Yanxin Wang, Hongbin Zhan, Liang Feng. Geochemical and isotopic characteristics of geothermal springs hosted by deep-  seated faults in Dongguan Basin, Southern China. Journal of Geochemical Exploration, 2015, 158: 112-121.

[2]郭静,毛绪美*,童晟,冯亮. 水化学温度计估算粤西沿海深部地热系统热交换温度. 地球科学,2016,41(12):36-48.

[3] Innocent Ndikubwimana, Xumei Mao*, Dongbo Zhu, Yaoye He, Zide Shi, 2020. Geothermal evolution of deep parent fluid in Western Guangdong, China: evidence from water chemistry, stable isotopes and geothermometry. Hydrogeology Journal, 288):2947-2961. DIO: 10.1007/s10040-020-02222-x.

[4] Xumei Mao*, Dongbo Zhu, Innocent Ndikubwimana, Yaoye He, Zide Shi, 2021. The mechanism of high-salinity thermal groundwater in Xinzhou geothermal field, South China: insight from water chemistry and stable isotopes, Journal of Hydrology593:1-15. doi: https://doi.org/10.1016/j.jhydrol.2020.125889

[5] Ndikubwimana, I. , Mao, X.* , Niyonsenga, J. D. , Zhu, D. , & Mwizerwa, S., 2022. Water-rock interaction, formation and circulation mechanism of highly bicarbonate groundwater in the northwestern geothermal prospects of rwanda. Episodes. EPISODES 45 (1): 73-86.  https://doi.org/10.18814/epiiugs/2021/021006

[6] 毛绪美*,叶建桥,董亚群,史自德. 地热驱动力:广东阳江新洲地热田驱动地热水运移的一种额外非重力作用的分析方法.地质科技通报,2022411):194-202.

[7] 史自德,毛绪美*,叶建桥,董亚群.中低温地热系统低盐度地热水高含量钠的地球化学成因研究----以广东惠州黄沙洞地热田为例.地球科学,2022. doi:10.3799/dqkx.2022.170

[8] Xumei Mao*, Yaqun Dong, Yaoye He, Dongbo Zhu, Zide Shi, Jianqiao Ye, 2022. The effect of granite fracture network on silica-enriched groundwater formation and geothermometers in low-temperature hydrothermal system. Journal of Hydrology, 609: 127720. https://doi.org/10.1016/j.jhydrol.2022.127720

[9] Traore Adiaratou, Xumei Mao*, Liang Feng, Zide Shi, Yaqun Dong, Jianqiao Ye, 2022. Use of microbial communities to assess the mixing of deep and shallow groundwater: case study from southern China. Hydrogeology Journal. https://doi.org/10.1007/s10040-022-02555-9

[10] Xumei Mao*, Jianqiao Ye, Zide Shi, Yaqun Dong, 2022. The possible source of abnormally high sodium content in low salinity geothermal water. Groundwater. doi: 10.1111/gwat.13264

[11] Hua Wang, Xumei Mao*, Cuiming Li, Yaqun Dong, Jianqiao Ye, 2023. An additional source for the hydrochemical formation of geothermal waters in granites. Geothermics. https://doi.org/10.1016/j.geothermics.2023.102793

[12] Xumei Mao*, Tong Zhao, Jianqiao Ye, and Yaqun Dong, 2023. The mechanism of high salinity geothermal water formed in karst low-temperature hydrothermal system. Episodes. https://doi.org/10.18814/epiiugs/2023/023013

[13] Xixi Zha, Xumei Mao*, Cuiming Li, Xiaoyan Zhang, and Jianqiao Ye, 2023. Combined Effects of Temperature, Salinity and Viscosity Changes on Groundwater Flow in the Xinzhou Geothermal Field, South China. Natural Resources Research. https://doi.org/10.1007/s11053-023-10258-5

[14] 朱东波,史自德,何耀烨,毛绪美*广东沿海新洲高盐度地热水的水文地球化学成因机制.地球化学,2023. DOI: 10.19700/j.0379-1726.2023.04.002

[15]邵誉炜,毛绪美*,查希茜,李翠明,赵桐. 水化学和同位素揭示的广东儒洞地热咸水形成机制. 地质通报,2023. https://link.cnki.net/urlid/11.4648.P.20230925.1813.002

 

2. 同位素水文地质学研究。熟悉地下水各种同位素的示踪原理和技术应用,对地下水各种定年方法开展过工作,由此解决了诸多水文地质难题。目前构建了地下水14C定年校正新方法,建立了地下水32P定年新方法,代表性论文(2015年以来):

[1] Hua Wang, Xumei Mao*, Liang Feng. Evidence of groundwater degassing in a deep confined aquifer: noble gas concentrations with hydrogen, oxygen and carbon isotope data. Environmental Earth Sciences, 2015, 74(5): 4439-4451. DOI: 10.1007/s12665-015-4482-8

[2] Mao, X.*, Wang, H., Feng, L., 2018. 14C age reassessment of groundwater from the discharge zone due to cross-flow mixing in the deep confined aquifer. Journal of Hydrology, 560: 572-581. 10.1016/j.jhydrol.2018.03.052.

[3] Mao, X.*, Wang, H., Feng, L., 2018. Impact of additional dead carbon on the circulation estimation of thermal springs exposed from deep-seated faults in the Dongguan basin, southern China. Journal of Volcanology and Geothermal Research, 361: 1-11. 10.1016/j.jvolgeores.2018.08.002.

[4] Wang Hua, Mao Xumei*, Wang Tao, Feng Liang, Liang Lili, Zhu Dongbo, Yang Kaiming, 2019. Hydrogeochemical characteristics of hot springs exposed from fault zones in western Guangdong and their 14C age correction. Journal of Groundwater Science and Engineering, 7(1):1-14. DOI: 10.19637/j.cnki.2305-7068.2019.01.001

[5]朱东波,毛绪美*,何耀烨,史自德. 排泄区地下水横向径流混合14C 年龄校正研究. 地质论评,2020,66,(增刊1:51-53.

[6] 毛绪美*,查希茜501000 a地下水定年新方法:放射性成因32P.地球科学进展,2023.

[7] 李翠明,彭红明,毛绪美,董亚群,叶建桥,查希茜. 地下水H、O、C 同位素揭示的末次冰盛期以来青海东部岩溶发育响应. 地球与环境,2023. doi: 10. 14050/ j. cnki. 1672-9250. 2023. 51. 054

[8]查希茜,彭红明,毛绪美*,叶建桥,董亚群,李翠明. 风化土壤封存水HO稳定同位素揭示的青海东部岩溶发育对青藏高原隆升的响应. 安全与环境工程,2023. DOI: 10.13578/j.cnki.issn.1671-1556.20221643.

 

3. 同位素测试与分析方法。针对水的氢氧同位素、氚、14C测试前处理的难题,设计并研制了多种设备,发明专利有:

[1] 毛绪美, 梁杏, 王凤林. 一种同位素水样提取与提纯装置, 申请日期:2010-10-19, 中国, ZL201010514458.0. 公布日期:2012-03-28

[2] 毛绪美, 梁杏, 李静, 王凤林. 一种土壤水中溶解气体提取装置, 申请日期:2010-10-19,中国, ZL201010514456.1. 公布日期:2012-04-25

[3]毛绪美,王华. “一种测试有机物类样品14C丰度的前处理方法和设备,申请(发明专利)号:ZL201410071977.2 (申请日:20140228日,中国地质大学(武汉))公布日期:2016-01-27

[4] 毛绪美,王华. “一种测试碳酸盐类样品14C丰度的前处理方法和设备,申请(发明专利)号:ZL 201410071997.X  (申请日:20140228日,中国地质大学(武汉))公布日期:2016-03-16

[5] 毛绪美,赵桐,彭红明,邵誉炜,叶建桥. 地下水氚样多级蒸发浓缩装置及前处理方法. 申请(发明专利)号:ZL202210636233.5 公布日期:2022-10-20

 

4. 利用水化学和同位素工具,解决水、工、环难题。

开展过的工作主要有:某国家重大水利工程坝体内化学溶蚀的成因;泾河东庄水库可行的决定性判据;广东、山东等地的水热系统成因;中国东北和俄罗斯远东富CO2矿泉成因;湖北、湖南矿泉水资源等。

 

5. 矿泉水开发。

作为矿泉水开发高级顾问:指导了华彬集团在湖北十堰竹溪县VOSS高端矿泉水开发;指导湖北荆门正中水镇复合型矿泉水开发;指导湖北黄冈蕲春县矿泉水开发;伊利集团矿泉水资源勘查评价特聘专家;青海省矿泉水资源评价与开发咨询专家。