首页 > 科技平台 > 自然资源部岩溶动力学重点实验室 > 科研成果
2024年度科研成果统计
据统计,2024年度重点实验室发表SCI论文30篇,EI论文10篇,中文核心论文24篇。
1. SCI论文(30篇)
[1] Yongli Guo*, Fen Huang*, Fuxiang Chi, Ning Zhang, Jie Ma, Ying Miao, Fajia Chen. Hydrogeological structures of karst features using hydrographs in an underground river basin formed in a peak cluster depression, southwest China[J]. Journal of Hydrology, 2024, 634: 131085.
[2] Jinke Chen, Junbing Pu, Jianhong Li, et al. Response of carbon-and water-use efficiency to climate change and human activities in China[J]. Ecological Indicators, 2024, 160: 111829.
[3] Mingwei Sun, Zhenwei Wang, Jianhong Li, et al. Interpretation of suspended sediment concentration‐runoff hysteresis loops in two small karst watersheds[J]. Earth Surface Processes and Landforms.
[4] Wanjun Zhang; Cunlin Xin; Shi Yu. A Review of Heavy Metal Migration and Its Influencing Factors in Karst Groundwater, Northern and Southern China[J]. Water, 2023, 15, 3690.
[5] Mi Tang, Shi Yu, Shaohong You, Pingping Jiang. The characteristics and application of deuterium and oxygen isotopes to karst groundwater, Southwest China[J]. Water, 2024, 16: 1812.
[6] Mi Tang, Jun Lv, Shi Yu, Yan Liu, Shaohong You, Pingping Jiang. Application of hydrochemistry and strontium isotope for understanding the hydrochemical characteristics and genesis of strontium-rich groundwater in karst area, Gongcheng County, Southwest China[J]. Journal of Groundwater Science and Engineering, 2024, 12(3): 264-280.
[7] Fen Huang*, Mingzhu Fan, Xiaomei Wei, Jianhua Cao. Overestimating the involvement of nitric acid derived from nitrification in carbonate dissolution under a calcareous soil system[J]. Environmental Technology & Innovation, 2024, 35, 103692.
[8] Jie Ma, Shilong Zhu, Xiaomei Wei, Yongli Guo, Jianhua Cao, Fen Huang*. Temporal dynamics of water level and water sources analyses of karst tidal springs in Guilin, China[J]. Hydrology Research, 2024, 55, (3), 380.
[9] Shan Gao, Zhiqin Qing, Lang Yang, Wenming Feng, Shilong Zhu, Yingcai Xie, Fen Huang*. Pollution and Carbon Sequestration of Highway Runoff in Karst Regions: A Case Study from Guangxi, China[J]. Polish Journal of Environmental Studies, 2024, DOI: 10.15244/pjoes/190015.
[10] Fan Liu, Song Wang, Jia Wang, Fang Guo*, Shi Yu, Ping’an Sun. The Hydrochemistry Characteristics and Chemical Weathering Intensity of an Anthropogenically Involved Catchment, South China[J]. Water, 2024, 16, 2444.
[11] Fang Guo, Guanghui Jiang, Jason Polk. Karst hyporheic zone and its aquatic environmental effects: a preliminary study in South China[J]. Hydrological Sciences Journal, 2024, 69:6, 678-690, DOI: 10.1080/02626667.2024.2328632
[12] Ning Zhang, Qiong Xiao, Yongli Guo, Ping’an Sun, Ying Miao, Fajia Chen, Cheng Zhang. Characteristics of an Inorganic Carbon Sink Influenced by Agricultural Activities in the Karst Peak Cluster Depression of Southern China (Guancun) [J]. Land, 2024, 13, 952.
[13] Jiabin Li, Qiong Xiao, Qiufang He, Yurui Cheng, Fang Liu, Peiling Zhang, Yifei Liu, Daoxian Yuan, Shi Yu. Research Regarding the Autochthonous Dissolved Organic Carbon to Recalcitrant Dissolved Organic Carbon Transformation Mechanism in a Typical Surface Karst River[J]. Water, 2024, 16, 2584.
[14] Yiqi Ma, Jing Ning, Hui Yang*, Liankai Zhang, Can Xu, Chao Huang, Jianhong Liang. Distribution characteristics, risk assessment, and source analysis of heavy metals in farmland soil of a karst area in Southwest China[J]. Land, 2024, 13, 979.
[15] Yincai Xie*, Peng Qian, Jun Li, Shi Yu, Xiongyi Miao*, Yongli Guo, Fen Huang, Qiong Xiao, Liankai Zhang. Response of weathering carbon sink effect to anthropogenic sulfuric acid in different lithological catchments: A case study from Southwest China[J]. Journal of Asian Earth Sciences, 2024, 270, 106195.
[16] Xiongyi Miao, Longli Chen, Yupei Hao*, Jing An, Tiantian Xu, Wei Bao, Xingyou Chen, Xiangen Liao, Yincai Xie*. The variations of heavy metals sources varied their aggregated concentration and health risk in sediments of karst rivers – A case study in Liujiang River Basin, Southwest China[J]. Marine Pollution Bulletin, 2024, 201, 116171.
[17] Fujing Pan, Xuan Yu, Min Chen, Yueming Liang*. Vegetation recovery reshapes the composition and enhances the network connectivity of phoD-harboring microorganisms to promote P availability in a karst ecosystem[J]. Science of the Total Environment, 2024, 918, 170561.
[18] Fujing Pan, Qian Yang, Yueming Liang*, Xuan Yu, Peilei Hu, Wei Zhang*, Yuelan Pang. Lithology and elevated temperature impact phoD-harboring bacteria on soil available P enhancing in subtropical forests[J]. Science of the Total Environment, 2024, 948, 174815.
[19] Min Chen, Hanlian Qin,Yueming Liang*, Dan Xiao, Peidong Yan, Mingshan Yin, Fujing Pan. The phoD-Harboring Microorganism Communities and Networks in Karst and Non-Karst Forests in Southwest China[J]. Forests, 2024,15:341.
[20] Lijun Liu, Qilin Zhu, Yunxing Wan, Ruoyan Yang, Jinxia Mou, Yanhong Li, Lei Meng, Tongbin Zhu*, Ahmed S. Elrys. Afforestation improves soil organic carbon and total nitrogen stocks mainly through increasing > 2 mm aggregate fractions and stimulating carbon and nitrogen transformations within aggregates in subtropical karst region[J]. Catena, 2024, 243: 108220.
[21] Lijun Liu, Qilin Zhu, Dongni Wen, Lin Yang, Kang Ni,Xingliang Xu, Jianhua Cao, Lei Meng, Jinling Yang, Jinxing Zhou, Tongbin Zhu*, Christoph Müller. Stimulation of organic N mineralization by N‒acquiring enzyme activity alleviates soil microbial N limitation following afforestation in subtropical karst areas[J]. Plant Soil, 2024.
[22] Lijun Liu, Qilin Zhu, Lin Yang, Ahmed S. Elrys, Jianfei Sun, Kang Ni, Lei Meng, Tongbin Zhu*, Christoph Müller. Afforestation increases soil inorganic N supply capacity and lowers plant N limitation in subtropical karst areas[J]. Geoderma, 2024: 443, 116848.
[23] Xue Wang, Xiangling Tang*, Shi Yu*, et al. Study on the Synergistic Effects of Karst Carbon Sink and Vegetation Carbon Sink in Watersheds under Different Geological Backgrounds—A Case Study of Darongjiang and Lingqu Watersheds[J]. Water, 2024, 16(8):1192.
[24] De-gen Zhu, Jing Ning, Hui Yang, Jun-bing Pu, Jian-hua Cao, Meng-xia Zhou, Prelovšek Mitja, Ravbar Nataša. Research hotspot and trend of plant water use in karst: Based on a bibliometric analysis from 1984 to 2022[J]. China Geology, 2024, doi: 10.31035/cg2023134.
[25] Zeyan Wu, Weiqun Luo, Zhongcheng Jiang, Zhaoxin Hu. Influence of Biomass Amendments on Soil CO2 Concentration and Carbon Emission Flux in a Subtropical Karst Ecosystem[J]. Sustainability, 2024, 16(18):7883.
[26] Zhaoxin Hu, Zeyan Wu, Weiqun Luo, et al. Spatial distribution, risk assessment, and source apportionment of soil heavy metals in a karst county based on grid survey[J]. Science of The Total Environment, 2024, 953:176049.
[27] Mingyu Shao; Zaihua Liu; Hailong Sun; Haibo He; Qiang Li; Sibo Zeng; Junyao Yan; Yan Fang; Qiufang He; Hailong Liu; Liangxing Shi; Chaowei Lai, Multi-tracer evidence of hydrology and primary production controls on dissolved organic matter composition and stability in the semi-arid aquatic continuum[J]. Geochimica et Cosmochimica Acta, 2024, 384: 80-92.
[28] Fan Xia; Zaihua Liu; Yunling Zhang; Qiang Li; Min Zhao; Haibo He; Qian Bao; Bo Chen; Qiufang He; Chaowei Lai; Xuejun He; Zhen Ma; Yongqiang Zhou, Calcium regulates the interactions between dissolved organic matter and planktonic bacteria in Erhai Lake, Yunnan Province, China[J]. Water Research, 2024, 261: 121982.
[29] Cheng Li, Tao Yu, Zhongcheng Jiang, et al. Leveraging machine learning for sustainable cultivation of Zn-enriched crops in Cd-contaminated karst regions[J]. Science of The Total Environment, 2024, 954: 176650.
[30] Cheng Li, Zhongcheng Jiang, Weili Li, et al. Machine learning-based prediction of cadmium pollution in topsoil and identification of critical driving factors in a mining area[J]. Environmental Geochemistry and Health, 2024, 46(9): 315.
2. EI论文(10篇)
[1] 吴庆, 黄芬, 郭永丽*, 肖琼, 孙平安, 杨慧, 白冰. 西南岩溶小流域水体中微量元素地球化学特征及其指示意义[J].地学前缘, 2024, 31(5): 397-408.
[2] 张春来, 杨慧, 黄芬, 邱成, 朱同彬. 亚热带季风区边缘坡立谷河流水化学特征及外源水的增汇效应:以广西马山县清波河流域为例[J]. 地学前缘, 2024, 31(5) 10.13745/j.esf.sf.2024.2.14.
[3] 钟 亮, 张春来*, 胡 芬, 曹建华. 基于Web of Science 的岩溶碳循环及碳汇效应研究动态分析[J]. 中国岩溶, 2024, 43(4): 766-779, 809.
[4] 原雅琼, 孙平安*, 于奭, 何师意. 长江流域水体稳定同位素分馏特征及碳水循环[J]. 地学前缘, 2024, 31(5): 409-420.
[5] 周建超, 殷建军*, 袁道先. 广西桂林岩溶湿地沉积记录的中全新世以来水文气候变化[J]. 地质学报, 2024, https://doi.org/10.19762/j.cnki.dizhixuebao.2023077.
[6] 陈发家, 肖琼*, 胡祥云, 郭永丽, 孙平安, 张宁. 典型岩溶小流域碳酸盐岩风化过程及其碳汇效应[J]. 地学前缘, 2024, 31(05): 449-459.
[7] 吴泽燕, 李强, 章程等, 岩溶区开荒退耕对土壤碳氮耦合关系的影响及作用机制[J]. 地学前缘, 2025.
[8] 胡兆鑫, 吴泽燕, 罗为群, 等. 典型岩溶县土壤重金属含量、来源及生态风险评价[J]. 环境科学, 2024,45(09):5506-5516.
[9] 李程, 杨忠芳, 张起钻, 等. 基于机器学习的高镉地质背景区成土母质类型识别[J/OL]. 环境科学, 1-18.https://doi.org/10.13227/j.hjkx.202405183.
[10] 涂纯, 毛诗画, 孔祥胜, 等. 滇东南岩溶与非岩溶区土壤有机碳空间分异及其影响因素[J/OL]. 环境科学, 1-15. https://doi.org/10.13227/j.hjkx.202405239.
3. 中文核心论文(24篇)
[1] 章程, 肖琼, 汪进良, 孙平安, 苗迎, 郭永丽, Mitja PRELOVSEK, Martin KNEZ, Saša MILANOVIĆ. 斯洛文尼亚岩溶区草地生长季土壤CO2变化及其降雨效应[J]. 地球学报. https://link.cnki.net/urlid/11.3474.P.20240428.0838.004
[2] 郭芳, 姜光辉, 刘凡, 李志杰. 岩溶山区坡面一孔多层地下水监测试验及科学意义[J]. 中国岩溶, 2024, 43(3): 491-499. DOI: 10.11932/karst20240301
[3] 袁宏毅, 覃方兴, 李琼芳, 董鹏举, 任亚珍, 刘凤起, 张标, 车明轩*, 张 强*. 岩溶区河岸带土壤‒植被‒水体中可溶性碳的季节动态特征[J]. 应用与环境生物学报, 2024. 202531:110.doi:10.19675/j.cnki.1006-687x.2024.04036
[4] 陈燕, 杨慧*, 宁静, 朱德根, 吴夏, 黄芬, 马洋, 陈伟, Prelovšek Mitja, Ravbar Nataša, 重度干旱条件下典型岩溶区植被恢复过程中植物水分利用来源和效率研究[J]. 生态环境学报, 2024,33(10): 1534-1543.
[5] 黄超, 梁建宏, 杨慧*, 李鸿, 李雪艳, 陶悦, 张连凯. 岩溶区不同微地形芒果园土壤肥力综合评价[J]. 南方农业学报, 2024 ,55 (8): 2407-2418.
[6] 曹建华, 杨慧, 黄芬, 张春来, 张连凯, 朱同彬, 周孟霞, 袁道先. 岩溶碳汇原理、过程与计量[J]. 地学前缘, 2024,31(5): 358-376.
[7] 杨明凤, 殷建军*. 岩溶洞穴温度与当地多年平均气温的关系研究——以云南普者黑排龙洞为例[J]. 中国岩溶, 2024, 43(4): 780-795.
[8] 谢银财*, 杨慧, 李军, 缪雄谊, 杨 霖, 吴树诚. 岩溶区石灰土演化过程中钙影响土壤氮矿化的机制研究[J]. 中国岩溶, 2024, 43(5): xx-xx.
[9] 蒋潇潇, 宁凯, 潘复静, 杨希, 贺新宇, 梁月明*. 蔗渣生物质炭对岩溶森林土壤磷素有效性的影响[J]. 广西植物, 2024, DOI:10.11931/guihaia.gxzw202404056
[10] 钟萍, 王光军, 刘绍华*, 徐永福, 罗为群. 桂北典型岩溶区植物alpha和beta多样性特征及影响因素[J]. 生态学报, 2024, 44(7): 3016-3026.
[11] 胡兆鑫, 罗为群, 谢运球, 等. 基于因子分析的广西平果市土壤地球化学分区[J]. 地质通报, 2024, https://link.cnki.net/urlid/11.4648.P.20240425.1424.004.
[12] 胡兆鑫, 罗为群, 吴泽燕, 等. 基于土地利用的岩溶县土壤重金属污染风险评价与来源解析[J]. 中国地质, 2024, https://link.cnki.net/urlid/11.1167.P.20240612.1838.011.
[13] 胡兆鑫, 罗为群, 蒋忠诚, 等. 基于生态系统脆弱性评价的典型岩溶区生态治理分区[J]. 中国岩溶, 2024, 43(03): 661-671.
[14] 蒋利, 康志强, 梁月明, 吴泽燕, 涂纯, 李强*. 石灰土易提取球囊霉素相关土壤蛋白的实验条件优化[J]. 岩矿测试. 2024,43,(4):592-601.
[15] 陈伟坚, 靳振江, 许丹丹, 李强*. 喀斯特湿地、稻田和稻田撂荒地的N2O排放及其与硝化和反硝化细菌群落的相关性[J]. 农业环境科学学报. 2024, 43, (9): 1-16.
[16] 李强, 汤秦, 吴锐. 抗生素添加对不同演替阶段岩溶生态系统土壤有机质激发效应的影响[J]. 生态环境学报, 2024, 33.
[17] 涂纯, 覃星铭, 李发东, 等. 典型岩溶县域土壤有机碳的空间分异及主控因素[J/OL]. 水土保持学报, 1-11. https://doi.org/10.13870/j.cnki.stbcxb.2025.01.009.
[18] 涂纯, 毛诗画, 孔祥胜, 等. 滇东南岩溶与非岩溶区土壤有机碳空间分异及其影响因素[J/OL]. 环境科学, 1-15. https://doi.org/10.13227/j.hjkx.202405239.
[19] 涂纯, 罗为群, 李发东, 等. 中国南方岩溶石漠化的时空变化及其原因分析[J/OL].地质通报,1-14.https://kns.cnki.net/kcms/detail/11.4648.P.20240816.1132.004.html.
[20] 张宇, 罗为群*, 刘美玲, 等. 岩石风化碳汇遥感估算及其时空变化分析[J]. 中国岩溶, 2024, 43(04): 727-741.
[21] 杨平恒, 华茂松, 罗为群*, 等. 基于CiteSpace的岩溶地下水硝酸盐示踪研究进展[J]. 中国岩溶, 2024,43(03): 563-574.
[22] 蒋忠诚,李振炜,罗为群,等.西南岩溶区水土漏失研究进展与展望[J]. 中国水土保持科学(中英文), 2024, 22(03): 1-11.
[23] 郭杰华, 蒋忠诚*, 刘新建, 等. 湘中娄底市岩溶塌陷特征及影响因素研究[J]. 中国岩溶, 2024, 43(04): 911-921.
[24] 朱德根, 杨慧, 赵虎, 等. 广西岩溶区石漠化演变及其对土地利用变化的响应[J]. 中国岩溶, 1-22[2024-12-02].
