平台支撑论文发表 同位素实验室科学家们遵循科学精准求实的思想,严格遵守国际上通用的各项实验规范,利用精密的设备和研发的系列先进技术实现了对多种不同类型样品同位素组成的精准分析,在全国范围内为科研工作提供了可靠的数据支撑。实验室每年都为国内同行进行了大量样品得测试,高质量的数据支撑了高水平的论文发表, 现摘录部分由本平台所支撑的近几年发表的论文,供相关研究人员参考。 1. Jishuai Yang , Dongju Zhang* , Xiaoyan Yang*. Sustainable intensification of millet–pig agriculture in Neolithic North China. Nature Sustainability.2022(IF 27.157) 2. Shan Li, Yonghang Tian, Kun Wu, Nicholas P. Harberd & Xiangdong Fu*. Modulating plant growth-metabolism coordination for sustainable agriculture, Nature. 2018 (IF 49.962)
3. Wei Lin , QiaoZhen Li, Wanlai Zhou , Rui Yang , Dongdong Zhang , Hong Wang , Yujia Li. Zhiyong Qi, Yuzhong Li*. Insights into production and consumption processes of nitrous oxide emitted from soilless culture systems by dual isotopocule plot and functional genes. Science of The Total Environment. 2023, 801(2):149694.( IF 10.753).
4. Qian Zheng, Junjun Ding , Wei Lin, Zhipeng Yao, Qiaozhen Li, Chunying Xu , Shan Zhuang , Xinyue Kou , Yuzhong Li* ,The influence of soil acidification on N2O emissions derived from fungal and bacterial denitrification using dual isotopocule mapping and acetylene inhibition, 2022. Environmental Pollution, 303 (2022) 119076,(IF: 9.13, Q1). 5. Longran Chang, Xiaoxing Ming, Chris Groves, Brian Ham, Chaofu Wei, Pingheng Yang*. Nitrate fate and decadal shift impacted by land use change in a rural karst basin as revealed by dual nitrate isotopes, Environmental Pollution, 299: 118822. https://doi.org/10.1016/j.envpol.2022.118822(IF 9.13)
6. Yujia Li, QianZheng, Rui Yang, Shan Zhuang, Wei Lin, Yuzhong Li*. Evaluating microbial role in reducing N2O emission by dual isotopocule mapping following substitution of inorganic fertilizer for organic fertilizer. Journal of Cleaner Production 2021, 326:129442.(IF 9.297).
7. Fuli Fang, Yujia Li,Dapeng Yuan, Qian Zheng, Junjun Ding, Chunying Xu ,Wei Lin, Yuzhong Li*. Distinguishing N2O and N2 ratio and their microbial source in soil fertilized for vegetable production using a stable isotope method. Science of The Total Environment. 2021, 801(2):149694.( IF 10.753).
8. Xinyue Kou Junjun Ding Yuzhong Li* Qiaozhen Li Lili Mao Chunying Xu Qian Zheng, Shan Zhuang. Tracing nitrate sources in the groundwater of an intensive agricultural region. Agricultural water management. 2021. v.250 pp. 106826.( IF 4.721).
9. Wei Lin, Junjun Ding , Yujia Li , Qian Zheng , Shan Zhuang , Dongdong Zhang, Wanlai Zhou , Zhiyong Qi*, Yuzhong Li*.Determination of N2O reduction to N2 from manure-amended soil based on isotopocule mapping and acetylene inhibition. Atmospheric Environment. 2021;244(16): 117913.(IF 4.039).
10. Han Zhang , Yi Xu, Siqian Cheng. Application of the dual-isotope approach and Bayesian isotope mixing model to identify nitrate in groundwater of a multiple land-use area in Chengdu Plain, China. Science of the Total Environment. 2020;(IF 10.753)
11. Pingheng Yang, Yuyang Wang, Xinyu Wu, Longran Chang, Brian Ham, Lisheng Song, Chris Groves . Nitrate Sources and biogeochemical processes in karst underground rivers impacted by different anthropogenic input characteristics, Environmental Pollution, 265: 114835. https://doi.org/10.1016/j.envpol.2020.114835
12. Xiaoxing Ming ,Chris Groves,Xinyu Wu. Nitrate migration and transformations in groundwater quantified by dual nitrate isotopes and hydrochemistry in a karst World Heritage site. Science of the Total Environment. 2020 ;(IF :10.753))
13. Xu Shang,Hong Huang , Kun Mei. Riverine nitrate source apportionment using dual stable isotopes in a drinking water source watershed of southeast China Science of the Total Environment. 2020; (IF:10.753))
14. Wenbo Zheng ,Shiqin Wang, Nitrate accumulation and leaching potential is controlled by land-use and extreme precipitation in a headwater catchment in the North China Plain. Science of the Total Environment . 2020 .(IF: 10.753)
15. PinghengYang,YingLi,Chris Groves . Coupled hydrogeochemical evaluation of a vulnerable karst aquifer impacted by septic effluent in a protected natural area Science of the Total Environment. 2019 ;(IF: 10.753))
16. Ding, JJ; Fang, FL; Lin, W; Qiang, XJ; Xu, CY; Mao, LL; Li, QZ; Zhang, XM; Li, YZ . N2O emissions and source partitioning using stable isotopes under furrow and drip irrigation in vegetable field of North China . SCIENCE OF THE TOTAL ENVIRONMENT. 2019 ;( IF: 10.753))
17. Lin, W; Ding, JJ; Xu, CY; Zheng, Q; Zhuang, S; Mao, LL; Li, QZ; Liu, XY; Li, YZ Evaluation of N2O sources after fertilizers application in vegetable soil by dual isotopocule plots approach. ENVIRONMENTAL RESEARCH.2019 ;(IF:8.431)
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19. Hao Jiang , Wenjing Liu , Jiangyi Zhang . Spatiotemporal variations of nitrate sources and dynamics in a typical agricultural riverine system under monsoon climate . Journal of Environmental Sciences.2020;(IF 4.302)
20. Zuxue Jin,Jingfu Wang, Jingan Chen. Identifying the sources of nitrate in a small watershed using δ15N-δ18O isotopes of nitrate in the Kelan Reservoir, Guangxi, China Agriculture, Ecosystems and Environment.2020 ;(IF 4.241)
21. Chao Yin, Haiquan Yang, Jingfu Wang. Combined use of stable nitrogen and oxygen isotopes to constrain the nitrate sources in a karst lake Agriculture, Ecosystems and Environment.2020; (IF 4.241)
22. Wei Lin, Junjun Ding, Yuzhong Li*, Determination of N2O reduction to N2 from manure-amended soil based on isotopocule mapping and acetylene inhibition. Atmospheric Environment.2021;(IF 4.039)
23. Xinyue Kou,JunjunDing,Yuzhong Li , 2021, Tracing nitrate sources in the groundwater of an intensive agricultural region.Agricultural water management(IF 4.021)
24. Zhang, W; Li, YZ*; Xu, CY; Li, QZ; Lin, W , Isotope signatures of N2O emitted from vegetable soil: Ammonia oxidation drives N2O production in NH4+-fertilized soil of North China. SCIENTIFIC REPORTS.2016;(IF 3.998)
25. Lin, W; Ding, JJ; Li, YZ; Zhang, W; Ahmad, R; Xu, CY; Mao, LL; Qiang, XJ; Zheng, Q; Li, QZ . Partitioning of sources of N2O from soil treated with different types of fertilizers by the acetylene inhibition method and stable isotope analysis. EUROPEAN JOURNAL OF SOIL SCIENCE.2019; (IF 3.742)
26. Shengwei Cao, Yuhong Fei, Xia Tian. Determining the origin and fate of nitrate in the Nanyang Basin, Central China, using environmental isotopes and the Bayesian mixing model Environmental science and pollution research.2021; (IF 3.056)
27. Yujia Cai,Ju-Pei Shen, Hong J. Di Variation of soil nitrate and bacterial diversity along soil profiles in manure disposal maize field and adjacent woodland. Journal of Soils and Sediments.2020; (IF 2.763)
28. 路路,戴尔阜,程千钉. 基于水环境化学及稳定同位素联合示踪的土地利用类型对地下水体氮素归趋影响. 2019. 地理学报
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31. 寇馨月,丁军军,李玉中* . 青岛市农区地下水硝态氮污染来源解析. 2021. 环境科学
32. 孙厚云,卫晓锋,贾凤超. 基于多环境介质氮素和同位素的滦平盆地地下水硝酸盐来源示踪. 2020 ;环境科学
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35. 段世辉,蒋勇军,张远瞩 ; 岩溶槽谷区地下河硝酸盐来源及其环境效应:以重庆龙凤槽谷地下河系统为例. 2019; 环境科学
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37. 盛婷,杨平恒,谢国文. 基于δ15N和δ18O的农业区地下河硝酸盐污染来源. 2018; 环境科学
38. 林伟; 丁军军; 李玉中*; 徐春英; 李巧珍; 郑欠; 庄姗 . 有机肥和无机肥对菜地土壤N_2O排放及其来源的影响. 2018 ; 应用生态学报
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40. 丁军军; 张薇; 李玉中*; 林伟; 徐春英; 李巧珍 . 不同灌溉量对华北平原菜地N_2O排放及其来源的影响. 2017; 应用生态学报
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