尊龙凯时 - 人生就是搏!-z6com

科研人员

康荣华

康荣华研究员 博导

学历:博士 

学科:森林生态学;氮素生物地球化学循环

电话:024-83970942

邮箱: kangrh@iae.ac.cn   

地址:沈阳市沈河区172

邮编:110016

简历介绍

2021.01-至今 尊龙凯时人生就是搏z6com沈阳应用生态研究所,研究员

2018.07-2020.12 尊龙凯时人生就是搏z6com沈阳应用生态研究所,副研究员

2017.06-2018.07 挪威生命科学大学,博士后

2013.01-2017.06 挪威生命科学大学,博士

研究领域

陆地生态系统与大气之间氮氧化物交换通量的观测;

森林、农田土壤一氧化氮排放通量及主要过程的研究;

利用稳定同位素技术研究植物叶片吸收二氧化氮的机理。

承担科研项目情况

1. 国家自然科学基金面上项目,“典型温带森林生态系统林冠吸收大气氮氧化物通量及机理的研究”,(42277231),2023/1-2026/12,在研,主持

2. 泰山学者青年专家项目,“设施蔬菜地活性氮气体排放和氮肥利用率的研究”,2021/1-2025/12,在研,主持

3. 辽宁省科技计划联合计划(重点研发计划)项目,“痕量气体自动吹扫富集系统研制”,2023/12-2025/11,在研,主持

4. 国家自然科学基金青年基金项目,“利用稳定氮同位素方法研究森林土壤一氧化氮排放机理”,(41807320),2019/1-2021/12,结题,主持

5. 尊龙凯时人生就是搏z6com仪器设备功能开发技术创新项目,“NON2O气体自动进样-液氮浓缩系统开发”,2020/1-2020/12,结题,主持

6. 国家重点研发计划,“黑土区农田固碳沃土与产能协同提升关键技术和示范”,(2023YFD1500800),2023/11-2028/10,在研,子课题负责人

7. 尊龙凯时人生就是搏z6com科研仪器设备研制项目,“基于法拉第磁光旋转光谱大气NOx双组分测定和涡度相关通量测量系统研制”,(YJKYYQ20190054),2020/1-2021/12,结题,课题负责人

8. 尊龙凯时人生就是搏z6com王宽诚率先人才计划卢嘉锡国际团队项目,“我国东北森林生态系统结构和功能对全球变化的响应及其机制”(GJTD-2018-07),2019/1-2021/12,结题,课题负责人

9. 国家重点研发计划,“典型人工林生态系统对全球变化适应机制”,(2020YFA0608100),2020/11-2024/12,在研,项目骨干

10. 尊龙凯时人生就是搏z6com战略性先导科技专项(A类),““绿水青山”维持技术示范”,(XDA23070103),2019/1-2023/12,在研,项目骨干

发表论文情况

1.     Xie, D., Zhao, B., Kang, R., Ma, X., Larssen, T., Jin, Z., Duan, L., 2024. Delayed recovery of surface water chemistry from acidification in subtropical forest region of China. Sci Total Environ, 912, 169126.

2.     Yang, D., Zhang, J., Yu, Q., Xie, D., Kang, R., Zhang, T., Si, G., Mulder, J., Huang, Y., Duan, L., 2024. The response of needle stoichiometry to 10-year N addition and 4-year cessation of N addition in a subtropical Masson pine plantation of China. Plant and Soil, 497 (1), 359-375.

3.     Yu, H.M., Duan, Y.H., Mulder, J., Dörsch, P., Zhu, W.X., Xu, R., Huang, K., Zheng, Z.T., Kang, R.H., Wang, C., Quan, Z., Zhu, F.F., Liu, D.W., Peng, S.S., Han, S.J., Zhang, Y.J., Fang, Y.T., 2023. Universal temperature sensitivity of denitrification nitrogen losses in forest soils. Nature Climate Change 13, 726.

4.     Kang, R.H., Huang, K., Gao, T., Mulder, J., Duan, L., Wang, C., Ke, P.P., Yao, M., Su, C.X., Li, J., Zhu, W.X., Zhu, J.J., Fang, Y.T., 2023. Forest Canopy Acts as an Atmospheric NOx Sink: Results From Micrometeorological Flux Measurements. Journal of Geophysical Research-Atmospheres 128.

5.     Cao, Y., Liu, K., Wang, R.F., Gao, X.M., Kang, R.H., Fang, Y.T., Chen, W.D., 2023. NO2 Sensor Based on Faraday Rotation Spectroscopy Using Ring Array Permanent Magnets. Analytical Chemistry 95, 1680-1685.

6.     Kang, R.H., Behrendt, T., Mulder, J., Dörsch, P., 2022. Soil Moisture Control of NO Turnover and N2O Release in Nitrogen-Saturated Subtropical Forest Soils. Forests 13.

7.     Ke, P.P#., Kang, R.H#., Avery, L.K., Zhang, J.W., Yu, Q., Xie, D.N., Duan, L., 2022. Temporal variations of soil NO and NO2 fluxes in two typical subtropical forests receiving contrasting rates of N deposition. Environmental Pollution 295.

8.     Wang, Y.Y., Zhu, F.F., Kang, R.H., Song, L.L., Huang, S.N., Huang, D., Huang, K., Mgelwa, A.S., Gurmesa, G.A., Fang, X.M., Fang, Y.T., 2022. Chemical Composition and Deposition Characteristics of Precipitation into a Typical Temperate Forest in Northeastern China. Forests 13.

9.     Ke, P., Yu, Q., Ge, X.D., Wu, W.Z., Kang, R.H., Zhao, B., Duan, L., 2022. Fluxes of H2S and SO2 above a subtropical forest under natural and disturbed conditions induced by temporal land-use change. Science of the Total Environment 811.

10.Huang, K., Su, C.X., Liu, D.W., Duan, Y.H., Kang, R.H., Yu, H.M., Liu, Y.Q., Li, X., Gurmesa, G.A., Quan, Z., Christiansen, J.R., Zhu, W.X., Fang, Y.T., 2022. A strong temperature dependence of soil nitric oxide emission from a temperate forest in Northeast China. Agricultural and Forest Meteorology 323.

11.Duan, Y.H., Liu, D.W., Huang, K., Shou, W.K., Zhu, F.F., Liu, Y.Q., Yu, H.M., Gundersen, P., Kang, R.H., Wang, A., Han, S.J., Wang, Z.M., Zhu, J.J., Zhu, W.X., Fang, Y.T., 2022. Design and performance of an ecosystem-scale forest soil warming experiment with infrared heater arrays. Methods in Ecology and Evolution 13, 2065-2077.

12.Su, C.X., Zhu, W.X., Kang, R.H., Quan, Z., Liu, D.W., Huang, W.T., Shi, Y., Chen, X., Fang, Y.T., 2021. Interannual and seasonal variabilities in soil NO fluxes from a rainfed maize field in the Northeast China. Environmental Pollution 286.

13.Su, C.X., Kang, R.H., Huang, W.T., Fang, Y.T., 2021. Temporal Patterns of N2O Fluxes From a Rainfed Maize Field in Northeast China. Frontiers in Environmental Science 9.

14.Su, C.X#., Kang, R.H#., Zhu, W.X., Huang, W.T., Song, L.L., Wang, A., Liu, D.W., Quan, Z., Zhu, F.F., Fu, P.Q., Fang, Y.T., 2020. δ15N of Nitric Oxide Produced Under Aerobic or Anaerobic Conditions From Seven Soils and Their Associated N Isotope Fractionations. Journal of Geophysical Research-Biogeosciences 125.

15.Ke, P.P., Yu, Q., Luo, Y., Kang, R.H*., Duan, L*., 2020. Fluxes of nitrogen oxides above a subtropical forest canopy in China. Science of the Total Environment 715.

16.Kang, R.H., Yu, L.F., Dörsch, P., Mulder, J., 2020. Nitrification is the primary source for NO in N-saturated subtropical forest soils: Results from in situ 15N labeling. Rapid Communications in Mass Spectrometry 34.

17.Huang, S.N., Wang, F., Elliott, E.M., Zhu, F.F., Zhu, W.X., Koba, K., Yu, Z.J., Hobbie, E.A., Michalski, G., Kang, R.H., Wang, A.Z., Zhu, J.J., Fu, S.L., Fang, Y.T., 2020. Multiyear Measurements on Δ17O of Stream Nitrate Indicate High Nitrate Production in a Temperate Forest. Environmental Science & Technology 54, 4231-4239.

18.Yu, Q., Zhang, T., Ma, X., Kang, R.H., Mulder, J., Larssen, T., Duan, L., 2017. Monitoring Effect of SO2 Emission Abatement on Recovery of Acidified Soil and Streamwater in Southwest China. Environmental Science and Technology 51, 9498-9506.

19.Yu, L.F., Kang, R.H., Mulder, J., Zhu, J., Dörsch, P., 2017. Distinct fates of atmogenic NH4+ and NO3- in subtropical, N-saturated forest soils. Biogeochemistry 133, 279-294.

20.Wang, J.Q., Zhang, X.S., Wang, Z.W., Kang, R.H., 2017. A relative method for measuring nitric oxide (NO) fluxes from forest soils. Science of the Total Environment 574, 544-552.

21.Liu, W.J., Yu, L.F., Zhang, T., Kang, R.H., Zhu, J., Mulder, J., Huang, Y.M., Duan, L., 2017. In situ 15N labeling experiment reveals different long-term responses to ammonium and nitrate inputs in N-saturated subtropical forest. Journal of Geophysical Research-Biogeosciences 122, 2251-2264.

22.Kang, R.H., Mulder, J., Duan, L., Dörsch, P., 2017. Spatial and temporal variability of soil nitric oxide emissions in N-saturated subtropical forest. Biogeochemistry 134, 337-351.

23.Kang, R.H., Mulder, J., Dörsch, P., 2017. Modified Method for Trapping and Analyzing 15N in NO Released from Soils. Analytical Chemistry 89, 4124-4130.

24.Huang, Y.M., Kang, R.H., Mulder, J., Zhang, T., Duan, L., 2015. Nitrogen saturation, soil acidification, and ecological effects in a subtropical pine forest on acid soil in southwest China. Journal of Geophysical Research-Biogeosciences 120, 2457-2472.

25.Huang, Y.M., Kang, R.H., Ma, X.X., Qi, Y., Mulder, J., Duan, L., 2014. Effects of calcite and magnesite application to a declining Masson pine forest on strongly acidified soil in Southwestern China. Science of the Total Environment 481, 469-478.

26.Kang, R.H., Zheng, M.L., Chen, W.Q., Zhao, Z.S., Duan, X.M., 2012. Bright fluorescent hollow structural nanoparticles prepared from amphiphilic molecules with C2v symmetry. Rsc Advances 2, 10478-10480.

27.姚萌, 康荣华*, 王盎, 马方园, 李靳, 台子晗, 方运霆, 2023. 利用15N示踪技术研究木荷与马尾松幼苗叶片对NO2的吸收与分配. 植物生态学报, 114-122.

28.李靳, 康荣华*, 于浩明, 王莹莹, 姚萌, 方运霆, 2021. 土壤水分对土壤产生气态氮的厌氧微生物过程的影响. 应用生态学报, 1989-1997.

29.刘文静,康荣华,张婷,朱婧,段雷,2015. 我国西南地区氮饱和马尾松林土壤和植物15N自然丰度对长期氮施加的响应. 环境科学,36(8).

30.徐光仪,康荣华,罗遥,段雷,2013. 我国东北地区地表水酸化现状. 环境科学,5,1695-1699.

31.陈晓,康荣华,罗遥,马萧萧,叶芝祥,段雷,2012. 四川盆地地表水酸化现状与趋势. 科学通报,25,2419-2424.

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