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2020年7-9月地科院学术论文发表汇总

2020-10-15

1.Insight into the mechanisms of denitrification and sulfate reduction coexistence in cascade reservoirs of the Jialing River: Evidence from a multi-isotope approach

Cui, G;Li, X*.;Yang, M.;Ding, S.;Li, Q.;Wang, Y.;Yang, Z.;Ding, H.

Science of the Total Environment,doi:10.1016/j.scitotenv.2020.141682

2.Water column stability driving the succession of phytoplankton functional groups in karst hydroelectric reservoirs

Cui, G.;Wang, B*.;Xiao, J.;Qiu, X.;Liu, C.;Li, X*

Journal of Hydrology,doi:10.1016/j.jhydrol.2020.125607

3.The abatement of acid rain in Guizhou province, southwestern China: Implication from sulfur and oxygen isotopes

Yan, Z.;Han X.;Lang, Y.;Guo, Q.;Li, S.

Environmental Pollution,doi:10.1016/j.envpol.2020.115444

4.Source apportionment of mercury in surface soils near the Wuda coal fire area in Inner Mongolia, China

Fei Cao;Mei Meng*;Bing Shan;Ruoyu Sun*.

Chemosphere,doi:10.1016/j.chemosphere.2020.128348

5.Large contributions of biogenic and anthropogenic sources to fine organic aerosols in Tianjin, North China

Fan, Yanbing;Liu, Cong-Qiang;Li, Linjie;Ren, Lujie;Ren, Hong;Zhang, Zhimin; Li, Qinkai;Wang, Shuang;Hu, Wei;Deng, Junjun;Wu, Libin;Zhong, Shujun;Zhao, Yue;Pavuluri, Chandra Mouli;Li, Xiaodong;Pan, Xiaole;Sun, Yele;Wang, Zifa;Kawamura, Kimitaka;Shi, Zongbo;Fu, Pingqing

Atomspheric Chemistry and Physics.doi:10.5194/acp-20-117-2020

6.Molecular markers of biomass burning and primary biological aerosols in urban Beijing: size distribution and seasonal variation

Xu, Shaofeng;Ren, Lujie;Lang, Yunchao;Hou, Shengjie;Ren, Hong;Wei, Lianfang;Wu, Libin;Deng, Junjun;Hu, Wei;Pan, Xiaole;Sun, Yele;Wang, Zifa;Su, Hang;Cheng, Yafang;Fu, Pingqing

Atomspheric Chemistry and Physics,doi:10.5194/acp-20-3623-2020

7.Molecular and spatial distributions of dicarboxylic acids, oxocarboxylic acids, and alpha-dicarbonyls in marine aerosols from the South China Sea to the eastern Indian Ocean

Yang, Jing;Zhao, Wanyu;Wei, Lianfang;Zhang, Qiang;Zhao, Yue;Hu, Wei;Wu, Libin;Li, Xiaodong;Pavuluri, Chandra Mouli;Pan, Xiaole;Sun, Yele;Wang, Zifa;Liu, Cong-Qiang;Kawamura, Kimitaka;Fu, Pingqing

Atomspheric Chemistry and Physics,doi:10.5194/acp-20-6841-2020

8.Summertime fluorescent bioaerosol particles in the coastal megacity Tianjin, North China

Cheng, Borong;Yue, Siyao;Hu, Wei;Ren, Lujie;Deng, Junjun;Wu, Libin;Fu, Pingqing

Science of the Total Environment,doi:10.1016/j.scitotenv.2020.137966

9.High daytime abundance of primary organic aerosols over Mt. Emei, Southwest China in summer

Zhao, Yue;Ren, Hong;Deng, Junjun;Li, Linjie;Hu, Wei;Ren, Lujie;Yue, Siyao; Fan, Yanbing;Wu, Libin;Li, Jie;Sun, Yele;Wang, Zifa;Akimoto, Hajime;Zeng, Xin;Cheng, Yi;Kong, Shaofei;Su, Hang;Cheng, Yafang;Kawamura, Kimitaka;Fu, Pingqing

Science of the Total Environment,doi:10.1016/j.scitotenv.2019.134475

10.Assessment of molecular diversity of lignin products by various ionization techniques and high-resolution mass spectrometry

Qi, Yulin;Fu, Pingqing;Li, Siliang;Ma, Chao;Liu, Congqiang;Volmer, Dietrich A.

Science of the Total Environment,doi:10.1016/j.scitotenv.2020.136573

11.Black carbon in Xiamen, China: Temporal variations, transport pathways and impacts of synoptic circulation

Deng, Junjun;Zhao, Wei;Wu, Libin;Hu, Wei;Ren, Lujie;Wang, Xin;Fu, Pingqing

Chemosphere,doi:10.1016/j.chemosphere.2019.125133

12.Source forensics ofn-alkanes andn-fatty acids in urban aerosols using compound specific radiocarbon/stable carbon isotopic composition

Ren, Lujie;Wang, Yiyun;Kawamura, Kimitaka;Bikkina, Srinivas;Haghipour, Negar;Wacker, Lukas;Pavuluri, Chandra Mouli;Zhang, Zhimin;Yue, Siyao;Sun, Yele;Wang, Zifa;Zhang, Yanli;Feng, Xiaojuan;Liu, Cong-Qiang;Eglinton, Timothy, I;Fu, Pingqing

Environmental Research Letters,doi:10.1088/1748-9326/ab8333

13.Biological Aerosol Particles in Polluted Regions

Hu, Wei;Wang, Zihan;Huang, Shu;Ren, Lujie;Yue, Siyao;Li, Ping;Xie, Qiaorong;Zhao, Wanyu;Wei, Lianfang;Ren, Hong;Wu, Libin;Deng, Junjun;Fu, Pingqing

Current Pollution Reports,doi:10.1007/s40726-020-00138-4

14.Abundance and viability of particle-attached and free-floating bacteria in dusty and nondusty air

Hu, Wei;Murata, Kotaro;Fan, Chunlan;Huang, Shu;Matsusaki, Hiromi;Fu, Pingqing;Zhang, Daizhou

Biogeosciences,doi:10.5194/bg-17-4477-2020

15.Fungal Nanophase Particles Catalyze Iron Transformation for Oxidative Stress Removal and Iron Acquisition

Guang-Hui Yu*;Zhi-Lai Chi;Andreas Kappler;Fu-Sheng Sun;Cong-Qiang Liu;Hui Henry Teng*;Geoffrey Michael Gadd

Current Biology,doi:10.1016/j.cub.2020.05.058

16.Effects of agricultural activities coupled with karst structures on riverine biogeochemical cycles and environmental quality in the karst region

Li, S.-L.;Xu, S.;Wang, T.-J.;Yue, F.-J.;Peng, T.;Zhong, J.;Wang, L.-C.;Chen, J.-A.;Wang, S.-J.;Chen, X.;Liu, C.-Q.

Agriculture, Ecosystems and Environment.doi:10.1016/j.agee.2020.107120

17.Spatial scale effects of the variable relationships between landscape pattern and water quality: Example from an agricultural karst river basin, Southwestern China

Xu, S.;Li, S.-L.;Zhong, J.;Li, C.

Agriculture, Ecosystems and Environment.doi:10.1016/j.agee.2020.106999

18.Coupled controls of climate, lithology and land use on dissolved trace elements in a karst river system

Xu, S.;Lang, Y.;Zhong, J.;Xiao, M.;Ding, H.

Journal of Hydrology,doi:10.1016/j.jhydrol.2020.125328

19.Rainfall and conduit drainage combine to accelerate nitrate loss from a karst agroecosystem: Insights from stable isotope tracing and high-frequency nitrate sensing

Yue, F.-J.;Li, S.-L.;Waldron, S.;Wang, Z.-J.;Oliver, D.M.;Chen, X.;Liu, C.-Q.

Water Research,doi:10.1016/j.watres.2020.116388

20.Solute Production and Transport Processes in Chinese Monsoonal Rivers: Implications for Global Climate Change

Zhong, J.;Li, S.L.;Ibarra, D.E.;Ding, H.;Liu, C.Q.

Global Biogeochemical Cycles,doi:10.1029/2020gb006541

21.Carbon biogeochemical processes in a subtropical karst river-reservoir system

Wang, W.;Yi, Y.;Zhong, J.;Kumar, A.;Li, S.-L.

Journal of Hydrology,doi:10.1016/j.jhydrol.2020.125590

22.Atmospheric nitrogen deposition and its responses to anthropogenic emissions in a global hotspot region

Cong-He Zhang;Hao-Ran Guo;Hao Huang;Tian-Yi Ma;Wei Song;Chong-Juan Chen;Xue-Yan Liu*.

Atmospheric Research,https://doi.org/10.1016/j.atmosres.2020.105137

23.A novel magnesium-based oxygen releasing compound for eutrophic water remediation

Zhipeng Li;Peizhe Sun;Ruochun Zhang;Yanwen Yang

Chemosphere,doi:10.1016/j.chemosphere.2020.126326

24.Atmospheric nitrogen deposition and its responses to anthropogenic emissions in a global hotspot region

Cong-He Zhang;Hao-Ran Guo;Hao Huang;Tian-Yi Ma;Wei Song;Chong-Juan Chen;Xue-Yan Liu.

Atmospheric Research,https://doi.org/10.1016/j.atmosres.2020.105137

25.Chemical Characteristics of Major Inorganic Ions in PM2.5 Based on Year-Long Observations in Guiyang, Southwest China—Implications for Formation Pathways and the Influences of Regional Transport

Hao Xiao;Hua-yun Xiao;Zhong-yi Zhang;Neng-jian Zheng;Qin-kai Li;Xiao-dong Li

Atmosphere,https://doi.org/10.3390/atmos11080847

26.Source apportionment of mercury in surface soils near the Wuda coal fire area in Inner Mongolia, China

Fei Cao;Mei Meng*;Bing Shan;Ruoyu Sun*.

Chemosphere,doi:10.1016/j.chemosphere.2020.128348

27.Molecular characterization of firework-related urban aerosols using Fourier transform ion cyclotron resonance mass spectrometry

Xie, Qiaorong;Su, Sihui;Chen, Shuang;Xu, Yisheng;Cao, Dong;Chen, Jing;Ren, Lujie;Yue, Siyao;Zhao, Wanyu;Sun, Yele;Wang, Zifa;Tong, Haijie;Su, Hang;Cheng, Yafang;Kawamura, Kimitaka;Jiang, Guibin;Liu, Cong-Qiang;Fu, Pingqing

Atomspheric Chemistry and Physics,doi:10.5194/acp-20-6803-2020

28.Vertical distribution of particle-phase dicarboxylic acids, oxoacids and alpha-dicarbonyls in the urban boundary layer based on the 325m tower in Beijing

Zhao, Wanyu;Ren, Hong;Kawamura, Kimitaka;Du, Huiyun;Chen, Xueshun;Yue, Siyao;Xie, Qiaorong;Wei, Lianfang;Li, Ping;Zeng, Xin;Kong, Shaofei;Sun, Yele;Wang, Zifa;Fu, Pingqing

Atomspheric Chemistry and Physics,doi:10.5194/acp-20-10331-2020

29.Increase of High Molecular Weight Organosulfate With Intensifying Urban Air Pollution in the Megacity Beijing

Xie, Qiaorong;Li, Ying;Yue, Siyao;Su, Sihui;Cao, Dong;Xu, Yisheng;Chen, Jing;Tong, Haijie;Su, Hang;Cheng, Yafang;Zhao, Wanyu;Hu, Wei;Wang, Zhe;Yang, Ting;Pan, Xiaole;Sun, Yele;Wang, Zifa;Liu, Cong-Qiang;Kawamura, Kimitaka;Jiang, Guibin;Shiraiwa, Manabu;Fu, Pingqing

Journal of Geophysical ReSearch-Atmospheres,doi:10.1029/2019JD032200

30.Systematic search for repeating earthquakes along the Haiyuan fault system in Northeastern Tibet

Deng, Y.;Peng, Z.;Liu-Zeng, J.

Journal of Geophysical Research.doi:10.1029/2020JB019583

31.Seasonal Variation of Mercury and Its Isotopes in Atmospheric Particles at the Coastal Zhongshan Station, Eastern Antarctica

Li, C.;Chen, J.;Angot, H.;Zheng, W.;Shi, G.;Ding, M.;Du, Z.;Zhang, Q.;Ma, X.;Kang, S.;Xiao, C.;Ren, J.;Qin, D.

Environmental Science & Technology,doi:10.1021/acs.est.0c04462

32.Rainfall partitioning and associated nitrate and sulfate fluxes along a slope gradient in a subtropical broadleaved forest

Xiaoqiang Lu;Yan Liu;Li Liu;Zhao Zhang;Feilong Hu;Xueyan Liu;Xinchao Sun*

Journal of Hydrology,doi:10.1016/j.jhydrol.2020.125584

33.Soil organic and inorganic carbon sequestration by consecutive biochar application: Results from a decade field experiment

Siwei Shi;Qingzhong Zhang;Yilai Lou;Zhangliu Du;Qian Wang;Ning Hu;Yidong Wang;Anna Gunina;Jiqing Song