部分学术论文 共114篇
Liu X.J.*, Xu W., Du E.Z., et al., 2020. Environmental impacts of nitrogen emissions in China and the roles of policies in emission reduction. Phil. Trans. R. Soc. A, 20190324. (http://dx.doi.org/10.1098/rsta.2019.0324).
Liu X.J.#,*, Xu W. #, Sha Z.P., Zhang Y.Y., Wen Z., Wang J.X., Zhang F.S., Keith Goulding, 2020. A green eco-environment for sustainable development: framework and action. Front. Agr. Sci. Eng. 7(1): 67-74.
Chang Y.H., Huang R.J., Ge X.L., Huang X.P., Zou Z., Liu X.J., Lehmann M., 2020. Puzzling haze events during China's coronavirus (COVID-19) shutdown. Geophysical Research Letters 47, e2020GL088533. (http://dx.doi.org/10.1029/2020GL088533).
Dong Y.J., Yuan J., Zhang G.B., Ma J., Hilario P., Liu X.J., Lu S.H.*, 2020. Optimization of nitrogen fertilizer rate under integrated rice management in ahilly area of Southwest China. Pedosphere 30(6): 759-768.
Dong Y.J., Zeng F.W., Yuan J., Zhang G.B., Chen Y.X., Liu X.J., Hilario P., Ren T.S., Lu S.H.*, 2020. Integrated rice management simultaneously improves rice yield and nitrogen use efficiency in various paddy fields. Pedosphere, 30(6): 863-873.
Fu Y.D., Xu W.*, Wen Z., Han M.J., Sun J.H., Tang A.H., Liu X.J.*, 2020. Enhanced atmospheric nitrogen deposition at a rural site in northwest China from 2011 to 2018. Atmospheric Research, 245:105071.
Hao T.X., Zhu Q.C., Zeng M.F., Shen J.B., Shi X.J., Liu X.J.*, Zhang F.S., De Vries W., 2020. Impacts of nitrogen fertilizer type and application rate on soil acidification rate under a wheat-maize double cropping system. Journal of Environmental Management 270: 110888.
Li K.H.*, Liu X.J., Hu Y.K., Mohammat A., Geng F.Z., Han W.X., 2020. Long-term increasing productivity of high-elevation grassland caused by elevated precipitation and temperature. Rangeland Ecology and Management 3: 156-161.
Li T.Y., Zhang W.F., Cao H.B., Ying H.,Zhang Q.S., Ren S.Y., Liu Z.T., Yin Y.L., Qin W., Cui Z.L., Liu X.J., Ju X.T., Oenema O., De Vries W., Zhang F.S., 2020. Region-specific nitrogen management indexes for sustainable cereal production in China. Environmental Research Communications, accepted 29 June 2020 (Article reference: ERC-100316.R1).
Liu L., Zhang X.Y., Xu W., Liu X.J., Li Y., Wei J., Gao M., Bi J., Lu X.H., Wang Z., Wu X.D., 2020. Challenges for global sustainable nitrogen management in agricultural systems. J. Agric. Food Chem., 68(11): 3354–3361.
Liu L., Zhang X.Y., Xu W., Liu X.J., Zhang Y., Li Y., Wei J., Lu X.H., Wang S.Q., Zhang W.T., Zhao L.M., Wang Z., Wu X.D., 2020. Fall of oxidized while rise of reduced reactive nitrogen deposition in China. J. Clean. Prod. 272: 122875.
Luo X.S., Liu X.J.*, Pan Y.P., Wen Z., Xu W., Zhang L., Kou C.L.*, Goulding K., 2020. Atmospheric reactive nitrogen concentration and deposition trends from 2011-2018 at an urban site in north China. Atmospheric Environment 224: 117298.
Pan Y.P., Tian S.L., Wu D.M., Xu W., Zhu X.Y., Liu C.Y., Li D.J., Fang Y.T., Duan L., Liu X.J., Wang Y.S., 2020. Ammonia should be considered in field experiments mimicking nitrogen deposition. Atmospheric and Oceanic Science Letters, https://doi.org/10.1080/16742834.2020.1733919.
Sha Z.P., Ma X., Wang J.X., Lv T.T., Li Q.Q., Misselbrook T., Liu X.J.*, 2020. Effect of N stabilizer on fertilizer-N fate in soil-crop system: A meta-analysis. Agric Ecosyst. Environ. 290:106763.
Sha Z.P., Ma X., Loick N., Lv T.T., Cardenas L.M., Ma Y., Liu X.J.*, Misselbrook T., 2020. Nitrogen stabilizers mitigate reactive N and greenhouse gas emissions from an arable soil in North China Plain: Field and laboratory investigation. J. Clean. Prod. 258:121025.
Sha Z.P., Tiantian Lv, Maarten Staal, Xin Ma, Zhang Wen, Qianqian Li, Gregor Pasda, Tom Misselbrook, Xuejun Liu*, 2020. Effect of combining urea fertilizer with P and K fertilizers on the efficacy of urease inhibitors under different storage conditions. Journal of Soils and Sediments 20: 2130-2140.
Shen J.B., Zhu Q.C., Jiao X.Q., Ying H., Wang H.L., Wen X., Xu W., Cong W.F., Liu X.J., Hou Y., Oenema O., Davies W.J., Zhang F.S., 2020. Agriculture Green Development: a model for China and the world. Frontiers of Agricultural Science and Engineering, 7(1): 5-13.
Tan Q.Q., Hao T.X., Gao S., Liu X.J., Wang G.A.*, Yu Q., 2020. Soil organic carbon turnover recovers faster than plant diversity in the grassland when high nitrogen addition is ceased: Derived from soil 14C evidences. Global Ecology and Conservation, https://doi.org/10.1016/j.gecco.2020.e01229.
Wen Z.#, Xu W. #, Li Q., Han M.J., Tang A.H., Zhang Y., Luo X.S., Shen J.L., Wang W., Li K.H., Pan Y.P., Zhang L., Li W.Q., Collett Jr J. L. Zhong B.Q., Wang X.M., Goulding K., Zhang F.S., Liu X.J.*, 2020. Changes of nitrogen deposition in China during 1980 and 2018. Environment International 144: 106022.
Xu W., Wen Z., Shang B., Dore A.J., Tang A.H., Xia X.P., Zheng A.H. Han M.J., Zhang L., Zhao Y.H., Zhang G.Z., Feng Z.Z.*, Liu X.J.*, Zhang F.S., 2020. Precipitation chemistry and atmospheric nitrogen deposition in rural Beijing, China. Atmos. Environ. 223: 117253.
Zhang K.P., Ni Y.Y., Liu X.J., Chu H.Y.*, 2020. Microbes changed their carbon use strategy to regulate the priming effect in an 11-year nitrogen addition experiment in grassland. Science of the Total Environment 727: 138645. doi: 10.1016/j.scitotenv.2020.138645.
Zhang Y., Liu X.J., You L.Z., Zhang F.S., 2020. Improving potential of nitrogen linked gray water footprint in China's intensive cropping systems. J. Clean. Prod., https://doi.org/10.1016/j.jclepro.2020.122307.
Zhang Y.Y., Benedict K., Tang A.H. Sun Y.L., Fang Y.T., Liu X.J.*, 2020. Persistent non-agricultural and periodic agricultural emissions dominate sources of ammonia in urban Beijing: Evidence from 15N stable isotope in vertical profiles. Environ. Sci. Technol. 54: 102-109.
Zhu Q.C., Liu X.J., Hao T.X., Zeng M.F., Shen J.B,, Zhang F.S., de Vries W., 2020. Cropland acidification increases risk of yield losses and food insecurity in China. Environ. Pollut. 256: 113145.
Chen S., Hao T.X., Goulding K., Misselbrook T., Liu X.J.*, 2019. Impact of 13-years of nitrogen addition on nitrous oxide and methane fluxes and ecosystem respiration in a temperate grassland. Environ. Pollut., 252: 675-681.
Cui X.Q., Yue P., Wu W.C., Gong Y.M., Li K.H., Tom Misselbrook, Goulding K., Liu X.J.*, 2019. The growth and N retention of two annual desert plants varied under different nitrogen deposition rates. Frontiers in Plant Science, 10: 356, DOI: 10.3389/fpls.2019.00356.
Fu Y.D., Wang W., Han M.J., Kuerban M., Wang C., Liu X.J.*, 2019. Atmospheric dry and bulk nitrogen deposition to forest environment in the North China Plain. Atmos. Pollut. Res. 10: 1636-1642.
Geng F.Z., Li K.H.*, Liu X.J.*, Gong Y.M., Yue P., Li Y.G., Han W.X., 2019. Nonlinear response of N2O emission to N deposition in an alpine grassland of central Asia. Catena, 182: 104100.
Hao T.X., Zhu Q.C., Zeng M.F., Shen J.B., Shi X.J., Liu X.J.*, Zhang F.S., Wim de Vries, 2019. Quantification of the contribution of nitrogen fertilization and crop harvesting to soil acidification in a wheat-maize double cropping system. Plant and Soil, 434: 167-184.
Lambers H., Yuan L.X., Liu X.J., 2019. Highlights of special issue on “Sustainable phosphorus use in agri-food system”. Front. Agr. Sci. Eng., 6(4): 311-312.
Lyu J.L., Buekert A., Benedict K.B., Liu G.J., Lv C.Y., Liu X.J.*, 2019. Comparison of nitrogen deposition across different land use types in agro-pastoral catchments of western China and Mongolia. Atmospheric Environment 199: 313-322.
Nino-Savala G.A., Zhuang Z., Ma X., Fangmeier A., Li H.F., Tang A.H., Liu X.J., 2019. Cadmium pollution from arable soils and crops: an overview. Front. Agr. Sci. Eng. 6(4): 419-430.
Peng Y.F., Wang, Li G.Q., Li F., Yang G.B., Fang K., Liu L., Qin S.Q., Zhang D.Y., Zhou G.Y., Fang H.J., Liu X.J., Liu C.Y., Yang Y.H.*, 2019. Unimodal response of soil methane consumption to increasing nitrogen additions. Environmental Science and Technology, 53(8): 4150-4160.
Roelcke M., Heimann L., Hou Y., Guo J.B., Xue Q.Y., Jia W., Ostermann A., Huaiwalla R.M., Engbers M., Olbrich C., Scholz R.W., Clemens J., Schuchardt F., Nieder R., Liu X.J., Zhang F.S., 2019. Phosphorus status, use and recycling in a Chinese peri-urban region with intensive animal husbandry and cropping systems. Front. Agr. Sci. Eng., 6(4): 388-402.
Sha Z.P., Li Q.Q., Lv T.T., Misselbrook T., Liu X.J.*, 2019. Response of ammonia volatilization to biochar addition: A meta-analysis. Science of the Total Environment, 655: 1387-1396.
Wang S., Yang M., Shi X.J., Liao S.P., Lu J.W., Sheng W.H., Guo S.W., Shen J.B., Zhang F.S., Goulding K., Liu X.J.*, 2019. Yield and the 15N fate in rice/maize season in the Yangtze River Basin. Agronomy Journal, 111(2): 517-527.
Wang S.#, Yang L.S.#, Su M.M., Ma Xin, Sun Y.C., Yang M., Zhao P.S., Shen J.B., Zhang F.S., Goulding K., Shi X.J.*, Liu X.J.*, 2019. Increasing the agricultural, environmental and economic benefits of farming based on suitable crop rotations and optimum fertilizer applications. Field Crops Research, 240: 78-85.
Wang W.#, Xu W.#, Collett Jr. J.L., Liu D.Y., Zheng A.H., Dore A.J., Liu X.J.*, 2019. Chemical compositions of fog and precipitation at Sejila Mountain in the southeast Tibetan Plateau, China. Environmental Pollution, 253: 560-568.
Wang W., Xu W., Wang W., Xu W., Wen Z., Wang D.D., Wang S., Zhang Z.W., Zhao Y.H., Liu X.J.*, 2019. Characteristics of atmospheric reactive nitrogen deposition in Nyingchi City. Scientific Reports, 4645. DOI: 10.1038/s41598-019-39855-2.
Xu W., Zhang L., Liu X.J.*, 2019. A database of atmospheric nitrogen concentration and deposition from a nationwide monitoring network in China. Scientific DATA, 6:51.
Xu W., Liu X.J.*, Liu L., Dore A.J., Tang A., Lu L., Wu Q., Zhang Y., Hao T., Pan Y., Chen J., Zhang F., 2019. Impact of emission controls on air quality in Beijing during APEC 2014: Implications from water-soluble ions and carbonaceous aerosol in PM2.5 and their precursors. Atmospheric Environment, 210: 241-252.
Vitousek P., Liu X.J.*, 2019. Comments on “Innovations of phosphorus sustainability: implications for the whole food chain”. Front. Agr. Sci. Eng. 6(4): 441-442.
Yu G.R.*, Jia Y.L., He N.P., Zhu J.X., Wang Q.F., Chen Z., Piao S.L., Liu X.J., Wen Z., He H.L., Guo X.B., Zhang W., Li P., Ding G.A., Goulding K., 2019. Stabilization of atmospheric nitrogen deposition in China over the past decade. Nature Geoscience, 12: 424-429.
Yue P., Cui X.Q., Gong Y.M., Li K.H., Keith Goulding, Liu X.J.*, 2019. Fluxes of N2O, CH4 and soil respiration as affected by water and nitrogen addition in a temperate desert. Geoderma, 337: 770-772.
Zhang K.P., Shi Y., Cui X.Q., Yue P., Li K.H., Liu X.J., Tripathi B., Chu H.Y.*, 2019. Salinity is a key determinant for soil microbial communities in desert ecosystem. mSystems, 4(1): e00225-18, doi: 10.1128/mSystems.00225-18.
Zhang Y.*, Liu C.M., Liu X.J., Xu W., Zhang W., 2019. Atmospheric nitrogen deposition around the Dongting Lake, China. Atmospheric Environment, 207: 197-204.
苏原, 罗艳, 耿凤展, 韩文轩, 朱玉梅, 李凯辉, 刘学军*, 2019. 天山高寒草原植物叶片氮磷化学计量特征对氮沉降的响应 [J]. 干旱区研究, 2019, 36(2): 430-436.
Hao T.X., Song L., Goulding K., Zhang F.S., Liu X.J.*, 2018. Cumulative and recoverable impacts of long-term nitrogen addition on a temperate steppe. Ecol. Appl., 28(1): 247-255.
Li T.Y.#, Zhang W.F.#, Yin J., Chadwick D., Norse D., Lu, Y.L., Liu X.J., Chen X.P., Zhang F.S., Powlson D., Dou Z.X.*, 2018. Enhanced-efficiency fertilizers are not a panacea for resolving the nitrogen problem. Global Change Biology, 24: e511-e521.
Liu D.Y., Su Y., Peng H.Q., Yan W.L., Li Y., Liu X.J., Zhu B., Wang H.L., Zhang, X.L., 2018. Size Distributions of Water-Soluble Inorganic Ions in Atmospheric Aerosols during the Meiyu Period on the North Shore of Taihu Lake, China. Aerosol and Air Quality Research 18(12): 2997-3008.
Liu M.X., Huang X., Song Y.*, Xu T.T., Wang S.X.*, Wu Z.J., Hu M., Zhang L., Zhang Q., Pan Y.P., Liu X.J., Zhu T., 2018. Rapid SO2 emission reductions significantly increase tropospheric ammonia concentrations over the North China Plain. Atmospheric Chemistry and Physics 18: 17933-17943.
Song L., Liu X.J., Skiba U., Zhu B.*, Zhang X.F., Liu M.Y., Twigg M., Shen J.L., Dore A., Reis S., Coyle M., Wen Z., Levy P., Fowler, 2018. Ambient concentrations and deposition rates of selected reactive nitrogen species and their contribution to PM2.5 aerosols at three locations with contrasting land use in southwest China. Environ. Pollut. 233: 1164-1176.
Tan Y.Y., Wang G.A.*, Liu X.J., Hao T.X., Tan W.B., 2018. Responses of soil organic carbon turnover to nitrogen deposition are associated with nitrogen input rates: Derived from soil 14C evidences. Environmental Pollution, 238: 500-507.
Wang M.R., Ma L., Maryna S., Ma W.Q., Liu X.J., Kroeze C., 2018. Hotspots for nitrogen and phosphorus losses from food production in China: a county-scale analysis. Environ. Sci. Technol., 52(10): 5782-5791.
Wang W. , Liu X.J., Xu J., Dore A.J., Xu W.*, 2018. Imbalanced nitrogen and phosphorus deposition in the urban and forest environments in southeast Tibet. Atmospheric Pollution Research, 9(4): 774-782.
Xu W.#, Zhao Y.H.#, Liu X.J.*, Dore A.J., Zhang L., Liu L., Cheng M.M., 2018. Atmospheric nitrogen deposition in the Yangtze River basin: Spatial pattern and source attribution. Environ. Pollut., 232: 546-555.
Xu W., Liu L., Cheng M.M., Zhao Y.H., Zhang L., Pan Y.P., Zhang X.M., Gu B.J., Li Y., Zhang X.Y., Shen J.L., Lu L., Luo X.S., Zhao Y., Feng Z.Z.*, Collett Jr. J.L., Zhang F.S., Liu X.J.*, 2018. Spatial–temporal patterns of inorganic nitrogen air concentrations and deposition in eastern China. Atmos. Chem. Phys., 18: 10931-10954.
Yue P., Cui X.Q., Gong Y.M., Li K.H., Goulding K., Liu X.J.*, 2018. Impact of elevated precipitation, nitrogen deposition and warming on soil respiration in a temperate desert. Biogeosciences, 15: 2007-2019.
Zhang X.Y., Zhang W.T., Lu X.H., Liu X.J., Chen D.M., Liu L., Huang X.J., 2018. Long-term trends in NO2 columns related to economic developments and air quality policies from 1997 to 2016 in China. Science of the Total Environment, 639: 146-155.
Zhang Y.Y., Tang A.H.*, Wang D.D., Wang Q.Q., Benedict K., Zhang L., Liu D.Y., Li Y., Collett Jr. J.L., Sun Y.L.*, Liu X.J.*, 2018. The vertical variability of ammonia in urban Beijing, China. Atmos. Chem. Phys., 18, 16385-16398.
Zhu Q.C., Wim de Vries, Liu X.J.*, Hao T.X., Zeng M.F., Shen J.B., Zhang F.S., 2018. Enhanced acidification in Chinese croplands as derived from element budgets in the period 1980-2010. Science of the Total Environment, 618: 1497-1505.
Zhu Q.C., Liu X.J., Hao T.X., Zeng M.F., Shen J.B., Zhang F.S.*, Wim de Vries*, 2018. Modeling soil acidification in typical Chinese cropping systems. Science of the Total Environment, 613/614: 1339 -1348.
Zhang L.*, Chen Y.F., Zhao Y.H., Henze D.K., Zhu L.Y., Song Y., Paulot F., Liu X.J., Pan Y.P., Lin Y., Huang B.X., 2018. Agricultural ammonia emissions in China: reconciling bottom-up and top-down estimates. Atmospheric Chemistry and Physics, 18: 339-355.
吕金岭, 刘骅, 王西和,李婷,寇长林,刘学军*,2018. 施肥处理对春季冻融期灰漠土农田温室气体排放的影响。土壤学报 55(1): 159-173.
王伟, 刘学军*,2018. 青藏高原氮沉降研究现状及草地生态系统响应研究进展。中国农业大学学报 23(5): 151-158.
吴文超,岳平,崔晓庆,李凯辉,刘学军*, 2018. 古尔班通古特沙漠土壤微生物碳氮对环境因子的响应。干旱区研究,35(3): 13-21.
许稳,刘学军*,孟令敏,郑鲲, 2018. 不同养殖阶段猪舍氨气和颗粒物污染特征及其动态。农业环境科学学报, 37(6): 1248-1254.
Liu X.J.*, Xu W., Duan L., Du E.Z., Pan Y.P., Lu X.K., Zhang L., Wu Z.Y., Wang X.M., Zhang Y., Shen J.L., Song L., Feng Z.Z., Liu X.Y., Song W., Tang A.H., Zhang Y.Y., Zhang X.Y., Collett Jr. J.L. Chang Y.H., 2017. Atmospheric nitrogen emission, deposition and air quality impacts in China: An overview. Current Pollution Reports, 3: 65-77.
Cui X.Q., Yue P., Gong Y.M., Li K.H., Tan D.Y., Goulding K., Liu X.J.*, 2017. Impacts of water and nitrogen addition on nitrogen recovery in Haloxylon ammodendron dominated desert ecosystems. Science of the Total Environment, 601-602: 1280-1288.
Li Q.Q., Cui X.Q., Liu X.J.*, Roelcke M., Pasda G., Zerulla W., Wissemeier A.H., Chen X.P., Zhang F.S., 2017. Role of a urease inhibitor Limus in decreasing ammonia volatilization and improving maize nitrogen utilization in North China Plain. Sci. Rep., 7: 43853
Liu D.Y.*, Liu X.J., Wang H.B., Li Y., Kang Z.M., Cao L., Yu X.N., Chen H., 2017. A new type of haze? The December 2015 purple (magenta) haze event in Nanjing, China. Atmosphere, 8: 76-85.
Liu L., Zhang X.Y.*, Xu W., Liu X.J., Li Y., Lu X.H., Zhang Y.H., Zhang W.T., 2017. Temporal characteristics of atmospheric ammonia and nitrogen dioxide over China based on emission data, satellite observations and atmospheric transport modeling since 1980. Atmos. Phys. Chem., 17: 9365-9378.
Liu L., Zhang X.Y.*, Zhang Y., Xu W., Liu X.J., Zhang X.M., Feng J.L., Chen X.R., Zhang Y.H., Lu X.H., Wang S.Q., Zhang W.T., Zhao L.M., 2017. Dry particulate nitrate deposition in China. Environmental Science and Technology, 51(10): 5572-5581.
Liu L., Zhang X.Y.*, Xu W., Liu X.J., Lu X.H., Wang S.Q., Zhang W.T., Zhao L.M., 2017. Ground ammonia concentrations over China derived from satellite and atmospheric transport modeling. Remote Sensing 9: 467.
Liu L., Zhang X.Y.*, Xu W., Liu X.J., Lu X.H., Chen D.M., Zhang X.M., Wang S.Q., Zhang W.T., 2017. Estimation of monthly bulk nitrate deposition in China based on satellite NO2 measurement by the Ozone Monitoring Instrument. Remote Sensing of Environment, 199: 93-106.
Lyu J.L., Liu H., Wang X.H., Tian C.Y., Liu X.J.*, 2017. Crop yields and soil organic carbon dynamics in a long-term fertilization experiment in an extremely arid region. Journal of Arid Land, 9: 345-354.
Pan Y.P.*, Liu Y.W., Wentworth G.R., Zhang L., Zhao Y.H., Li Y., Liu X.J., Du E.Z., Fang F.T., Xiao H.W., Ma H.Y., Wang Y.S., 2017. Letter to the Editor: Critical assessment of the current state of scientific knowledge, terminology, and research needs concerning the ecological effects of elevated atmospheric nitrogen deposition in China. Atmos. Environ., 153: 109-116.
Shi Z.H., Li J.Y., Huang L., Wang P., Wu L., Ying Q., Zhang H.L., Lu L., Liu X.J., Liao H., Hu J.L.*, 2017. Source apportionment of fine particulate matter in China in 2013 using a source-oriented chemical transport model. Science of the Total Environment, 601-602: 1476-1487. (SCI, IF5yr: 4.984, cited 19 times)
Gu S.Z., Jenkins A., Gao S.-J., Lu Y.L., Li H., Li Y.Y., Ferriere R.C., Bailey M., Wang Y.W., Zhang Y., Qi X.B., Lu L.L., Ding L.Q., Danielle T., Williams R., Hannaford J., Acreman M., Kirk S., Liu H.X., Liu Z.T., Luo L.G., Yan D.H., Liu X.J., Yu F., Wang D., Zhang B., Ding A.Z., Xie X.R., Liu J., Ma C., Jobson A., 2017. Ensuring water resource security in China; the need for advances in evidence-based policy to support sustainable management. Environ. Sci. Policy, 75: 65-69.
Song L., Kuang F.H. , Skiba U., Zhu B.*, Liu X.J., Levy P., Dore A., Fowler D., 2017. Bulk deposition of organic and inorganic nitrogen in southwest China from 2008 to 2013. Environ. Pollut., 227: 157-166. (SCI, IF=5.099)
Su M.M., Kuang F.H., Lv Y., Shi X.J., Liu X.J.*, Shen J.B., Zhang F.S., 2017. Nitrous oxide and methane emissions from paddy soils under different cropping systems receiving varying N inputs in southwest China. Geoderma Regional, 8: 1-11.
Xu W., Song W., Zhang Y.Y., Liu X.J.*, Zhang L., Zhao Y.H., Liu D.Y., Tang A.H., Yang D.W., Wang D.D., Wen Z., Pan Y.P., Fowler D., Collett J., Erisman J.W., Goulding K., Li Y., Zhang F.S., 2017. Air quality improvement in a megacity: Implications from 2015 Beijing parade blue pollution-control actions. Atmos. Chem. Phys., 17: 31-46, doi: 10.5194/acp-17-31-2017.
Zeng, M., De Vries, W., Bonten, L.T.C., Zhu, Q., Hao, T., Liu, X., Xu, M., Shi, X., Zhang, F., Shen, J.*, 2017. Model-based analysis of the long-term effects of fertilization management on cropland soil acidification. Environ. Sci. Technol. 51: 3843-3851. (SCI, IF=6.96)
Zhan X.Y., Zhou F.*, Liu X.J., Paerl H., Shen J.L., Wang R., Tao S., Li F.R., Bo Y., Dong Y.J., Tang X.Y., 2017. Evidence for the importance of atmospheric nitrogen deposition to eutrophic lake Dianchi, China. Environ. Sci. Technol., 51(12): 6699-6708.
Zhang X.M., Wu Y.Y., Liu X.J., Reis S., Jin J.X., Dragosits D., Van Damme M., Clarisse L., Whitburn S., Coheur P.-F., Gu B.J., 2017. Ammonia emissions may be substantially underestimated in China. Environmental Science and Technology 51(21): 12089-12096.
Zhang X.Y., Lu X.H.*, Liu L., Chen D.M., Zhang X.M., Liu X.J., Zhang Y., 2017. Dry deposition of NO2 over China inferred from OMI columnar NO2 and atmospheric chemistry transport model. Atmospheric Environment, 169: 238-249. (SCI, IF=3.948)
Zhang Y.B.#, Xu W.#, Wen Z., Chen S., Xu W., Tang A.H., Liu X.J.*, 2017. Atmospheric deposition of inorganic nitrogen in a semi-arid region of Inner Mongolia. Journal of Arid Land, 9(6): 810-822.
Zhang Y.Y., Wei J.M., Tang A.H.*, Zheng A.H., Liu X.J., 2017. Chemical characteristics of PM2.5 during 2015 Spring Festival in Beijing, China. Aerosol and Air Quality Research, 17: 1169-1180. (SCI, IF=2.754)
Zhao Y.H., Zhang L.*, Chen Y.F., Liu X.J., Xu W., Pan Y.P., Duan L., 2017. Atmospheric nitrogen deposition to China: A model analysis on nitrogen budget and critical load exceedance. Atmos. Environ., 153: 32-40.
许稳、金鑫、罗少辉、冯兆忠、张霖、潘月鹏、刘学军*,2017. 西宁近郊大气氮干湿沉降研究. 环境科学 38(4): 1279-1288.
田世丽、刘学军、潘月鹏*、周焱博、许稳、王跃思,2017. 应用扩散管测量霾污染期间大气氮硫化合物浓度的方法. 环境科学 27(9): 3605-3609.
尹兴、张丽娟、刘新、刘学军、许稳、倪丽,2017. 河北平原城郊农田氮素沉降研究。中国农业科学,50(4): 698-710.
王雪君, 高志岭, 刘学军, 张楠, 张金瑞, 2017. 养殖场、农田和道路大气PM2.5中金属元素的污染特征分析. 河北农业大学学报, (5): 18-24.
Liu X.J.*, Xu W., Du E.Z., Pan Y.P., Goulding K., 2016. Reduced nitrogen dominated nitrogen deposition in the US, but its contribution to nitrogen deposition in China decreased. PNAS, 113 (26): E3590-E3591, doi: 10.1073/pnas.1607507113.
Liu X.J.*, Vitousek P., Chang Y.H., Zhang W.F., Matson P., Zhang F.S., 2016. Evidence for a historic change occurring in China. Environ. Sci. & Technol., 50(2): 505-506.
Yue P., Li K.H.*, Gong Y.M., Hu Y.K., Mohammat A., Christie P., Liu X.J.*, 2016. A five-year study of the impact of nitrogen addition on methane uptake in alpine grassland. Scientific Reports 6: 32064.
Zhu Q.C., de Vries W., Liu X.J.*, Zeng M.F., Hao T.X., Enzai Du, Zhang F.S., Shen J.B., 2016. The contribution of atmospheric deposition and forest harvesting to forest soil acidification in China since 1980. Atmos. Environ. 146: 215-222.
Luo X.S., Pan Y.P., Goulding K., Zhang L., Liu X.J.*, Zhang F.S., 2016. Spatial and seasonal variations of atmospheric sulfur concentrations and dry deposition at 16 rural and suburban sites in China. Atmos. Environ. 146: 79-89.
Xu W., Wu Q.H., Liu X.J.*, Tang A.H., Dore A.J., Heal M.R., 2016. Characteristics of ammonia, acid gases and PM2.5 for three typical land use types in the North China Plain. Environmental Science and Pollution Research, 23: 1158-1172.
Xu W., Zheng K., Liu X.J.*, Hartung E., Roelcke M., Zhang F.S., 2016. Concentrations and emissions of particulate matter from fattening pig buildings at a large-scale pig farm in northern China. Aerosol and Air Quality Research, 16, 79-90.
Xu W., Li W.Q., Chen S.H., Yang D.W., Zhang Y.Y., Xue J., Liu X.J.*, 2016. Quantification of nitrogen dry and wet deposition in Fujian tobacco planting area. Acta Ecologica Sinica, 36: 424-432.
Liu J.Y., Zhang Y., Liu X.J.*, Tang A.H., Qiu H.S., Zhang F.S., 2016. Concentrations and isotopic characteristics of atmospheric reactive nitrogen around typical sources in Beijing, China. Journal of Arid Land, 8(6): 910-920.
Lv J.L., Wang X.H., Liu H., Li K.H., Liu X.J.*, 2016. Highly arid oasis yield, soil mineral N accumulation and N balance in a wheat-cotton rotation with drip irrigation and mulching film management. PloS ONE, 11(10): e0165404.
Chang Y.H., Liu X.J.*, Deng C.R.*, Dore A.J., Zhuang G.S., 2016. Source apportionment of atmospheric ammonia before, during, and after the 2014 APEC summit in Beijing using stable nitrogen isotope signatures. Atmos. Chem. Phys., 16(18): 11635-11647.
Kuang F.H., Liu X.J., Zhu B.*, Shen J.L., Pan Y.P., Su M.M., Goulding K., 2016. Wet and dry nitrogen deposition in China’s central Sichuan Basin. Atmospheric Environment, 143: 39-50.
Zeng J., Liu X.J., Song L., Lin X.G., Zhang H.Y., Shen C.C., Chu H.Y., 2016. Nitrogen fertilization directly affects soil bacterial diversity and indirectly affects bacterial community composition. Soil Biology and Biochemistry 92: 41-49.
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Du E.Z., Vries W. de, Han W.X., Liu X.J., Yan Z.B., Jiang Y., 2016. Imbalanced phosphorus and nitrogen deposition in China’s forests. Atmos. Chem. Phys., 16: 8571-8579.
Liang T., Tong Y.A., Xu W., Wei Y., Lin W., Pang Y., Liu F., Liu X.J., 2016. Atmospheric nitrogen deposition in the Loess area of China. Atmos. Pollut. Res. 7(3): 447-453.
Liang T., Tong Y.A., Liu X.J., Xu W., Luo X.S., Christie P., 2016. High nitrogen deposition in an agricultural ecosystem of Shaanxi, China. Environ. Sci. Pollut. Res., 23(13): 13210-13221.
刘平,刘学军,骆晓声,吴庆华,刘恩科,韩彦龙,李丽君,白光洁,武文丽,张强*,2016. 山西北部农村区域大气活性氮沉降特征. 生态学报 36(17): 5353-5359.
宿敏敏, 况福虹, 吕阳, 赵亚南, 傅先友, 李群英, 雷云飞,张福锁,石孝均,申建波,刘学军*, 2016. 不同轮作体系不同施氮量对甲烷排放比较研究. 植物营养与肥料学报, 22: 913-920.
王晓丽, 李凯辉, 宋韦, 阿德力•麦地, 刘学军*, 2016. 新疆天山北坡中段森林生态系统氮素干沉降. 干旱区研究, 33(4): 830-836。
杨道伟, 许稳, 唐傲寒, 鲁丽, 刘学军*, 2016. 中国东部地区无机氮湿沉降: 南-北不同类型监测点的比较. 应用生态学报,27(10): 3205-3212.
参编书著 共3册
1.Atmospheric Reactive Nitrogen in China: Emission, Deposition and Environmental Impacts. Springer Singapore, 2020, 主编 (Liu X.J. and Du E.Z.).
2. 土壤氮循环实验研究方法. 科学出版社, 2020, 参编.
3. 高产高效养分管理技术创新与应用. 中国农业大学出版社, 2017, 参编.
