代表论著
1. Wang L. L, H. Wang, J., Liu, Z., Gao, Y. Yang, Y., Zhang, Y., Li, and M., Huang, 2019: mpacts of the Near-Surface Urban Boundary Layer Structure on PM 2.5 Concentrations in Beijing during Winter. Sci. Total Environ., doi.org/10.1016/j.scitotenv.2019.03.097.
2. Wang L. L, J., Liu, Z., Gao, Y., Li, M., Huang, S., Fan, X., Zhang, Y., Yang, S., Miao, H., Zou, Y., Sun, Y., Chen and T., Yang, 2019: Observations of the atmospheric boundary layer structure over Beijing urban area during air pollution episodes., Atmos. Chem. Phys.,19, 6949-6967.
3. Changwei Liu, Yubin Li, Qinghua Yang*, Linlin Wang, Xianqiao Wang, Shimin Li and Zhiqiu Gao, 2019: On the surface fluxes characteristics and roughness lengths at Zhongshan station, Antarctica, International Journal of Digital Earth, 8, 878-892.
4. Liu Junkai, Chloe Y. Gao, Jingzhen Ren, Zhiqiu Gao*(高志球), Hanwei Liang, and Linlin Wang, 2018: Wind resource potential assessment using a long-term tower measurement approach: A case study of Beijing in China, Journal of Cleaner Production. 174(2018)917-926.
5. Gao, Z., B.Tong, R. Horton, A. Mamtimin, Y. Li, L. Wang, 2017: Determination of desert soil apparent thermal diffusivity using a conduction-convection algorithm, J. Geophys. Res. Atmos., 2017JD027290. In Press.
6. Liu C., Y. Li, Q. Yang, L. Wang, X. Wang, S. Li, Z. Gao, 2017: On the surface fluxes characteristics and roughness lengths at Zhongshan station, Antarctica. International Journal of Digital Earth , 1-15.
7. Liu J., Z. Gao, L. Wang, Y. Li, Y. Gao. 2017: The impact of urbanization on wind speed and surface aerodynamic characteristics in Beijing during 1991 – 2011, Meteorology and Atmospheric Physics. , 1-14.
8. Huang M., Z. Gao, S. Miao, F.Chen, M. A. LeMone, J.Li, F. Hu, L. Wang, 2017: Estimate of boundary-layer depths over Beijing, China, using Doppler lidar data during SURF-2015, Boundary-Layer Meteorology, 162:503-522.
9. Li D. T. Sun, M. Liu, L. Wang, and Z. Gao, 2016: changes in wind speed under heat waves enhance urban heat islands in Beijing metropolitan area, Journal of Applied Meteorology and Climatology, 2369-2375.
10. Tong B., Z. Gao, R. Horton, Y. Li, and L. Wang, 2016: An empirical model for estimating soil thermal conductivity from soil water content and porosity, Journal of Hydrometeorology, 601-613.
11. Wang L., Z. Gao , S. Miao , X. Guo, T. Sun, M. Liu , and D. Li, 2015:Contrasting Characteristics of the Surface Energy Balance between the Urban and Rural Areas of Beijing, Adv. Atmos. Sci., 32(4),505-514
12. Li D., T. Sun, M. Liu, L. Yang, L. Wang, Z. Gao, 2015: Contrasting responses of urban and rural surface energy budgets to heat waves explain synergies between urban heat islands and heat waves, Environmental Research Letters, 054009.
13. Chen, C., D. Li, Z. Gao, J. Tang, X. Guo, L. Wang, and B. Wan, 2015: Seasonal and interannual variation of carbon exchange over a rice–wheat rotation system on the North China Plain. Adv. Atmos Sci., 32(10), 1365-1380.
14. Wang L., D. Li, Z. Gao, T. Sun, X. Guo, and E. Bou-Zeid, 2014: Turbulent transport of momentum and scalars above an urban canopy, Bound.-Layer Meteor, 150(3), 485-511.
15. Wang L., X. Guo, and B. Wan, 2014: Characteristics of thermally-induced near-surface flows over an enclosed crater: Observations of the Meteor Crater Experiment (METCRAX), Atmos. Oceanic Sci. Lett., 7(2), 162-167
16. Y. Li, Z. Gao, D. Li, L. Wang, and H. Wang, 2014: An improved non-iterative surface layer flux scheme for atmospheric stable stratification condition, Geosci. Model Dev., 7, 515-529
17. Wang W., W. Xiao, C. Cao, Z. Gao, Z. Hu, S. Liu, S. Shen, L. Wang, Q. Xiao, J. Xu, D. Yang, and X. Lee, 2014: Temporal and spatial variations in radiation and energy balance across a large freshwater lake in China, J. Hydrol., 511, 811-824.
18. Wang L., Z. Gao, Z. Pan, X. Guo, and E. Bou-Zeid, 2013: Evaluation of Turbulent Surface Flux Parameterizations Over Tall Grass in a Beijing Suburb, Journal of Hydrometeorology, doi:10.1175/JHM-D-12-0103.1.
19. Wang L., D. Li, Z. Gao, T. Sun, X. Guo, and E. Bou-Zeid, 2013: Turbulent transport of momentum and scalars above an urban canopy, Boudary-Layer Meteorology, doi: 10.1007/s10546-013-9877-z.
20. Wang L., Z.Gao, R. Horton, D. H. Lenschow, K. Meng and D. B. Jaynes, 2012: An analytical solution to the one-dimensional heat conduction-convection equation in Soil, Soil Science Society of America Journal, 76, 1978-1986.
21. Gao, Z., L. Wang, X. Bi, Q. Song, and Y. Gao, 2012: A Simple Extension of "An alternative approach to sea surface aerodynamic roughness" by Zhiqiu Gao, Qing Wang, and Shouping Wang, J. Geophys. Res., 117, D117, D16110,doi:10.1029/2012JD017478.
22. Wang L., Z. Gao , and R. Horton, 2010: Comparison of six algorithms to determine the soil thermal diffusivity at a site in the Loess Plateau of China, Soil Science, 175, doi: 10.1097/SS.0b013e3181cdda3f.
23. Wang L., Z. Gao, X. Shen, W. Chen, 2008: Impact of the Soil Water Vertical Movement on the Soil Temperature in a Broomcorn Millet Field over the Loess Plateau. JournaL of Nanjing Institute of Meteorology, 31 (3) : 363-368
24. Dai C., Z. Gao, L. Wang, J. Fan, 2009: Inter-comparison between two soil temperature algorithms. Chinese Journal of Atmospheric Sciences., 33(1): 135-144
25. Gao Z., R. Horton, L. Wang, J. Wen, 2008: An Extension of the Force-Restore Method for Soil Temperature Prediction. European Journal of Soil Sicence, doi: 10.1111/j.1365-2389.2008.01060.x
26. Gao, Z., D. H. Lenschow, R. Horton, M. Zhou, L. Wang, and J. Wen, 2008: Comparison of Two Soil Temperature Algorithms for a Bare Ground Site on the Loess Plateau in China, J. Geophys. Res., doi:10.1029/2008JD010285
27. Wang X., L. Wang, Z. Gao, S. Miao, 2008: Measurements of Atmospheric Boundary Layer Over Beijing Area in Summer. Climatic and Environmental Research., 13(5):629-638
28. Gao Z. L. Bian, Y. Hu, L. Wang, and J. Fan, 2007: Determination of soil temperature in an arid region, Journal of Arid Environments. dio: 10.1016/j.jaridenv.2007.03.012