发表文章：

https://www.researchgate.net/profile/Yanluan-Lin/research

1)Cao, Dianbin;Chen, Xuelong;Zhang, Qiang;Lin, Yanluan;Zhang, Qinghong;Ma, Yaoming，Causes of an extremely low visibility event in Northeast China， Meteorological Applications，出版年：2024，卷：31，期：2，WOS入藏号：WOS:001201686800001

2)Shan et al. How does globally accumulated tropical cyclone energy vary in response to a changing climate? Science Bulletin, 2024.

3)Chen, Y., Chu, W., Wright, J. S., & Lin, Y. (2024). Wave‐convection interactions amplify convective parameterization biases in the South Pacific ConvergenceZone. Journal of Advances in Modeling Earth Systems, 16, e2024MS004334.

4)李晓涵，林岩銮，张祎，彭新东. 2024. 双羽对流参数化方案在 CIESM 模式中的应用及对模拟气候的影响. 气象学报，82（6）：761-773

5)Wenhao Dong, Yanluan Lin，Observed Scaling of Precipitation Extremes With Surface Temperature and Convective Available Potential Energy. Book chapter in CLOUDS AND THEIR CLIMATIC IMPACTS, AGU

6)Sun, Yuan; Feng, Zhihao; Zhong, Wei; Zhai, Panmao; Lin, Yanluan; Lyu, Shuo，Uptrend of the Western North Pacific Tropical Cyclone Outflow Height during 1959-2021， JOURNAL OF METEOROLOGICAL RESEARCH出版年：2024，卷：38，期：2，页码：339-350

7)Zhang, Yang et al. Correction to: Near-global summer circulation response to the spring surface temperature anomaly in Tibetan Plateau –– the GEWEX/LS4P first phase experiment Climate Dynamics, (2024), 62, 4, (2907-2924), 10.1007/s00382-024-07210-5)，

8)Qin, Yi;Tang, Qi;Xue, Yongkang;Liu, Ye;Lin, Yanluan，Improved subseasonal-to-seasonal precipitation prediction of climate models with nudging approach for better initialization of Tibetan Plateau-Rocky Mountain Circumglobal wave train and land surface conditions， Climate Dynamics出版年：2024，卷：62，期：4，页码：2645-2657，

9)Zhang, Yang et al. Near-global summer circulation response to the spring surface temperature anomaly in Tibetan Plateau -- the GEWEX/LS4P first phase experiment，CLIMATE DYNAMICS，出版年：2024，卷：62，期：4，页码：2907-2924，

10)Liyuan Weng；Ping Liang；Yanluan Lin, Boreal summer intraseasonal oscillation-related precipitation in eastern China modulated by Pacific sea surface temperature Environmental Research: Climate，出版年：2024

11)Zhang, Tianyu; Letu, Husi; Dai, Tie; Shi, Chong; Lei, Yonghui; Peng, Yiran; Lin, Yanluan; Chen, Liangfu; Shi, Jiancheng; Tian, Wei; Shi, Guangyu，Estimating hourly surface shortwave radiation over northeast of the Tibetan Plateau by assimilating Himawari-8 cloud optical thickness， GEOSCIENCE LETTERS，出版年：2024，卷：11，期：1，

12)Liu, Jiarui;Yang, Kun;Zhao, Dingchi;Wu, Peili;Wang, Jiamin;Zhou, Xu;Lin, Yanluan;Lu, Hui;Jiang, Yaozhi;Shi, Jiancheng，Cloud Radiative Feedback to the Large-Scale Atmospheric Circulation Greatly Reduces Monsoon-Season Wet Bias Over the Tibetan Plateau in Climate Modeling， Geophysical Research Letters，出版年：2024，卷：51，期：14，

13)Zhang, Yalan;Han, Kaifeng;Sun, Yuan;Lin, Yanluan;Zhai, Panmao;Guo, Xinwen;Zhong, Wei，Impact of ocean mixed layer depth on tropical cyclone characteristics: a numerical investigation， Frontiers in Marine Science，出版年：2024，卷：11，

14)黄小猛;林岩銮;熊巍;李佳皓;潘建成;周勇，数值预报AI气象大模型国际发展动态研究，大气科学学报，出版年：2024，卷：47，期：01，页码：46-54

15)Yufeng Zhou; Yanluan Lin*, A Toy Model for the Global Annual Number of Tropical Cyclones Earth’s future，出版年：2024

16)Ruizi Shi et al. (2023) Decreasing trend of tropical cyclone-induced ocean warming in recent decades Environ. Res. Lett. 18, 064013

17)Zhao, D., Lin, Y.*, Dong, W., Qin, Y., Chu,W., Yang, K., et al. (2023). Alleviated WRF summer wet bias over the Tibetan Plateau using a new cloud macrophysics scheme. Journal of Advances in Modeling Earth Systems, 15, e2023MS003616.

18)X. Huang, P. Lu, B. Zhang, Y. Lin and X. Huang, "Transformer Aided Construction of a Long-term Tropical Cyclone Concentric Eyewalls Dataset," in IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, doi: 10.1109/JSTARS.2023.3281727.

19)Shan, K., Lin, Y., Chu, PS. et al. Seasonal advance of intense tropical cyclones in a warming climate. Nature (2023). https://doi.org/10.1038/s41586-023-06544-0

20)林岩銮, 俞永强, 陈春刚, 等. 2023. 国家自然科学基金大气科学学科二级申请代码下设研究方向与关键词解读：D0512地球系统模式发展[J]. 大气科学, 47(1): 203−211 doi: 10.3878/j.issn.1006-9895.2301.22312 

21)Ma, Z., Lin, Y., Fei, J. et al. Strengthening cold wakes lead to decreasing trend of tropical cyclone rainfall rates relative to background environmental rainfall rates. npj Clim Atmos Sci 6, 131 (2023). https://doi.org/10.1038/s41612-023-00460-w

22)Jing Sun, Kun Yang, Yan Yu, Hui Lu, and Yanluan Lin, Land–Atmosphere Interactions Partially Offset the Accelerated Tibetan Plateau Water Cycle through Dynamical Processes. J. Climate, 2023.

23)He Y., et al. Constraint of air-sea interaction significant to skillful predictions of North Pacific climate variations. Journal of Climate DOI: 10.1175/JCLI-D-22-0635.1，2023

24)Feng, Z.; Lv, S.; Sun, Y.; Feng, X.; Zhai, P.; Lin, Y.; Shen, Y.; Zhong, W. Skillful Seasonal Prediction of Typhoon Track Density Using Deep Learning. Remote Sens. 2023, 15, 1797.

25)Chu, W., & Lin, Y.* (2023). Description and evaluation of a new deep convective cloud model considering in-cloud inhomogeneity. Journal of Advances in Modeling Earth Systems, 15, e2022MS003119. https://doi.org/10.1029/2022MS003119

26)Dongze Xu, Dianbin Cao, Yanluan Lin*(2023)，The change of Southern Hemisphere extratropical cyclone precipitation characteristics in SSP5‑8.5 scenario in CMIP6. Climate Dynamics, https://doi.org/10.1007/s00382-023-06686-x models

27)Wei, W; Peng, XD; (...); Long, JC (2022), Extension and Evaluation of University of Washington Moist Turbulence Scheme to Gray-Zone Scale, Journal Of Advances In Modeling Earth Systems,14 (8)

28)Danyang Wang and Yanluan Lin*, D. Chavas (2022), Tropical Cyclone Potential Size, J. Atmos. Sci.,

29)Zhao, DC; Dong, WH; (...); Cao, DB, Diurnal Variation of Precipitation over the High Mountain Asia: Spatial Distribution and Its Seasonality. Journal Of Hydrometeorology, 23 (12), pp.1945-1959

30)Zhang, J., and Lin, Y.* (2022). An energetic diagnostic of tropical cyclone size in f-plane simulations. Journal of Advances in Modeling Earth Systems, 14, e2022MS003109. https://doi.org/10.1029/2022MS003109

31)Li, X., Zhang, Y., Peng, X., Chu, W., Lin, Y., & Li, J. (2022). Improved climate simulation by using a double-plume convection scheme in a global model. Journal of Geophysical Research: Atmospheres, 127, e2021JD036069.

32)Li, X. H., Y. Zhang, Y. L. Lin, X. D. Peng, B. Q. Zhou, P. M. Zhai, and J. Li 2023: Impact of Revised Trigger and Closure of the Double-Plume Convective Parameterization on Precipitation Simulations over East Asia, Adv. Atmos. Sci., 40, 1225-1243. doi: 10.1007/s00376-022-2225-9.

33)Xue, YK; Diallo, I; (...); Yu, M, 2022: Spring Land Temperature in Tibetan Plateau and Global-Scale Summer Precipitation: Initialization and Improved Prediction. Bulletin Of The American Meteorological Society,103 (12) , pp.E2756-E2767

34)Zhang, XY; Xu, FH; (...); Lin, YL,2022: Decrease of Annually Accumulated Tropical Cyclone-Induced Sea Surface Cooling and Diapycnal Mixing in Recent Decades, Geophysical Research Letters,49 (13)

35)Li, M; Letu, H; (...); Shi, JC, 2022: Investigation of ice cloud modeling capabilities for the irregularly shaped Voronoi ice scattering models in climate simulations. Atmospheric Chemistry And Physics, 22 (7) , pp.4809-4825

36)Liu, JJ; Zhao, CF; (...); Peng, YR,2022: Potential Impacts of Aerosol on Diurnal Variation of Precipitation in Autumn Over the Sichuan Basin, China. Journal Of Geophysical Research-Atmospheres,127 (13)

37)Zhao Dingchi, Yanluan Lin*, Yuanlong Li, Xiaoyu Gao, An extreme heat event induced by Typhoon Lekima (2019) and its contributing factors，Journal of Geophysical Research – Atmospheres, https://doi.org/10.1029/2021JD034760

38)Hu Yang, Yi Deng, Yanluan Lin, et al. Indirect effect of diabatic heating on Mei yu frontogenesis, Climate dynamics, DOI: 10.1007/s00382-022-06159-7

39)Gao, X., Luo, Y., Lin, Y., & Bao, X. (2022). A source of WRF simulation error for the early-summer warm-sector heavy rainfall over South China coast: Landsea thermal contrast in the boundary layer. Journal of Geophysical Research Atmospheres, 127, e2021JD035179. https://doi.org/10.1029/2021JD035179

40)Liao, C., Chen, Y., Wang, J., Liang, Y., Huang, Y., Lin, Z., Lu, X., Huang, Y., Tao, F., Lombardozzi, D., Arneth, A., Goll, D.S., Jain, A., Sitch, S., Lin, Y., Xue, W., Huang, X., Luo, Y. Disentangling land model uncertainty via Matrix-based Ensemble Model Inter-comparison Platform (MEMIP) (2022) Ecological Processes, 11 (1),DOI: 10.1186/s13717-021-00356-8

41)Chu, W., Lin, Y. *, Zhao, M. Implementation and Evaluation of a Double-Plume Convective Parameterization in NCAR CAM5(2022) Journal of Climate, 35 (2), pp. 617-637.

42)Zhao, X., Lin, Y. *, Luo, Y., Qian, Q., Liu, X., Liu, X., Colle, B.A. A Double-Moment SBU-YLIN Cloud Microphysics Scheme and Its Impact on a Squall Line Simulation (2021) Journal of Advances in Modeling Earth Systems, 13 (11), e2021MS002545, .

43)Gao, X.-Y., Lin, Y.-L., Yue, J. Enkf assimilation of satellite-retrieved cloud water path to improve tropical cyclone rainfall forecast (2021) Journal of Tropical Meteorology, 27 (3), (2021)03-0201-17, pp. 201-217.

44)Xue et al. (2021) Impact of Initialized Land Surface Temperature and Snowpack on Subseasonal to Seasonal Prediction Project, Phase i (LS4P-I): Organization and experimental design (2021) Geoscientific Model Development, 14 (7), pp. 4465-4494.

45)Cao D. B., et al. A dynamical pathway bridging African biomass burning and Asian summer monsoon, Climate dynamics, DOI: 10.1007/s00382-021-05788-8

46)Li J., et al. (2021) Evaluation of a Flexible Single Ice Microphysics and a Gaussian Probability-Density-Function Macrophysics Scheme in a Single Column Model, Atmosphere. 12(5):638, DOI: 10.3390/atmos12050638

47)Xu Dongze, Yanluan Lin*, Impacts of Irrigation and Vegetation Growth on Summer Rainfall in the Taklimakan Desert, AAS, in press.

48)Li M., et al. Assessment of ice cloud modeling capabilities for the irregularly shaped Voronoi models in climate simulations with CAM5, GMD, in revision.

49)Jishi Zhang, Yanluan Lin*, Zhanhong Ma*, Footprint of Tropical Cyclone Cold Wakes on Top-of-atmosphere Radiation, GRL, in press.

50)Jishi Zhang, Yanluan Lin*, Ming Zhao, Nonnegligible Radiative Cooling Effect of Tropical Cyclones on the Tropical Climate, submitted.

51)Wenhao Dong, Yanluan Lin*, Observed Scaling of Precipitation Extremes with Surface Temperature and Convective Available Potential Energy, AGU book chapter, in press.

52)Hao, M., Lin, Y., Luo, Y., Nath, R., Zhao, Z. (2021) The impact of atmospheric moisture transport on winter Arctic warming: Radiation versus latent heat release. International Journal of Climatology, https://doi.org/10.1002/joc.7054

53)Yuqing Wang, Yuanlong Li; Jing Xu; Zhe-Min Tan; Yanluan Lin (2021)，The Intensity-dependence of Tropical Cyclone Intensification Rate in a Simplified Energetically Based Dynamical System Model, Journal of the Atmospheric Sciences, DOI: 10.1175/JAS-D-200393.1

54)Yuanlong Li, Yuqing Wang*, Yanluan Lin, Xin Wang (2021). Why does rapid contraction of the radius of maximum wind precede rapid intensification in tropical cyclones? Journal of the Atmospheric Sciences, in press.

55)Hu, Y., Deng, Y., Lin, Y. et al. (2021), Dynamics of the spatiotemporal morphology of Mei-yu fronts: an initial survey. Clim Dyn. https://doi.org/10.1007/s00382-020-05619-2

56)Shi, P., Lu, H., Leung, L. R., He, Y.,Wang, B., Yang, K., et al. (2021).

i.Significant land contributions to interannual predictability of East Asian

ii.summer monsoon rainfall. Earth's Future, 9, e2020EF001762. https://doi.org/10.1029/2020EF001762

2016-2017 Best teaching and mentoring award of Tsinghua University, only 12 in Tsinghua University

2012 Thousand Youth Talents Award, Chinese government

基金委重点项目： 热带气旋结构和大小的理论探索：大气热机和旋转Rayleigh-Benard对流 ， 2022.01- 2026.12

基金委面上项目：台风数目和尺度的气候影响因子：旋转辐射对流平衡模拟， 2020.01-2023.12

基金委面上项目：气候模式海洋低云模拟问题分析和改进，2018.01-2021.12