参考文献
==============

**2025:**

  Fu, Z., Y. Zhang, X. Li, C. Zhu, H. Liu, X. Rong, and C. li, (2025), Intercomparison of Two Model Climates Simulated by a Unified Weather-Climate Model System (GRIST), Part II: Madden-Julian Oscillation. Climate Dynamics.

  Zhou, Y., R. Yu, Y. Zhang, J. Li, and H. Chen, (2025), Sensitivity of a Kilometer-Scale Variable-Resolution Global Nonhydrostatic Model to Microphysics Schemes in Simulating a Mesoscale Convective System. Advances in Atmospheric Sciences.

  Duan Xiaohui, Yi Zhang, Kai Xu, Haohuan Fu, Bin Yang, Yiming Wang, Yilun Han, Siyuan Chen, Zhuangzhuang Zhou, Chenyu Wang, Dongqiang Huang, Huihai An, Xiting Ju, Haopeng Huang, Zhuang Liu, Wei Xue, Weiguo Liu, Bowen Yan, Jianye Hou, Maoxue Yu, Wenguang Chen, Jian Li, Zhao Jing, Hailong Liu, Lixin Wu, (2025), An AI-Enhanced 1km-Resolution Seamless Global Weather and Climate Model to Achieve Year-Scale Simulation Speed using 34 Million Cores. ACM PPoPP 2025, Main Conference.

  郜婕，容新尧，张祎，付振，林鹏飞. 2025. 基于ESMF/NUOPC耦合框架的GRIST-WW3气-浪耦合模式及其数值模拟初探. 气象学报.

  段晓辉等，人工智能增强的全球公里级分辨率气候模拟，2024CCF全国高性能计算学术年会. 大会论文集. 中国计算机学会. https://ccf.org.cn/hpcchina2024.

**2024:**
  
  Chen, S., Y. Zhang, Y. Wang, Z. Liu, X. Li, and W. Xue, (2024), Mixed-precision computing in the GRIST dynamical core for weather and climate modelling. Geosci. Model Dev., 17(16), 6301-6318.doi:10.5194/gmd-17-6301-2024.

  Zhang, Y., Liu, Z., Wang, Y. & Chen, S. (2024) Establishing a limited-area model based on a global model: A consistency study. Quarterly Journal of the Royal Meteorological Society, doi:https://doi.org/10.1002/qj.4804.

  Li, X., W. Chu, Y. Zhang, and Y. Wang, (2024), Extending a dry-environment convection parameterization to couple with moist turbulence and a baseline evaluation in the GRIST model. Quarterly Journal of the Royal Meteorological Society, doi:https://doi.org/10.1002/qj.4763.

  Fu, Z., Y. Zhang, X. Li, and X. Rong, (2024), Intercomparison of Two Model Climates Simulated by a Unified Weather-Climate Model System (GRIST), Part I: Mean State. Climate Dynamics.

  Yuan, C., H. Zhang, X. Jing, S. Zhao, and X. Li, 2024: Impact of a New Radiation Scheme on Simulated Climate in the Global–Regional Integrated SysTem Model under Varying Physical Parameterization Schemes. Atmosphere.

  Sun, W., J. Li, R. Yu, N. Li, and Y. Zhang, (2024), Exploring changes of precipitation extremes under climate change through global variable-resolution modeling. Science Bulletin, 69(2), 237-247. doi:https://doi.org/10.1016/j.scib.2023.11.013.

  陈湉茹, 张祎, 孙溦, 李妮娜, 刘鸿波, 徐幼平. 2024. 应用GRIST模式对“23·7”华北极端降水的模拟试验[J]. 暴雨灾害, 43(3): 276-287. DOI: 10.12406/byzh.2023-263.
  
  张萌, 李晓涵, 陈湉茹, 张祎. 2024: GRIST单柱模式及其在评估两套物理方案包中的应用. 气象学报. DOI: 10.11676/qxxb2024.20230152.

  王一鸣，张祎，李晓涵，刘壮，周逸辉. 2024. GRIST天气-气候一体化模式系统框架功能设计和应用[J]. 气象科技进展.

  王一鸣, 李晓涵, 张祎, 原韦华, 周逸辉, 李建. GRIST模式全球0.125度基线配置的中期降水预报性能分析[J]. 大气科学. DOI: 10.3878/j.issn.1006-9895.2309.22223.

**2023:**

  Li, X., Y. Zhang, X. Peng, B. Zhou, J. Li, and Y. Wang, (2023), Intercomparison of the weather and climate physics suites of a unified forecast–climate model system (GRIST-A22.7.28) based on single-column modeling. Geosci. Model Dev., 16(10), 2975-2993.doi:10.5194/gmd-16-2975-2023.

  Li, X., Y. Zhang, Y. Lin, X. Peng, B. Zhou, P. Zhai, and J. Li, (2023), Impact of Revised Trigger and Closure of the Double-Plume Convective Parameterization on Precipitation Simulations over East Asia. Advances in Atmospheric Sciences, 40(7), 1225-1243.doi:10.1007/s00376-022-2225-9.

  Zhou, Y., R. Yu, Y. Zhang, and J. Li, (2023), Dynamic and thermodynamic processes related to precipitation diurnal cycle simulated by GRIST. Climate Dynamics.doi:10.1007/s00382-023-06779-7.

  Chen, T., J. Li, Y. Zhang, H. Chen, P. Li, and H. Che, (2023), Evaluation of Hourly Precipitation Characteristics from a Global Reanalysis and Variable-Resolution Global Model over the Tibetan Plateau by Using a Satellite-Gauge Merged Rainfall Product. Remote Sensing, 15(4), 1013.

  Zhang, Y., J. Li, H. Zhang, X. Li, L. Dong, X. Rong, C. Zhao, X. Peng, and Y. Wang, 2023: History and Status of Atmospheric Dynamical Core Model Development in China. Numerical Weather Prediction: East Asian Perspectives, S. K. Park, Ed., Springer International Publishing, 3-36.

  陈苏阳，张祎，周逸辉，李晓涵，王一鸣，陈昊明. 2023. GRIST模式夏季气候回报试验中东亚降水季节内特征的评估. 气象学报，81（2）：269-285 doi:  10.11676/qxxb2023.20220120.

  李晓涵，张祎，林岩銮，彭新东，李建. 2023. 一套湿物理参数化方案在GRIST全球模式中的应用及其对模式气候的影响[J]. 气象学报. doi: 10.11676/qxxb2023.20230001.

**2022:**

  Li, J., and Y. Zhang, (2022), Enhancing the stability of a global model by using an adaptively implicit vertical moist transport scheme. Meteorology and Atmospheric Physics, 134(3), 55.doi:10.1007/s00703-022-00895-5.

  Li, X., Y. Zhang, X. Peng, W. Chu, Y. Lin, and J. Li, (2022), Improved Climate Simulation by Using a Double-Plume Convection Scheme in a Global Model. Journal of Geophysical Research: Atmospheres, 127(11), e2021JD036069.doi:https://doi.org/10.1029/2021JD036069.

  Zhang, Y., X. Li, Z. Liu, X. Rong, J. Li, Y. Zhou, and S. Chen, (2022), Resolution Sensitivity of the GRIST Nonhydrostatic Model From 120 to 5 km (3.75 km) During the DYAMOND Winter. Earth and Space Science, 9(9), e2022EA002401.doi:https://doi.org/10.1029/2022EA002401.

**2021:**

  Li, J., X. Peng, X. Li, Y. Lin, and W. Chu, 2021: Evaluation of a Flexible Single Ice Microphysics and a Gaussian Probability-Density-Function Macrophysics Scheme in a Single Column Model. Atmosphere.

  Zhang, Y., R. Yu, J. Li, X. Li, X. Rong, X. Peng, and Y. Zhou, (2021), AMIP Simulations of a Global Model for Unified Weather-Climate Forecast: Understanding Precipitation Characteristics and Sensitivity Over East Asia. Journal of Advances in Modeling Earth Systems, 13(11), e2021MS002592.doi:https://doi.org/10.1029/2021MS002592.

**2020 and before:**

  Zhang, Y., J. Li, R. Yu, Z. Liu, Y. Zhou, X. Li, and X. Huang, (2020), A Multiscale Dynamical Model in a Dry-Mass Coordinate for Weather and Climate Modeling: Moist Dynamics and Its Coupling to Physics. Monthly Weather Review, 148(7), 2671-2699.doi:10.1175/MWR-D-19-0305.1.

  Wang, T., L. Zhuang, J. M. Kunkel, S. Xiao, and C. Zhao, 2020: Parallelization and I/O Performance Optimization of a Global Nonhydrostatic Dynamical Core Using MPI. Computers, Materials & Continua, 63.

  Zhou, Y., Y. Zhang, J. Li, R. Yu, and Z. Liu, (2020), Configuration and evaluation of a global unstructured mesh atmospheric model (GRIST-A20.9) based on the variable-resolution approach. Geosci. Model Dev., 13(12), 6325-6348.doi:10.5194/gmd-13-6325-2020.

  Zhang, Y., J. Li, R. Yu, S. Zhang, Z. Liu, J. Huang, and Y. Zhou, (2019), A Layer-Averaged Nonhydrostatic Dynamical Framework on an Unstructured Mesh for Global and Regional Atmospheric Modeling: Model Description, Baseline Evaluation, and Sensitivity Exploration. Journal of Advances in Modeling Earth Systems, 11(6), 1685-1714.doi:10.1029/2018MS001539.

  Wang, L., Y. Zhang, J. Li, Z. Liu, and Y. Zhou, (2019), Understanding the Performance of an Unstructured-Mesh Global Shallow Water Model on Kinetic Energy Spectra and Nonlinear Vorticity Dynamics. Journal of Meteorological Research, 33(6), 1075-1097.doi:10.1007/s13351-019-9004-2.