利用修订的 NSAS 深对流方案改进全球非静水模型中陆地降水的昼夜周期

IF 6.5 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Yifan Zhao, Xindong Peng, Xiaohan Li, Siyuan Chen
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引用次数: 0

摘要

在分辨率相对较低的大气模式中,积云参数化有助于考虑子网格尺度对流的影响,子网格尺度对流会对网格尺度降水产生补充降水,并影响降水的昼夜循环。本研究在全球非静水压大气模式(即阴阳格网大气统一模式)中使用新的简化荒川-舒伯特方案研究了降水的昼夜循环。提出了两个新的诊断闭合和一个对流触发函数,以强调与自由对流层大尺度强迫相对应的云工作函数的作用。0.25 度模式在 3 个月分批实况模拟中的数值结果表明,通过使用经修订的触发函数,加强了对流起始的动力学约束和合适的触发阈值,改善了昼夜降水量的变化。修订后的方案减少了太阳辐射高峰时段对流的发生,从而有效推迟了大部分陆地地区下午早些时候降水峰值的出现,并突出了被更大的下午峰值错误掩盖的夜间峰值。此外,修订后的方案增强了降水概率密度函数的模拟能力,例如增加了极低和高强度降水事件,减少了小雨和中雨事件,从而有助于减少中纬度和热带陆地地区的降水偏差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improved Diurnal Cycle of Precipitation on Land in a Global Non-Hydrostatic Model Using a Revised NSAS Deep Convective Scheme

In relatively coarse-resolution atmospheric models, cumulus parameterization helps account for the effect of subgrid-scale convection, which produces supplemental rainfall to the grid-scale precipitation and impacts the diurnal cycle of precipitation. In this study, the diurnal cycle of precipitation was studied using the new simplified Arakawa-Schubert scheme in a global non-hydrostatic atmospheric model, i.e., the Yin-Yang-grid Unified Model for the Atmosphere. Two new diagnostic closures and a convective trigger function were suggested to emphasize the job of the cloud work function corresponding to the free tropospheric large-scale forcing. Numerical results of the 0.25-degree model in 3-month batched real-case simulations revealed an improvement in the diurnal precipitation variation by using a revised trigger function with an enhanced dynamical constraint on the convective initiation and a suitable threshold of the trigger. By reducing the occurrence of convection during peak solar radiation hours, the revised scheme was shown to be effective in delaying the appearance of early-afternoon rainfall peaks over most land areas and accentuating the nocturnal peaks that were wrongly concealed by the more substantial afternoon peak. In addition, the revised scheme enhanced the simulation capability of the precipitation probability density function, such as increasing the extremely low- and high-intensity precipitation events and decreasing small and moderate rainfall events, which contributed to the reduction of precipitation bias over mid-latitude and tropical land areas.

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来源期刊
Advances in Atmospheric Sciences
Advances in Atmospheric Sciences 地学-气象与大气科学
CiteScore
9.30
自引率
5.20%
发文量
154
审稿时长
6 months
期刊介绍: Advances in Atmospheric Sciences, launched in 1984, aims to rapidly publish original scientific papers on the dynamics, physics and chemistry of the atmosphere and ocean. It covers the latest achievements and developments in the atmospheric sciences, including marine meteorology and meteorology-associated geophysics, as well as the theoretical and practical aspects of these disciplines. Papers on weather systems, numerical weather prediction, climate dynamics and variability, satellite meteorology, remote sensing, air chemistry and the boundary layer, clouds and weather modification, can be found in the journal. Papers describing the application of new mathematics or new instruments are also collected here.
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