Convection-Permitting Simulations of Current and Future Climates over the Tibetan Plateau

IF 6.5 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
Liwei Zou, Tianjun Zhou
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Abstract

The Tibetan Plateau (TP) region, also known as the “Asian water tower”, provides a vital water resource for downstream regions. Previous studies of water cycle changes over the TP have been conducted with climate models of coarse resolution in which deep convection must be parameterized. In this study, we present results from a first set of high-resolution climate change simulations that permit convection at approximately 3.3-km grid spacing, with a focus on the TP, using the Icosahedral Nonhydrostatic Weather and Climate Model (ICON). Two 12-year simulations were performed, consisting of a retrospective simulation (2008–20) with initial and boundary conditions from ERA5 reanalysis and a pseudo-global warming projection driven by modified reanalysis-derived initial and boundary conditions by adding the monthly CMIP6 ensemble-mean climate change under the SSP5-8.5 scenario. The retrospective simulation shows overall good performance in capturing the seasonal precipitation and surface air temperature. Over the central and eastern TP, the average biases in precipitation (temperature) are less than −0.34 mm d−1 (−1.1°C) throughout the year. The simulated biases over the TP are height-dependent. Cold (wet) biases are found in summer (winter) above 5500 m. The future climate simulation suggests that the TP will be wetter and warmer under the SSP5-8.5 scenario. The general features of projected changes in ICON are comparable to the CMIP6 ensemble projection, but the added value from kilometer-scale modeling is evident in both precipitation and temperature projections over complex topographic regions. These ICON-downscaled climate change simulations provide a high-resolution dataset to the community for the study of regional climate changes and impacts over the TP.

青藏高原当前和未来气候的对流模拟
青藏高原(TP)地区又被称为 "亚洲水塔",为下游地区提供了重要的水资源。以往对青藏高原水循环变化的研究都是通过粗分辨率的气候模式进行的,其中必须对深层对流进行参数化。在本研究中,我们利用二十面体非静水天气和气候模型(ICON),以大洋洲大陆架为重点,进行了第一套高分辨率气候变化模拟,允许在约 3.3 千米的网格间距内进行对流。进行了两次为期 12 年的模拟,其中一次是回溯模拟(2008-20 年),初始条件和边界条件来自 ERA5 再分析;另一次是伪全球变暖预测,由修改后的再分析初始条件和边界条件驱动,加入了 SSP5-8.5 情景下的每月 CMIP6 集合平均气候变化。回溯模拟在捕捉季节性降水和地表气温方面总体表现良好。在热带雨林中部和东部,全年降水(温度)的平均偏差小于-0.34 mm d-1(-1.1°C)。大洋洲大陆上空的模拟偏差与高度有关。未来气候模拟表明,在 SSP5-8.5 情景下,大洋洲热带雨林将更加湿润和温暖。ICON预测变化的一般特征与CMIP6集合预测相当,但在复杂地形区域的降水和温度预测中,千米尺度建模的附加值是显而易见的。这些 ICON 降尺度气候变化模拟为社会研究区域气候变化和对 TP 的影响提供了一个高分辨率数据集。
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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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