Does CMIP6 Inspire More Confidence in Simulating Climate Extremes over China?

Based on climate extreme indices calculated from a high-resolution daily observational dataset in China during 1961–2005, the performance of 12 climate models from phase 6 of the Coupled Model Intercomparison Project (CMIP6), and 30 models from phase 5 of CMIP (CMIP5), are assessed in terms of spati...

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Bibliographic Details
Published in:Advances in atmospheric sciences 2020-10, Vol.37 (10), p.1119-1132
Main Authors: Zhu, Huanhuan, Jiang, Zhihong, Li, Juan, Li, Wei, Sun, Cenxiao, Li, Laurent
Format: Article
Language:English
Subjects:
Annual variations
Ascent
Atmospheric Sciences
Climate
Climate models
Climatic extremes
Climatic indexes
CMIP6 Experiments: Model and Dataset Descriptions
Computer simulation
Earth and Environmental Science
Earth Sciences
Extreme weather
Geographical distribution
Geophysics/Geodesy
Heavy precipitation
Interannual variability
Intercomparison
Maximum temperatures
Mean temperatures
Meteorology
Minimum temperatures
Ocean, Atmosphere
Original Paper
Precipitation
Rainfall intensity
Sciences of the Universe
Spatial distribution
Temperature
Temperature index
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Summary:Based on climate extreme indices calculated from a high-resolution daily observational dataset in China during 1961–2005, the performance of 12 climate models from phase 6 of the Coupled Model Intercomparison Project (CMIP6), and 30 models from phase 5 of CMIP (CMIP5), are assessed in terms of spatial distribution and interannual variability. The CMIP6 multi-model ensemble mean (CMIP6-MME) can simulate well the spatial pattern of annual mean temperature, maximum daily maximum temperature, and minimum daily minimum temperature. However, CMIP6-MME has difficulties in reproducing cold nights and warm days, and has large cold biases over the Tibetan Plateau. Its performance in simulating extreme precipitation indices is generally lower than in simulating temperature indices. Compared to CMIP5, CMIP6 models show improvements in the simulation of climate indices over China. This is particularly true for precipitation indices for both the climatological pattern and the interannual variation, except for the consecutive dry days. The areal-mean bias for total precipitation has been reduced from 127% (CMIP5-MME) to 79% (CMIP6-MME). The most striking feature is that the dry biases in southern China, very persistent and general in CMIP5-MME, are largely reduced in CMIP6-MME. Stronger ascent together with more abundant moisture can explain this reduction in dry biases. Wet biases for total precipitation, heavy precipitation, and precipitation intensity in the eastern Tibetan Plateau are still present in CMIP6-MME, but smaller, compared to CMIP5-MME.
ISSN:0256-1530
1861-9533
DOI:10.1007/s00376-020-9289-1