Abstract
The intra-seasonal oscillation (ISO) is a prominent feature of the East Asia summer monsoon. The Beijing Climate Center model is one of the IPCC models participating in the Coupled Model Inter-comparison Project (CMIP) 3 and CMIP5 experiments. This paper presents a systematic evaluation of ISO simulated by the Beijing Climate Center atmospheric general circulation model version 2.2 against observations. The model reasonably simulates some salient features of BSISO in terms of temporal spectrum, leading EOF modes, and vertical structure, however limitations are also evident. The strength of the BSISO is overestimated and the northward propagating rain belt is tilted southwest-northeast, which is also different from the observation. The model tends to produce unrealistically strong but shallow convection associated with the ISO, leading to a northward shift of the Western Pacific Subtropical High and the main rain band compared to observations. Process studies show that the anomalous convective heating associated with the wet model bias drives a Gill-type response, resulting in the northwesterly biased position of Western Pacific Subtropical High. The study has revealed how the interaction of moist processes and large-scale dynamics can lead to model bias in simulating the east Asian regional climate system and its variability (ISO in particular). Future improvements in model resolution and convection parameterization are expected to reduce such errors.
Highlights
The intra-seasonal oscillation (ISO) is regarded as a dominant mode of variability of the East Asia (EA)-western North Pacific (WNP) summer monsoon
We present an evaluation of the ISO of the EA-WNP summer monsoon in the Beijing Climate Center atmospheric general circulation model version 2.2 (BCC_AGCM2.2), which is the atmospheric component of the Short-range Operational Climate Prediction System of China National Climate Center
We will first describe some aspects of the seasonal mean climatology that may impact on intra-seasonal variability during boreal summer
Summary
The intra-seasonal oscillation (ISO) is regarded as a dominant mode of variability of the East Asia (EA)-western North Pacific (WNP) summer monsoon. Sperber and Annamalai (2008) have shown that only a few of the CMIP3 (Coupled Model Intercomparison Project phase 3) models manage to produce statistically significant anomalies that comprise the northwest to southeast tilted convection associated with the BSISO They emphasize the importance of correctly simulating the seasonal mean state of precipitation and SST on the BSISO simulation. Most models still cannot properly simulate the spatial pattern of BSISO variance over the Asian monsoon region and fail to simulate the phase-relationship between the ISO-related precipitation and winds, which is observed with easterly (westerly) anomalies leading (lagging) the enhanced convection anomaly. We present an evaluation of the ISO of the EA-WNP summer monsoon in the Beijing Climate Center atmospheric general circulation model version 2.2 (BCC_AGCM2.2), which is the atmospheric component of the Short-range Operational Climate Prediction System of China National Climate Center. An evaluation of boreal summer intra-seasonal oscillation simulated by BCC_AGCM2.2
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