The Southern China Monsoon Rainfall Experiment (SCMREX)

Luo, Yali; Bao, Xinghua; Wang, Hui; Xia, Rudi; Liu, Liping; Lu, Weitao; Wu, Meng‐Wen; Furtado, Kalli; Wang, Danyang; Liu, Xiantong

doi:10.1142/9789811216602_0030

Cited by 33 publications

(54 citation statements)

References 14 publications

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“…About a half of the annual rainfall over SC is produced during the pre‐summer rainy season (April to mid‐June) (Luo, 2017). The pre‐summer heavy rainfall over inland SC mainly takes places under influence of fronts, shear lines, vortex, and associated strong low‐level winds to the southeast (Du & Chen, 2018; Huang et al., 2018; M. Li, Luo, Zhang, et al., 2020; Z. Li, Luo, Du, & Chan, 2020; Shen et al., 2020), while the coastal SC features warm‐sector heavy rainfall that is distributed about a few hundred km to the south of a surface front, or in the absence of fronts in SC and the northern SCS (Huang et al., 1986; Luo et al., 2017). The warm‐sector heavy rainfall is mostly produced by mesoscale convective systems (MCSs) (Luo et al., 2013; Xia et al., 2015; Xu et al., 2009) and characterized by abrupt occurrence and strong intensity.…”

Section: Introductionmentioning

confidence: 99%

“…Occurrence of CI usually depends on multi‐scale atmospheric processes (Rotunno & Houze, 2007; Trier, 2003; Weckwerth & Parsons, 2006). Numerous studies have revealed various factors contributing to CI in the warm‐sector heavy rainfall events over inland and coastal SC, including terrain effects (Du, Chen, Han, Bai, & Li, 2020; Wang et al., 2014), mesoscale cold pools (Liu et al., 2018; Wu & Luo, 2016), surface heating (Jiang et al., 2017), boundary layer (BL) flows of tropical origins (Luo et al., 2017), land‐sea breeze fronts (X. Chen et al., 2017), low‐level jets (LLJs) (Du & Chen, 2018, 2019), and urban heat island effects interacting with onshore BL airflows (Wu et al., 2019; Yin et al., 2020). Previous studies utilizing integrated observations demonstrated the importance of coastline, coastal terrain, upstream oceanic airflow in the BL, and precipitation‐generated cold outflows/pools in triggering and maintaining the extreme rain‐producing MCSs near the SC coasts (Du, Chen, Han, Mai, et al., 2020; Du, Chen, Han, Bai, & Li, 2020; Liu et al., 2018; Wang et al., 2014; Wu & Luo, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…Occurrence of CI usually depends on multi-scale atmospheric processes (Rotunno & Houze, 2007;Trier, 2003;Weckwerth & Parsons, 2006). Numerous studies have revealed various factors contributing to CI in the warm-sector heavy rainfall events over inland and coastal SC, including terrain effects Wang et al, 2014), mesoscale cold pools (Liu et al, 2018;Wu & Luo, 2016), surface heating (Jiang et al, 2017), boundary layer (BL) flows of tropical origins (Luo et al, 2017), land-sea breeze fronts (X. Chen et al, 2017), low-level jets (LLJs) (Du & Chen, 2018, 2019, and urban heat island effects interacting with onshore BL airflows (Wu et al, 2019;Yin et al, 2020).…”

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confidence: 99%

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The Synoptic Impacts on the Convection Initiation of a Warm‐Sector Heavy Rainfall Event Over Coastal South China Prior to the Monsoon Onset: A Numerical Modeling Study

2021

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Located in the southmost part of mainland China, South China (SC) is one of the rainiest regions over East Asia with abundant moisture transported by monsoonal airflows passing South China Sea (SCS) (Ding, 1994;Ding & Chan, 2005). About a half of the annual rainfall over SC is produced during the pre-summer rainy season (April to mid-June) (Luo, 2017). The pre-summer heavy rainfall over inland SC mainly takes places under influence of fronts, shear lines, vortex, and associated strong low-level winds to the southeast (

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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The Synoptic Impacts on the Convection Initiation of a Warm‐Sector Heavy Rainfall Event Over Coastal South China Prior to the Monsoon Onset: A Numerical Modeling Study

2021

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“…Luo et al. (2017) and Zheng et al. (2017) showed that there are three strong rainy centers in Guangdong Province, which are located in the eastern coastal belt zone, the west of the Pearl River Delta, and the Beijiang River Valley‐Pearl River Delta block zone, respectively.…”

Section: Methodology and Datamentioning

confidence: 99%

Observed Large‐Scale Structures and Diabatic Heating Profiles of Precipitation Over the Tibetan Plateau and South China

2021

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This study investigates and compares large‐scale dynamic and thermodynamic structures of precipitation over the Tibetan Plateau (TP) and South China (SC). Vertical velocity, temperature and moisture advection, apparent heat source Q1 and apparent moisture sink Q2 are analyzed for strong, moderate, and light/no‐rain based on the measurements. The principal findings are as follows. (1) Both regions showed the strongest upward motion at around 400 hPa for strong and moderate rainfall, but the intensity of upward motion in SC was twice that of the TP. (2) Horizontal temperature advection over the TP showed advective warming in the lower troposphere and advective cooling in the upper troposphere, but this advection over SC was weaker and had a different vertical structure. Moreover, the strong‐rain horizontal temperature advection was the strongest over the TP but the weakest over SC. (3) The moisture advection over the TP reached its maximum at around 400 hPa, showing a one‐peak structure; while that over SC was stronger in the mid‐to‐low troposphere, showing a multi‐peak structure. (4) The Q1 profiles of the three rain categories in the TP were top‐heavy, with two heating peaks in the mid‐to‐upper troposphere. In contrast, the Q1 profiles in SC only had a heating peak in the middle troposphere. Correlations between the vertically integrated and were significant in SC but weakened in the TP. (5) Diurnal cycles of large‐scale structures in the TP were strong from the late afternoon to early morning, while those in SC were strong in the afternoon.

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“…Coastal South China (CSC, Figure 1a) is a key region where the East Asian summer monsoon penetrates northward and affects other regions of East Asia (Luo et al., 2017). Due to complex coastal topography and diverse low‐level winds, the DCR in CSC is more complicated than that of inland region.…”

Section: Introductionmentioning

confidence: 99%

Trends in Diurnal Cycle of Summertime Rainfall Over Coastal South China in the Past 135 Years: Characteristics and Possible Causes

Fung

et al. 2021

JGR Atmospheres

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Diurnal cycle of rainfall (DCR) is an important periodic signal of regional climate variability. When rainfall occurs regularly during particular times of the day, the atmospheric system is usually characterized by specific dynamic and thermal mechanisms (Sorooshian et al., 2002). Knowledge of these mechanisms is crucial for understanding regional rainfall processes and verifying quantitative precipitation forecasts generated from numerical weather predictions. The DCR has been widely reported to exhibit significant regional and seasonal variations over the Asian monsoon region (

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The Southern China Monsoon Rainfall Experiment (SCMREX)

Abstract: A unique program is developed for improving heavy rainfall forecasts over southern China during the presummer rainy season through field campaigns and research on physical mechanisms and convection-permitting modeling.

Cited by 33 publications

References 14 publications

The Synoptic Impacts on the Convection Initiation of a Warm‐Sector Heavy Rainfall Event Over Coastal South China Prior to the Monsoon Onset: A Numerical Modeling Study

The Synoptic Impacts on the Convection Initiation of a Warm‐Sector Heavy Rainfall Event Over Coastal South China Prior to the Monsoon Onset: A Numerical Modeling Study

Observed Large‐Scale Structures and Diabatic Heating Profiles of Precipitation Over the Tibetan Plateau and South China

Trends in Diurnal Cycle of Summertime Rainfall Over Coastal South China in the Past 135 Years: Characteristics and Possible Causes

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