Abstract
Based on hourly high-density precipitation data in Guangdong Province, China, 134 warm-sector heavy rainfall (WSHR) events were selected from 2016 to 2018. The synoptic weather patterns of these WSHR events were objectively classified using T-mode principal component analysis. Six WSHR weather patterns were identified, as follows: Type 1-southwest (T1-SW), Type 2-southeast (T2-SE), Type 3-coastal jets I (T3-CJI), Type 4-coastal jets II (T4-CJ II), Type 5-western low vortex (T5-WL), and Type 6-high-pressure (T6-HP). Three high-occurrence WSHR centers were finally extracted: the areas of Yangjiang and Shanwei, and the urban agglomeration of Guangdong–Hong Kong–Macao Greater Bay Area (GBA). Compared with the other five patterns, T6-HP is a newly identified WSHR weather pattern, which is related to a local/small-scale weather system in the context of anomalous northward movement of the western Pacific subtropical high. Notably, the precipitation area of the T6-HP type of WSHR event is smaller, which can only be captured by high-density observations. In addition, the occurrence locations of six large-scale extreme precipitation events were closely associated with the urban agglomerations in GBA, implying that urbanization plays an important role in extreme magnitudes of large-scale WSHR events and their occurrence centers.
Highlights
South China has the most abundant rainfall in China
The weather types of warm-sector heavy rainfall (WSHR) in Guangdong can be divided into six types: Type 1-southwest (T1-SW), Type 2-southeast (T2-SE), Type3- coastal jets I (T3-CJI), T4-CJ II, Type 5-western low vortex (T5-WL), and Type 6-high-pressure (T6-HP)
T2-SE is obvious after the onset of the monsoon; T3-CJI mainly occurs in the pre-rainy season; and T5-WL occurs in the post-rainy season
Summary
South China has the most abundant rainfall in China. Rainstorms in South China usually occur in front and behind the front, and in the warm sector south of the front. Lin (2006) classified WSHR in the pre-rainy season into three types: (1) high-altitude trough, which means heavy rain caused by the convergence of southerly winds in the boundary layer and forced uplift of the terrain; (2) strong southwest monsoon, which is a type of heavy rain caused by strengthening of the monsoon and formation of low-level jets; and (3) backflow heavy rainfall, which is where the cold air flows back after moving out to sea, and the easterly and southwesterly winds converge This last type is relatively rare compared with the other two. Based on the data of 124 national stations in the South China region, Liu et al (2019) identified 177 WSHR events from 1982 to 2015 and summarized their spatial and temporal distribution characteristics They suggested that the weather patterns of WSHR in South China mainly include wind shear, a low vortex, southerly wind, and backflow. Despite these efforts, due to differences in case selection, classification, data selection, and study period, no unified conclusion has yet been reached on classifying the weather situation that affects WSHR
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