Abstract
Local Convection in Dabie Mountains (LCDM) occurs more frequently over the Dabie Mountains and brings severe weather to adjacent areas. In order to understand the characteristics of LCDM, their spatial distribution, the monthly and diurnal variations, and possible mechanisms are investigated. Based on radar composite reflectivity data over the 5-y period of 2014–2018 during warm seasons (April–September), a total of 195 cases of LCDM are identified. The LCDM exhibits maximum frequency on the windward slopes of the Dabie Mountains with a secondary maximum on lee slopes. It is demonstrated that LCDM peaks in July and August, while their diurnal variation exhibits a major peak in the afternoon during 12:00–16:00 local solar time (LST). Most LCDM does not leave the Dabie Mountains (NoOut-Type), accounting for 89.7% overall, and has an average 3.5 h lifespan. In contrast, the lifespans of Out-Types (i.e., LCDMs that move away from the Dabie Mountains) are longer (5.8 h on average), while most Out-Type LCDMs develop on southern slopes (‘South-Type’) and a few are also reinforced on northern slopes (‘North-Type’). The South-Type mainly produces short-duration heavy precipitation, while the ‘North-Type’ predominately generates thunderstorms high winds. It is suggested that LCDM is thermally induced, and that both the ‘South-Type’ and ‘North-Type’ are controlled by southerly wind perturbation. Lifting by upslope wind and heat sources over windward slopes has led to ‘South-Type’ development, while ascent induced by wave-like perturbations on lee slopes has led to ‘North-Type’. These mechanisms should be further investigated in future work by using field experiments and numerical simulations.
Highlights
A range of studies both in China and around the world have revealed that convections occur frequently in mountainous areas
Downbursts and micro-downbursts tend to occur adjacent to mountainous areas [4], while severe hail storms mostly occur near these regions, including on the plateau around lee slopes of the Rockies [5], the eastern part of the Canadian Alberta Rockies ([6,7]), the northern part of Atmosphere 2020, 11, 1246; doi:10.3390/atmos11111246
The aim of this study is to investigate the general features of local convections initiated over the Dabie Mountains (30.17–32.52◦ N, 114.70–117.17◦ E)
Summary
A range of studies both in China and around the world have revealed that convections occur frequently in mountainous areas. Precipitation as well as severe convective weather events occur more frequently over the Dabie Mountains than they do in adjacent areas. Lightning data collected across Anhui Province, China, during 1971–2000 reveal that this kind of activity over the Dabie Mountains is significantly enhanced compared to nearby areas at the same latitude [12]. Precipitation and convection in nearby areas can be affected by terrain; in spring and summer, mesoscale convective systems (MCSs) often develop in the northern Dabie Mountains, leading to heavy rainfall and other severe convective weather events [13].
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