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Surface wind climates in the North China Plain: Implications for air quality

Hu, Xun ; Cai, Xuhui ; Wang, Xuesong ; [et al.]

Wiley ; 2022

In: International Journal of Climatology Vol. 42, No. 16 ( 2022-12-30), p. 10322-10336

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In: International Journal of Climatology, Wiley, Vol. 42, No. 16 ( 2022-12-30), p. 10322-10336

Abstract: Wind climatology is significant for applications from weather forecasting to air pollution control. Investigation of wind climates in the North China Plain (NCP) region is insufficient yet. Based on hourly observational data at 94 surface weather stations from 2014 to 2020, wind climatic features in the NCP region were examined using statistical and clustering methods. The seasonal average wind speed over this region is the highest in spring (2.7 m·s −1 ), followed by winter (2.5 m·s −1 ), and weakest in summer and autumn (2.0 and 1.9 m·s −1 ). The annual mean wind speed is higher in the mountainous and coastal areas (2.0–2.5 m·s −1 ) but lower in the plains (1.5–2.0 m·s −1 ). Mountain–plain/valley winds and sea–land breezes are important in the associated areas. Wind fields in the plains are variable, possibly due to the coexistence of multiple synoptic winds and regional thermal circulations. Monthly mean background wind fields display that northwesterly and southeasterly winds prevail over this region in winter and summer, respectively. Local winds, that is, mountain–plain winds and sea–land breezes, vary diurnally, but a time lag of about 3 hr exists between them. Synoptic winds act as a mediate wind system between local and background winds, being identified into eight patterns using a hierarchical clustering method. Among them, two patterns featuring a weak wind convergence zone along the mountains (36%) and three patterns featuring southerlies (55%) are major synoptic winds in this region.

Type of Medium: Online Resource

ISSN: 0899-8418 , 1097-0088

URL: Issue

URL: Article

DOI: 10.1002/joc.v42.16

DOI: 10.1002/joc.7902

RVK:

RA 1000

Language: English

Publisher: Wiley

Publication Date: 2022

detail.hit.zdb_id: 1491204-1

SSG: 14

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Temperature inversions in China derived from sounding data from 1976 to 2015

Xu, Tingting ; Liu, Bing ; Zhang, Minsi ; [et al.]

Stockholm University Press ; 2021

In: Tellus B: Chemical and Physical Meteorology Vol. 73, No. 1 ( 2021-01-01), p. 1898906-

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In: Tellus B: Chemical and Physical Meteorology, Stockholm University Press, Vol. 73, No. 1 ( 2021-01-01), p. 1898906-

Type of Medium: Online Resource

ISSN: 1600-0889 , 0280-6509

URL: Article

DOI: 10.1080/16000889.2021.1898906

RVK:

RA 1000

RVK:

UA 8382.2

Language: Unknown

Publisher: Stockholm University Press

Publication Date: 2021

detail.hit.zdb_id: 2026992-4

detail.hit.zdb_id: 246061-0

SSG: 16,13

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Tornado climatology of China

Chen, Jiayi ; Cai, Xuhui ; Wang, Hongyu ; [et al.]

Wiley ; 2018

In: International Journal of Climatology Vol. 38, No. 5 ( 2018-04), p. 2478-2489

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In: International Journal of Climatology, Wiley, Vol. 38, No. 5 ( 2018-04), p. 2478-2489

Abstract: A tornado climatology in China was derived based on a recently completed data set with details on 4763 tornadoes in the period 1948–2012. The tornadoes were rated on the Fujita scale, and design basis tornado wind speeds were estimated. Annual tornadoes were estimated 108 (±44) in China, among which 0–4 exceed F3 on the Fujita scale. Three strongest tornadoes in the data set were rated F4. Assessing from frequency distribution of ratings, tornadoes in China could be mostly of the non‐supercell type. In average of all the country, most tornadoes occur in summer (June–August, about 64%). The peak month is July (31%). Geographically, the majority of tornadoes is distributed in eastern China, with the most frequent tornado occurrence being in the coastal provinces. There are southern type and northern type of tornado occurrence in eastern China. The former peaks in spring, while the latter peaks in summer. Two belts of design basis tornado wind speeds higher than 70 m s −1 were identified (on probability of 10 −7 per year). One extends approximately along the coastline of China from south to north, while the other crosses this belt from east to west, approximately upstream of the Yangtze River. The Yangtze River Delta and Pearl River Delta have design basis tornado wind speeds higher than 90 m s −1 , with maxima of 105 and 95 m s −1 , respectively. However, by transferring into the enhanced Fujita scale, the wind speed is much lower, with the corresponding maxima being 82 and 76 m s −1 respectively.

Type of Medium: Online Resource

ISSN: 0899-8418 , 1097-0088

URL: Issue

URL: Article

DOI: 10.1002/joc.2018.38.issue-5

DOI: 10.1002/joc.5369

RVK:

RA 1000

Language: English

Publisher: Wiley

Publication Date: 2018

detail.hit.zdb_id: 1491204-1

SSG: 14

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Impacts of El Niño–Southern Oscillation on tropical precipitation via triggering anomaly water vapour transport from ocean to land

Wang, Jialin ; Pan, Feifei ; Li, Haiyan ; [et al.]

Wiley ; 2023

In: International Journal of Climatology Vol. 43, No. 4 ( 2023-03-30), p. 1839-1852

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In: International Journal of Climatology, Wiley, Vol. 43, No. 4 ( 2023-03-30), p. 1839-1852

Abstract: Atmospheric water vapour transport is one of the most active components of the hydrological cycle, which shows great effects on the regional climate variability, while it is largely affected by the large‐scale circulation systems. El Niño–Southern Oscillation (ENSO) shows a remarkable influence on the atmospheric water circulation via disrupting the normal/regular water vapour transport processes, producing the anomaly water vapour fluxes input from ocean to land ( Q net ), and leading to regional precipitation anomalies. However, their quantitative impact has not been fully studied. This study quantified the effect of ENSO on the water vapour transport from ocean to land and identified its impact on tropical precipitation anomalies. The results showed that the global detrended Q net displayed a significantly negative correlation with the strength of ENSO. The notable impact of ENSO on Q net was largely affected by the different patterns of the atmospheric moisture circulation during El Niño and La Niña and was responsible for the change of the spatial distribution of precipitation over the Tropics. El Niño reduced precipitation over the Malay Archipelago and increased precipitation over south China, especially in boreal winter, while La Niña enhanced precipitation over the Malay Archipelago. This study identified the impacts of ENSO on the circulation and water vapour transport process and improved our understanding of the influencing mechanism of ENSO on regional precipitation anomalies, which has important significance on regional water resource management and disaster risk assessment, especially as the extreme climate events have become increasingly frequent.

Type of Medium: Online Resource

ISSN: 0899-8418 , 1097-0088

URL: Issue

URL: Article

DOI: 10.1002/joc.v43.4

DOI: 10.1002/joc.7948

RVK:

RA 1000

Language: English

Publisher: Wiley

Publication Date: 2023

detail.hit.zdb_id: 1491204-1

SSG: 14

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