Plausible influence of Atlantic Ocean SST anomalies on winter haze in China

Xiao, Dong; Li, Ying; Fan, Saijun; Zhang, Renhe; Sun, Jianqi; Wang, Yan

doi:10.1007/s00704-014-1297-6

Cited by 54 publications

(49 citation statements)

References 45 publications

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“…S1b). The trend pattern of wintertime HD is consistent with the observational results examined by previous studies1120. The associated principal component (PC) (blue line in Fig.…”

Section: Resultssupporting

confidence: 90%

“…The HD increasing trend over eastern China is highly correlated with the weakening of surface wind speed14 and decreasing trend of atmospheric relative humidity11. Several studies have suggested that the interannual variability of winter haze over China may be affected by the East Asian winter monsoon19 and the sea surface temperature (SST) in Atlantic Ocean20.…”

mentioning

confidence: 99%

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Decadal variability in the occurrence of wintertime haze in central eastern China tied to the Pacific Decadal Oscillation

Zhao

Sun

2016

Sci Rep

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Haze is a serious issue in China with increasing concerns, and understanding the factors driving decadal-scale variations in haze occurrence is relevant for government policymaking. Using a comprehensive observational haze dataset, we demonstrate notable decadal fluctuations in the number of haze days (HD) during winter in central eastern China, showing a decline since the mid-1980s. The leading mode of the wintertime HD features an increasing trend for 1959–2012 in eastern China, highly correlated with China’s gross domestic product (GDP) that represents increasing trend of pollutant emissions, and to a lesser extent meteorological factors. The second mode shows decadal variations in central eastern China associated with Pacific Decadal Oscillation (PDO). Observations and numerical simulations suggest that Mongolia High and corresponding descending motion tend to be enhanced (weakened) in central eastern China during the positive (negative) phase of PDO. With PDO shifting towards a negative phase, the weakened Mongolia High and ascending anomalies make the air unstable and conduce to the spread of pollutants, leading to the decline in the wintertime HD over central eastern China since the mid-1980s. Based on above physical mechanisms, a linear model based on PDO and GDP metrics provided a good fit to the observed HD.

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“…S1b). The trend pattern of wintertime HD is consistent with the observational results examined by previous studies1120. The associated principal component (PC) (blue line in Fig.…”

Section: Resultssupporting

confidence: 90%

mentioning

confidence: 99%

Decadal variability in the occurrence of wintertime haze in central eastern China tied to the Pacific Decadal Oscillation

Zhao

Sun

2016

Sci Rep

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“…Therefore, we conclude that the major forcing factor of atmospheric loading of pollutants and the resulting haze days in China was wind strength rather than anthropogenic emissions. This conclusion is consistent with the coincidence of the haze days with weak wind strength observed in the meteorological registers of the past several decades (H Chen & Wang, ; Hui & Xiang, ; H Wang et al, ; Xiao et al, ). Nevertheless, the dominant role of wind strength cannot exclude the contribution of anthropogenic emissions to high exposure to aerosol pollutions in China.…”

Section: Resultssupporting

confidence: 87%

“…To discriminate the major forcing factors of wind strength over the past 180 years, we compared our records with the observed temperature changes in China (Shaowu et al, ), the annual average tropical ocean surface temperature (TSST; Huang et al, ), the Atlantic Multidecadal Oscillation (AMO; Trenberth & Shea, ), and the Arctic sea ice extent (ICE; H Wang et al, ; Figure ). All these factors have been suggested as the major forcing factors of heavy haze days in China (Hui & Xiang, ; H Wang et al, ; Xiao et al, ). Notably, the wind strength is inversely related to the meteorological registers of temperature changes in China, suggesting a close association between them (Figure ).…”

Section: Resultsmentioning

confidence: 99%

Global Warming Increases the Incidence of Haze Days in China

Luo

et al. 2019

JGR Atmospheres

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Both wind strength and anthropogenic emissions have been assumed to be the dominant factors in determining the occurrence of hazy weather in China. However, few records are available with sufficient temporal length and resolution, which enable the two signals to be separated, and hence address the dynamics of haze days and the global impact of the anthropogenic emissions in China, particularly in the context of global warming. Here we present the first long‐term (last ~180 years) lake sediment records of changes in wind strength and atmospheric loading of anthropogenic emissions in China. Our results show that the atmospheric loading of anthropogenic emissions and haze formation are closely related to the changes in wind strength associated with temperature changes, which are likely forced by tropical sea surface temperature. Comparison of our results with Pb isotope records from Japan and with the record of Pb concentrations in Greenland ice core indicates that the anthropogenic pollutants emitted in China stagnate mainly over the source area and neighboring regions, which thus favors haze formation under a warming climate. However, they would be transported worldwide under conditions of strong winds and decreased temperature. Climatic warming, together with the periodic changes in temperature, has caused unprecedented heavy haze days in recent decades in China. The observed pattern of periodic temperature variations suggests that in the next ~30 years, wind strength will increase and thus reduce the incidence of haze days. However, this reduction may be attenuated by continued climatic warming as anthropogenic greenhouse gases emissions continue.

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“…When the pre-autumn SST anomalies were distributed in a "+ − +" pattern from south to north, the subsequent EAWM was stronger, and the surface temperature of north China was lower (Shi, 2014). Xiao et al (2015) proved the SST anomalies over the North Atlantic from summer to the following winter exhibit a significant relationship with winter haze days on both decadal and interannual timescale. Similarly, the CC between WHD NCP DY and pre-autumn SST DY of the Atlantic was distributed in a "− + −" pattern (Fig.…”

Section: The Predictors and Associated Circulationsmentioning

confidence: 95%

Seasonal prediction of winter haze days in the north central North China Plain

Yin

Wang

2016

Atmos. Chem. Phys.

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Abstract. Recently, the winter (December-February) haze pollution over the north central North China Plain (NCP) has become severe. By treating the year-to-year increment as the predictand, two new statistical schemes were established using the multiple linear regression (MLR) and the generalized additive model (GAM). By analyzing the associated increment of atmospheric circulation, seven leading predictors were selected to predict the upcoming winter haze days over the NCP (WHD NCP ). After cross validation, the root mean square error and explained variance of the MLR (GAM) prediction model was 3.39 (3.38) and 53 % (54 %), respectively. For the final predicted WHD NCP , both of these models could capture the interannual and interdecadal trends and the extremums successfully. Independent prediction tests for 2014 and 2015 also confirmed the good predictive skill of the new schemes. The predicted bias of the MLR (GAM) prediction model in 2014 and 2015 was 0.09 (−0.07) and −3.33 (−1.01), respectively. Compared to the MLR model, the GAM model had a higher predictive skill in reproducing the rapid and continuous increase of WHD NCP after 2010.

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Plausible influence of Atlantic Ocean SST anomalies on winter haze in China

Cited by 54 publications

References 45 publications

Decadal variability in the occurrence of wintertime haze in central eastern China tied to the Pacific Decadal Oscillation

Decadal variability in the occurrence of wintertime haze in central eastern China tied to the Pacific Decadal Oscillation

Global Warming Increases the Incidence of Haze Days in China

Seasonal prediction of winter haze days in the north central North China Plain

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