Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions

Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions

Surface solar radiation (SSR) is the main factor affecting the earth’s climate and environment and its variations and the reason for these variations are an important part of climate change research. In this research, we investigated the long-term variations of SSR during 1984–2016 and the quantitat...

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Main Authors: Hejin Fang, Wenmin Qin, Lunche Wang, Ming Zhang, Xuefang Yang
Format: Article
Language:English
Published: MDPI AG 2021-12-01
Series:Remote Sensing
Subjects:
aerosols
surface solar radiation
anthropogenic and meteorological drivers
China
Online Access:https://www.mdpi.com/2072-4292/13/1/88
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spelling doaj-0a66a19051be4329a68e0d8f626935442020-12-30T00:04:41ZengMDPI AGRemote Sensing2072-42922021-12-0113888810.3390/rs13010088Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological ConditionsHejin Fang0Wenmin Qin1Lunche Wang2Ming Zhang3Xuefang Yang4School of Geography and Information Engineering, Key Laboratory of Regional Ecology and Environmental Change, China University of Geosciences, Wuhan 430074, ChinaSchool of Geography and Information Engineering, Key Laboratory of Regional Ecology and Environmental Change, China University of Geosciences, Wuhan 430074, ChinaSchool of Geography and Information Engineering, Key Laboratory of Regional Ecology and Environmental Change, China University of Geosciences, Wuhan 430074, ChinaSchool of Geography and Information Engineering, Key Laboratory of Regional Ecology and Environmental Change, China University of Geosciences, Wuhan 430074, ChinaSchool of Geography and Information Engineering, Key Laboratory of Regional Ecology and Environmental Change, China University of Geosciences, Wuhan 430074, ChinaSurface solar radiation (SSR) is the main factor affecting the earth’s climate and environment and its variations and the reason for these variations are an important part of climate change research. In this research, we investigated the long-term variations of SSR during 1984–2016 and the quantitative influences of atmospheric aerosols, anthropogenic emissions, and meteorological conditions on SSR over China’s mainland. The results show the following: (1) The annual average SSR values had a decline trend at a rate of −0.371 Wm<sup>−2 </sup>yr<sup>−1</sup> from 1984 to 2016 over China. (2) The aerosol optical depth (AOD) plays the main role in inducing variations in SSR over China, with r values of −0.75. Moreover, there are marked regional differences in the influence of anthropogenic emissions and meteorological conditions on SSR trends. (3) From a regional perspective, AOD is the main influencing factor on SSR in northeast China (NEC), Yunnan Plateau and surrounding regions (YPS), North China (NC), and Loess Plateau (LP), with r values of −0.65, −0.60, −0.89, and −0.50, respectively. However, the main driving factors for SSR in northwest China (NWC) are “in cloud optical thickness of all clouds” (TAUTOT) (−0.26) and black carbon (BC) anthropogenic emissions (−0.21). TAUTOT (−0.39) and total precipitable water vapor (TQV) (−0.29) are the main influencing factors of SSR in the middle-lower Yangtze Plain (MYP). The main factors that influence SSR in southern China (SC) are surface pressure (PS) (−0.66) and AOD (−0.43). This research provides insights in understanding the variations of SSR and its relationships with anthropogenic conditions and meteorological factors.https://www.mdpi.com/2072-4292/13/1/88aerosolssurface solar radiationanthropogenic and meteorological driversChina
collection DOAJ
language English
format Article
sources DOAJ
author Hejin Fang
Wenmin Qin
Lunche Wang
Ming Zhang
Xuefang Yang
spellingShingle Hejin Fang
Wenmin Qin
Lunche Wang
Ming Zhang
Xuefang Yang
Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions
Remote Sensing
aerosols
surface solar radiation
anthropogenic and meteorological drivers
China
author_facet Hejin Fang
Wenmin Qin
Lunche Wang
Ming Zhang
Xuefang Yang
author_sort Hejin Fang
title Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions
title_short Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions
title_full Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions
title_fullStr Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions
title_full_unstemmed Solar Brightening/Dimming over China’s Mainland: Effects of Atmospheric Aerosols, Anthropogenic Emissions, and Meteorological Conditions
title_sort solar brightening/dimming over china’s mainland: effects of atmospheric aerosols, anthropogenic emissions, and meteorological conditions
publisher MDPI AG
series Remote Sensing
issn 2072-4292
publishDate 2021-12-01
description Surface solar radiation (SSR) is the main factor affecting the earth’s climate and environment and its variations and the reason for these variations are an important part of climate change research. In this research, we investigated the long-term variations of SSR during 1984–2016 and the quantitative influences of atmospheric aerosols, anthropogenic emissions, and meteorological conditions on SSR over China’s mainland. The results show the following: (1) The annual average SSR values had a decline trend at a rate of −0.371 Wm<sup>−2 </sup>yr<sup>−1</sup> from 1984 to 2016 over China. (2) The aerosol optical depth (AOD) plays the main role in inducing variations in SSR over China, with r values of −0.75. Moreover, there are marked regional differences in the influence of anthropogenic emissions and meteorological conditions on SSR trends. (3) From a regional perspective, AOD is the main influencing factor on SSR in northeast China (NEC), Yunnan Plateau and surrounding regions (YPS), North China (NC), and Loess Plateau (LP), with r values of −0.65, −0.60, −0.89, and −0.50, respectively. However, the main driving factors for SSR in northwest China (NWC) are “in cloud optical thickness of all clouds” (TAUTOT) (−0.26) and black carbon (BC) anthropogenic emissions (−0.21). TAUTOT (−0.39) and total precipitable water vapor (TQV) (−0.29) are the main influencing factors of SSR in the middle-lower Yangtze Plain (MYP). The main factors that influence SSR in southern China (SC) are surface pressure (PS) (−0.66) and AOD (−0.43). This research provides insights in understanding the variations of SSR and its relationships with anthropogenic conditions and meteorological factors.
topic aerosols
surface solar radiation
anthropogenic and meteorological drivers
China
url https://www.mdpi.com/2072-4292/13/1/88
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AT wenminqin solarbrighteningdimmingoverchinasmainlandeffectsofatmosphericaerosolsanthropogenicemissionsandmeteorologicalconditions
AT lunchewang solarbrighteningdimmingoverchinasmainlandeffectsofatmosphericaerosolsanthropogenicemissionsandmeteorologicalconditions
AT mingzhang solarbrighteningdimmingoverchinasmainlandeffectsofatmosphericaerosolsanthropogenicemissionsandmeteorologicalconditions
AT xuefangyang solarbrighteningdimmingoverchinasmainlandeffectsofatmosphericaerosolsanthropogenicemissionsandmeteorologicalconditions
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