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Distinct effects of winter monsoon and westerly circulation on dust aerosol transport over East Asia

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Abstract

The transport of dust aerosol in East Asia is affected by the East Asian winter monsoon (EAWM) and westerly circulation both for modern and geological periods. There are obvious seasonal changes in the intensity and range of EAWM and westerly jet; however, their impacts and relative contributions to East Asian dust transmission are still unclear. In this study, we use Regional Climate Model 4 (RegCM4) to simulate the changes in the East Asian dust cycle under present conditions, assessing the effects of EAWM and westerly jet on dust transport. The results show that the dust at the upper level is mainly transported by the westerly circulation, while that of the lower layer is mainly transported by the EAWM. In March, the westerly jet is located on the south side of the Tibet Plateau, and the high-level dust aerosol is transmitted eastward to the northern Pacific. Low-level dust is transmitted to the southeastern China with the influence of EAWM. With the northward shift of the westerly jet, the control range of the westerly winds increases in May and their correlations are weakened. In contrary, the impact of EAWM on the lower layer dust is enhanced. Due to the strengthened interaction between the westerly winds and the EAWM, they can both affect the middle-level dust transmission. The effect of EAWM is sensitive to the dust particle sizes. Under the action of EAWM, fine-grained dust is transmitted far away, while coarse-grained dust is limited to the vicinity of the source area. Once the dust is carried to the westerly layer, the influence of westerly winds on the transmission of different particle sizes dust is similar.

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References

  • Abulaiti A, Kimura R, Shinoda M, Kurosaki Y, Mikami M, Ishizuka M, Yamada Y, Nishihara E, Gantsetseg B (2014) An observational study of saltation and dust emission in a hotspot of Mongolia. Aeolian Res 15:169–176

    Article  Google Scholar 

  • Albrecht BA (1989) Aerosols, cloud microphysics, and fractional cloudiness. Science 245:1227–1230

    Article  Google Scholar 

  • Alfaro S, Gomes L (2001) Modeling mineral aerosol production by wind erosion: emission intensities and aerosol size distributions in source areas. J Geophys Res-Atmos 106:18075–18084

    Article  Google Scholar 

  • An ZS, Kukla G, Porter SC, Xiao JL (1991) Late quaternary dust flow on the Chinese loess plateau. Catena 18:125–132

    Article  Google Scholar 

  • An ZS, Kutzbach JE, Prell WL, Porter SC (2001) Evolution of Asian monsoons and phased uplift of the Himalayan Tibetan plateau since Late Miocene times. Nature 411:62–66

    Article  Google Scholar 

  • An ZS, Colman SM, Zhou WJ (2012) Interplay between the Westerlies and Asian monsoon recorded in Lake Qinghai sediments since 32 ka. Scientific Reports: 2

  • Cassar N, Bender ML, Barnett BA, Fan SM, Moxim WJ, Levy H, Tilbrook B (2008) Response to comment on the Southern Ocean biological response to aeolian iron deposition. Science 319:2

    Article  Google Scholar 

  • Chen SY, Zhao C, Qian Y, Leung LR, Huang JP, Huang ZW (2014) Regional modeling of dust mass balance and radiative forcing over East Asia using WRF-Chem. Aeolian Res 15:15–30

    Article  Google Scholar 

  • Chen SY, Huang JP, Kang L, Wang H, Ma X, He Y, Yuan T, Yang B, Huang Z, Zhang G (2017) Emission, transport, and radiative effects of mineral dust from the Taklimakan and Gobi deserts: comparison of measurements and model results. Atmos Chem Phys 17:2401–2421

    Article  Google Scholar 

  • Ding AJ, Fu CB, Yang XQ, Sun JN, Petaja T, Kerminen VM (2013) Intense atmospheric pollution modifies weather: a case of mixed biomass burning with fossil fuel combustion pollution in eastern China. Atmos Chem Phys 13:10545–10554

    Article  Google Scholar 

  • Dong Z, Shi X, Ge C, Zou J, Yao Z, Gorbarenko S, Wang C, Zong X (2017) Evolution of westerly jet during the last 60 ka: evidence from core deposits in the Central Japan (east) sea. Chin Sci Bull 62:1172–1184

    Article  Google Scholar 

  • Gao Y, Arimoto R, Zhou MY, Merrill JT, Duce RA (1992) Relationships between the dust concentrations over eastern Asia and the remote North Pacific. J Geophys Res-Atmos 97:D9

    Article  Google Scholar 

  • Gong S, Zhang XT, Zhao X, Zhang L, Barrie I, McKendry M, Zhao C (2006) A simulated climatology of Asian dust aerosol and its trans-Pacific transport. Part II: interannual variability and climate connections. J Clim 19:1

    Article  Google Scholar 

  • Guo S, Hu M, Zamora ML, Peng JF, Shang DJ, Zheng J, Du ZF (2014) Elucidating severe urban haze formation in China. Proc Natl Acad Sci U S A 111:17373–17378

    Article  Google Scholar 

  • Guo J, Lou MY, Miao YC, Wang Y, Zeng ZL, Liu H, He J (2017) Trans-Pacific transport of dust aerosol from East Asia: insights gained from multiple observations and modeling. Environ Pollution 230:1030–1039

    Article  Google Scholar 

  • Hao Z, Pan D, Sun Z, Fang G (2006) Retrieval of the columnar aerosol grain density from SeaWiFS over the China seas. Acta Oceanol Sin 28:32–38

    Google Scholar 

  • Holzer M, McKendry IG, Jaffe DA (2003) Springtime trans-Pacific atmospheric transport from East Asia: a transit-time probability density function approach. J Geophys Res-Atmos 108:D22

    Article  Google Scholar 

  • Hovan SA, Rea DK, Pisias NG, Shackleton NJ (1989) A direct link between the China loess and marine delta-O-18 records-aeolian flux to the north pacific. Nature 340:296–298

    Article  Google Scholar 

  • Hu Z, Huang J, Zhao C, Bi J, Jin Q, Qian Y, Leung LR, Feng T, Chen S, Ma J (2019) Modeling the contributions of northern hemisphere dust sources to dust outflow from East Asia. Atmos Environ 202:234–243

    Article  Google Scholar 

  • IPCC (Intergovernmental Panel on Climate Change) (2013) Climate change-the physical science basis, Cambridge University Press, New York, 252–271

  • Irino T, Tada R (2003) High-resolution reconstruction of variation in aeolian dust (Kosa) deposition at ODP site 797, the Japan Sea, during the last 200 ka. Glob Planet Chang 35:143–156

    Article  Google Scholar 

  • Ji Z, Kang S, Zhang D, Zhu C, Wu J, Xu Y (2011) Simulation of the anthropogenic aerosols over South Asia and their effects on Indian summer monsoon. Clim Dyn 36:1633–1647

    Article  Google Scholar 

  • Jiang H, Ding ZL (2010) Eolian grain-size signature of the Sikouzi lacustrine sediments (Chinese loess plateau): implications for Neogene evolution of the east Asian winter monsoon. Geol Soc Am Bull 122:843–854

    Article  Google Scholar 

  • Kang S, Roberts HM, Wang X, An ZS, Wang M (2015) Mass accumulation rate changes in Chinese loess during MIS 2, and asynchrony with records from Greenland ice cores and North Pacific Ocean sediments during the last glacial maximum. Aeolian Res 19:251–258

    Article  Google Scholar 

  • Lee JJ, Kim CH (2012) Roles of surface wind, NDVI and snow cover in the recent changes in Asian dust storm occurrence frequency. Atmos Environ 59:366–375

    Article  Google Scholar 

  • Li X, Zhang H (2012) Seasonal variations in dust concentration and dust emission observed over Horqin Sandy land area in China from December 2010 to November 2011. Atmos Environ 61:56–65

    Article  Google Scholar 

  • Li ZQ, Lau WKM, Ramanathan V, Wu G, Ding Y, Manoj MG, Liu J (2016a) Aerosol and monsoon climate interactions over Asia. Rev Geophys 54:866–929

    Article  Google Scholar 

  • Li Q, Zhang R, Wang Y (2016b) Interannual variation of the wintertime fog-haze days across central and eastern China and its relation with east Asian winter monsoon. Int J Climatol 36:346–354

    Article  Google Scholar 

  • Lin Y, Mu G, Xu L, Zhao X (2016) The origin of bimodal grain-size distribution for aeolian deposits. Aeolian Res 20:80–88

    Article  Google Scholar 

  • Liu XD, Xie XN, Yin ZY, Liu C, Gettelman A (2011) A modeling study of the effects of aerosols on clouds and precipitation over East Asia. Theor Appl Climatol 106:343–354

    Article  Google Scholar 

  • Liu YZ, Li YH, Huang JP, Zhu QZ, Wang SS (2020) Attribution of the Tibetan plateau to northern drought. Natl Sci Rev 7(3):489–492

    Article  Google Scholar 

  • Lou S, Russell LM, Yang Y, Xu L, Lamjiri MA, DeFlorio MJ, Miller AJ, Ghan SJ, Liu Y, Singh B (2016) Impacts of the east Asian monsoon on springtime dust concentrations over China. Journal of Geophysical Research: Atmospheres 121:8137–8152

    Article  Google Scholar 

  • Lu HY, Yi SW, Liu ZY, Mason JA, Jiang DB, Cheng J, Stevens T (2013) Variation of east Asian monsoon precipitation during the past 21 k.y. and potential CO2 forcing. Geology 41:9

    Article  Google Scholar 

  • Mahowald N, Kohfeld K, Hansson M, Balkanski Y, Harrison SP, Prentice IC, Schulz M, Rodhe H (1999) Dust sources and deposition during the last glacial maximum and current climate: a comparison of model results with paleodata from ice cores and marine sediments. J Geophys Res-Atmos 104:15895–15916

    Article  Google Scholar 

  • Marticorena B, Bergametti G (1995) Modeling the atmospheric dust cycle 0.1. Design of a soil-derived dust emission scheme. J Geophys Res-Atmos 100:16415–16430

    Article  Google Scholar 

  • Nagashima K, Tada R, Matsui H, Irino T, Tani A, Toyoda S (2007) Orbital- and millennial-scale variations in Asian dust transport path to the Japan Sea. Palaeogeogr Palaeoclimatol Palaeoecol 247:144–161

    Article  Google Scholar 

  • Niu F, Li Z, Li C, Lee KH, Wang M (2010) Increase of wintertime fog in China: potential impacts of weakening of the eastern Asian monsoon circulation and increasing aerosol loading. J Geophys Res-Atmos 115

  • Oleson KW, Niu GY, Yang ZL, Lawrence DM, Thornton PE, Lawrence PJ, Stockli R (2008) Improvements to the community land model and their impact on the hydrological cycle. Journal of Geophysical Research-Biogeosciences 113

  • Porter SC, An ZS (1995) Correlation between climate events in the North-Atlantic and China during last glaciation. Nature 375:305–308

    Article  Google Scholar 

  • Prins MA, Vriend M, Nugteren G, Vandenberghe J, Lu H, Zheng H, Weltje GJ (2007) Late Quaternary aeolian dust input variability on the Chinese loess plateau: inferences from unmixing of loess grain-size records. Quat Sci Rev 26:230–242

    Article  Google Scholar 

  • Qin Y, Chan CK, Chan LY (1997) Characteristics of chemical compositions of atmospheric aerosols in Hong Kong: spatial and seasonal distributions. Sci Total Environ 206:25–37

    Article  Google Scholar 

  • Ridgwell AJ (2002) Dust in the earth system: the biogeochemical linking of land, air and sea. Philosophical Transactions of the Royal Society of London Series a-Mathematical Physical and Engineering Sciences 360:2905–2924

    Article  Google Scholar 

  • Schiemann R, Luethi D, Schaer C (2009) Seasonality and interannual variability of the westerly jet in the Tibetan plateau region. J Clim 22:2940–2957

    Article  Google Scholar 

  • Shao YP, Yang Y, Wang JJ, Song ZX, Leslie LM, Dong CH, Zhang ZH (2003) Northeast Asian dust storms: real-time numerical prediction and validation. J Geophys Res-Atmos 108:18

    Article  Google Scholar 

  • Shao Y, Wyrwoll KH, Chappell A, Huang J, Lin Z, McTainsh GH, Mikami M, Tanaka TY, Wang X, Yoon S (2011) Dust cycle: an emerging core theme in earth system science. Aeolian Res 2:181–204

    Article  Google Scholar 

  • Shen XY, Wan SM, France LC, Clift PD, Tada R, Revillon S, Shi XF (2017) History of Asian eolian input to the sea of Japan since 15 Ma: links to Tibetan uplift or global cooling. Earth Planet Sci Lett 474:296–308

    Article  Google Scholar 

  • Shi ZG, Liu XD (2011) Distinguishing the provenance of fine-grained eolian dust over the Chinese loess plateau from a modelling perspective. Tellus B 63:959–970

    Article  Google Scholar 

  • Song F, Zhou T, Qian Y (2014) Responses of east Asian summer monsoon to natural and anthropogenic forcings in the 17 latest CMIP5 models. Geophys Res Lett 41:596–603

    Article  Google Scholar 

  • Sun JM (2002) Provenance of loess material and formation of loess deposits on the Chinese loess plateau. Earth Planet Sci Lett 203:845–859

    Article  Google Scholar 

  • Sun D (2004) Monsoon and westerly circulation changes recorded in the late Cenozoic aeolian sequences of northern China. Glob Planet Chang 41:63–80

    Article  Google Scholar 

  • Sun J, Zhang M, Liu T (2001) Spatial and temporal characteristics of dust storms in China and its surrounding regions, 1960-1999: relations to source area and climate. J Geophys Res 106:10325–10333

    Article  Google Scholar 

  • Sun YB, Tada RJ, Chen JC, Liu QS, Toyoda S, Tani A, Ji JF, Isozaki Y (2008) Tracing the provenance of fine-grained dust deposited on the central Chinese loess plateau. Geophys Res Lett 35:5

    Article  Google Scholar 

  • Sun Y, An ZS, Clemens SC, Bloemendal J, Vandenberghe J (2010) Seven million years of wind and precipitation variability on the Chinese loess plateau. Earth Planet Sci Lett 297:525–535

    Article  Google Scholar 

  • Sun YB, Clemens SC, Morrill C, Lin X, Wang X, An ZS (2012) Influence of Atlantic meridional overturning circulation on the east Asian winter monsoon. Nat Geosci 5:46–49

    Article  Google Scholar 

  • Sun H, Liu X, Pan Z (2017) Direct radiative effects of dust aerosol emitted from the Tibetan plateau on the east Asian summer monsoon - a regional climate model simulation. Atmos Chem Phys 17:13731–13745

    Article  Google Scholar 

  • Tan SC, Shi GY, Wang H (2012) Long-range transport of spring dust storms in Inner Mongolia and impact on the China seas. Atmos Environ 46:299–308

    Article  Google Scholar 

  • Tanaka TY, Chiba M (2006) A numerical study of the contributions of dust source regions to the global dust budget. Glob Planet Chang 52:88–104

    Article  Google Scholar 

  • Twomey S (1977) Influence of pollution on shortwave albedo of clouds. J Atmos Sci 34:1149–1152

    Article  Google Scholar 

  • Uno I, Eguchi K, Yumimoto K, Takemura T, Shimizu A, Uematsu M, Liu Z, Wang Z, Hara Y, Sugimoto N (2009) Asian dust transported one full circuit around the globe. Nat Geosci 2:557–560

    Article  Google Scholar 

  • Wan S, Yu Z, Clift PD, Sun H, Li A, Li T (2012) History of Asian eolian input to the west Philippine Sea over the last one million years. Palaeogeogr Palaeoclimatol Palaeoecol 326:152–159

    Article  Google Scholar 

  • Wang Y, Zhang R, Saravanan R (2014) Asian pollution climatically modulates mid-latitude cyclones following hierarchical modelling and observational analysis. Nat Commun 5

  • Wang H, Xie X, Yan L, Liu X (2018) Impact of east Asian summer monsoon circulation on the regional aerosol distribution in observations and models. Theor Appl Climatol 133:377–384

    Article  Google Scholar 

  • Wen R, Xiao J, Fan J, Zhang S, Yamagata H (2017) Pollen evidence for a mid-Holocene east Asian summer monsoon maximum in northern China. Quat Sci Rev 176:29–35

    Article  Google Scholar 

  • Wu P, Ding Y, Liu Y (2017) Atmospheric circulation and dynamic mechanism for persistent haze events in the Beijing-Tianjin-Hebei region. Adv Atmos Sci 34:429–440

    Article  Google Scholar 

  • Xu Y, Yue L, Li J, Sun L, Sun B, Zhang J, Ma J, Wang J (2012) Red clay deposits on the Chinese loess plateau during 11.0-2.6 Ma and its implications for long-term evolution of east Asian monsoon. Environ Earth Sci 66:2021–2030

    Article  Google Scholar 

  • Xu C, Ma YM, Yang K, You C (2018) Tibetan plateau impacts on global dust transport in the upper troposphere. J Clim 31(12):4745–4756

    Article  Google Scholar 

  • Yan L, Liu X, Yang P, Yin ZY, North GR (2011) Study of the impact of summer monsoon circulation on spatial distribution of aerosols in East Asia based on numerical simulations. J Appl Meteorol Climatol 50:2270–2282

    Article  Google Scholar 

  • Yang S, Ding Z (2014) A 249 kyr stack of eight loess grain size records from northern China documenting millennial-scale climate variability. Geochemistry Geophysics Geosystems 15:798–814

    Article  Google Scholar 

  • Yang Z, Dickinson R, Robock A, Vinnikov K (1997) Validation of the snow submodel of the biosphere-atmosphere transfer scheme with Russian snow cover and meteorological observational data. J Clim 10:353–373

    Article  Google Scholar 

  • Yang X, Ferrat M, Li Z (2013) New evidence of orographic precipitation suppression by aerosols in Central China. Meteorog Atmos Phys 119:17–29

    Article  Google Scholar 

  • Yang S, Ding Z, Li Y, Wang X, Jiang W, Huang X (2015) Warming-induced northwestward migration of the east Asian monsoon rain belt from the last glacial maximum to the mid-Holocene. Proc Natl Acad Sci U S A 112:13178–13183

    Article  Google Scholar 

  • Yokoyama Y, Naruse T, Ogawa NO, Tada R, Kitazato H, Ohkouchi N (2006) Dust influx reconstruction during the last 26,000 years inferred from a sedimentary leaf wax record from the Japan Sea. Glob Planet Chang 54:239–250

    Article  Google Scholar 

  • Yu H, Remer LA, Chin M, Bian H, Tan Q, Yuan T, Zhang Y (2012) Aerosols from overseas rival domestic emissions over North America. Science 337:566–569

    Article  Google Scholar 

  • Yumimoto K, Takemura T (2015) Long-term inverse modeling of Asian dust: interannual variations of its emission, transport, deposition, and radiative forcing. J Geophys Res-Atmos 120:1582–1607

    Article  Google Scholar 

  • Zakey AS, Solmon F, Giorgi F (2006) Implementation and testing of a desert dust module in a regional climate model. Atmos Chem Phys 6:4687–4704

    Article  Google Scholar 

  • Zhang X, Arimoto R, An ZS (1997) Dust emission from Chinese desert sources linked to variations in atmospheric circulation. J Geophys Res-Atmos 102:28041–28047

    Article  Google Scholar 

  • Zhang XY, Lu HY, Arimoto R, Gong SL (2002) Atmospheric dust loadings and their relationship to rapid oscillations of the Asian winter monsoon climate: two 250-kyr loess records. Earth Planet Sci Lett 202:637–643

    Article  Google Scholar 

  • Zhang X, Gong S, Zhao T, Arimoto R, Wang Y, Zhou ZJ (2003) Sources of Asian dust and role of climate change versus desertification in Asian dust emission. Geophys Res Lett 30:2272

    Article  Google Scholar 

  • Zhang L, Liao H, Li J (2010) Impacts of Asian summer monsoon on seasonal and interannual variations of aerosols over eastern China. J Geophys Res-Atmos 115

  • Zhao XJ, Zhao PS, Xu J, Meng W, Pu WW, Dong F, He D, Shi QF (2013) Analysis of a winter regional haze event and its formation mechanism in the North China plain. Atmos Chem Phys 13:5685–5696

    Article  Google Scholar 

  • Zhu J, Liao H, Li J (2012) Increases in aerosol concentrations over eastern China due to the decadal-scale weakening of the east Asian summer monsoon. Geophys Res Lett 39

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Acknowledgments

The authors appreciated the comments from two anonymous reviewers, which is of great help to improve the manuscript.

Funding

This work was jointly supported by the Strategic Priority Research Program of Chinese Academy of Sciences (XDB40030000), National Key Research and Development Program of China (2016YFA0601904), and National Natural Science Foundation of China (41977382). ZS also acknowledges the support of Youth Innovation Promotion Association CAS.

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Yang, L., Shi, Z., Sun, H. et al. Distinct effects of winter monsoon and westerly circulation on dust aerosol transport over East Asia. Theor Appl Climatol 144, 1031–1042 (2021). https://doi.org/10.1007/s00704-021-03579-z

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