Abstract
Dust storm variations over the past ~230 years were reconstructed on the northeast Loess Plateau using a sediment core from Lake Gonghai. The coarse component of the lake sediments (17.38–109.65 μm) was extracted using the grain size standard deviations method and could be used as a dust storm proxy. The reconstructed results suggest five dust storm peaks: in the 1810s, the late 1850s to the late 1880s, the late 1890s to the early 1920s, ~1950s to the early 1990s, and the late 2000s to the early 2010s. The 1950s–1990s had the highest frequency of dust storms over the past ~230 years, as a result of the combined effects of increased human activities, droughts, and strong winds. Before ~1950, the frequency of dust storms was influenced mainly by natural factors, such as drought events and high intensities of the Siberian High and the East Asian Winter Monsoon. After the 1950s, intensive human activity had a significant impact on dust storms, resulting in a relatively high frequency. However, because of a weakening trend in wind strengths resulting from global warming and ecological rehabilitation projects in North China, the frequency of dust storms has significantly decreased in the past two decades. This study highlights the significant effect of human activities on dust storm generation in Inner Asia and the variations in dust storms under global warming scenarios.
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References
Bao K, Xing W, Yu X, Zhao H, McLaughlin N, Lu X, Wang G (2012) Recent atmospheric dust deposition in an ombrotrophic peat bog in Great Hinggan Mountain, Northeast China. Sci Total Environ 431(5):33–45
Bishop JKB, Davis RE, Sherman JT (2002) Robotic observations of dust storm enhancement of carbon biomass in the North Pacific. Science. 298(5594):817–821
Blott SJ, Pye K (2001) GRADISTAT: a grain size distribution and statistics package for the analysis of unconsolidated sediments. Earth Surf Process Landf 26(11):1237–1248
Boulay S, Colin C, Trentesaux A et al (2003) Mineralogy and sedimentology of Pleistocene sediment in the South China Sea (ODP site1144). Proceedings of the Ocean Drilling Program: Scientific Results 184 184:1–21
Cao H, Fu C, Zhang W, Liu J (2018) Characterizing sand and dust storms (SDS) intensity in China based on meteorological data. Sustainability. 10(7):2372
Chen B, Hao Y, Chen Y (2003) Research on climate ecological effect evaluation of regional protection forest system in Wulanbuhe Desert. For Res 16(1):63–68 (in Chinese)
Chen F, Qiang M, Zhou A, Xiao S, Chen J, Sun D (2013) A 2000-year dust storm record from Lake Sugan in the dust source area of arid China. J Geophys Res-Atmos 118(5):2149–2160
Chen F, Xu Q, Chen J, Birks HJB, Liu J, Zhang S, Jin L, An C, Telford RJ, Cao X, Wang Z, Zhang X, Selvaraj K, Lu H, Li Y, Zheng Z, Wang H, Zhou A, Dong G, Zhang J, Huang X, Bloemendal J, Rao Z (2015) East Asian summer monsoon precipitation variability since the last deglaciation. Sci Rep 5:11186
Chen S, Wang X, Chen J et al (2017) The modern processes of atmospheric dust recorded by sediments from Gonghai Lake, Shanxi, China. J Des Res 37(2):228–236 (in Chinese)
Chu G, Sun Q, Gu Z et al (2009) Dust records from varved lacustrine sediments of two neighboring lakes in northeastern China over the last 1400 years. Quat Int 194(1):108–118
D'Arrigo R, Jacoby G, Wilson R et al (2005a) A reconstructed Siberian High index since A. D. 1599 from Eurasian and North American tree rings. Geophys Res Lett 32(5):L05705
D'Arrigo R, Wilson R, Panagiotopoulos F et al (2005b) On the long-term variability of the East Asian winter monsoon. Geophys Res Lett 32(21):97–116
Deng H, Jiang W, Chen Y et al (2013) The temporal and spatial distribution of dust storms on the North China Plain, AD 1464-1913. Holocene. 23(5):625–634
Ding Y, Liu Y, Liang S, Ma X, Zhang Y, Si D, Liang P, Song Y, Zhang J (2014) Interdecadal variability of the East Asian Winter Monsoon and its possible links to global climate change. J Meteorol Res 28(05):693–713
Gong D, Ho C (2002) The Siberian High and climate change over middle to high latitude Asia. Theor Appl Climatol 72:1–9
Gong D, Mao R, Shi P et al (2007) Correlation between east Asian dust storm frequency and PNA. Geophys Res Lett 34:L14710
Guan Q, Sun X, Yang J, Pan B, Zhao S, Wang L (2017) Dust storms in Northern China: long-term spatiotemporal characteristics and climate controls. J Clim 30(17):6683–6700
Guo L, Fan B, Zhang F et al (2018) The clustering of severe dust storm occurrence in china from 1958 to 2007. J Geophys Res-Atmos 123(15):8035–8046
He Y, Zhao C, Song M, Liu W, Chen F, Zhang D, Liu Z (2015) Onset of frequent dust storms in northern China at similar to AD 1100. Sci Rep 5:17111
Jeong JH, Ou TH, Linderholm HW et al (2011) Recent recovery of the Siberian High intensity. J Geophys Res-Atmos 116:D23102
Jickells TD, An Z, Andersen KK, Baker AR, Bergametti G, Brooks N, Cao JJ, Boyd PW, Duce RA, Hunter KA, Kawahata H, Kubilay N, laRoche J, Liss PS, Mahowald N, Prospero JM, Ridgwell AJ, Tegen I, Torres R (2005) Global iron connections between desert dust, ocean biogeochemistry, and climate. Science. 308(5718):67–71
Jo CO, Lee JY, Park KA et al (2007) Asian dust initiated early spring bloom in the northern East/Japan Sea. Geophys Res Lett 34(5):306–316
Kaufman YJ, Tam D, Dubovik et al (2001) Absorption of sunlight by dust as inferred from satellite and ground-based remote sensing. Geophys Res Lett 28(8):1479–1482
Liu C, Young C, Lee Y (2006) Influence of Asian dust storms on air quality in Taiwan. Sci Total Environ 368(2):884–897
Long X, Tie X, Li G, Cao J, Feng T, Zhao S, Xing L, An Z (2018) Effect of ecological restoration programs on dust concentrations in the North China Plain: A case study. Atmos Chem Phys 18(9):6353–6366
Ma L, Wu J, Abuduwaili J et al (2015) Aeolian particle transport inferred using a similar to 150-year sediment record from Sayram Lake, arid northwest China. J Limnol 74(3):584–593
Maher BA, Prospero JM, Mackie D, Gaiero D, Hesse PP, Balkanski Y (2010) Global connections between aeolian dust, climate and ocean biogeochemistry at the present day and at the last glacial maximum. Earth-Sci Rev 99(1):61–97
Mahowald N (2011) Aerosol indirect effect on biogeochemical cycles and climate. Science. 334(6057):794–796
Mao R, Gong D, Bao J, Fan Y (2011) Possible influence of Arctic oscillation on dust storm frequency in North China. J Geogr Sci 21(2):207–218
McTainsh G, Strong C (2007) The role of aeolian dust in ecosystems. Geomorphology. 89(1–2):39–54
Meng Z, Zhang Q (2006) Oxidative damage of dust storm fine particles instillation on lungs, hearts and livers of rats. Environ Toxicol Pharmacol 22(3):277–282
Meskhidze N, Chameides WL, Nenes A (2005) Dust and pollution: a recipe for enhanced ocean fertilization? J Geophys Res-Atmos 110:D03301
Mikami M, Shi GY, Uno I, Yabuki S, Iwasaka Y, Yasui M, Aoki T, Tanaka TY, Kurosaki Y, Masuda K, Uchiyama A, Matsuki A, Sakai T, Takemi T, Nakawo M, Seino N, Ishizuka M, Satake S, Fujita K, Hara Y, Kai K, Kanayama S, Hayashi M, du M, Kanai Y, Yamada Y, Zhang XY, Shen Z, Zhou H, Abe O, Nagai T, Tsutsumi Y, Chiba M, Suzuki J (2006) Aeolian dust experiment on climate impact: an overview of Japan-China joint project ADEC. Glob Planet Chang 52(1-4):142–172
Qian W, Quan L, Shi S (2002) Variations of the dust storm in China and its climatic control. J Clim 15(10):1216–1229
Qian W, Tang X, Quan L (2004) Regional characteristics of dust storms in China. Atmos Environ 38(29):4895–4907
Qiang M, Chen F, Zhang J, Zu R, Jin M, Zhou A, Xiao S (2007) Grain size in sediments from Lake Sugan: a possible linkage to dust storm events at the northern margin of the Qinghai–Tibetan Plateau. Environ Geol 51(7):1229–1238
Qiang M, Chen F, Wang Z, Niu G, Song L (2010) Aeolian deposits at the southeastern margin of the Tengger Desert (China): implications for surface wind strength in the Asian dust source area over the past 20,000 years. Palaeogeogr Palaeocl 286(1-2):66–80
Rao Z, Jia G, Li Y, Chen J, Xu Q, Chen F (2016) Asynchronous evolution of the isotopic composition and amount of precipitation in north China during the Holocene revealed by a record of compound-specific carbon and hydrogen isotopes of long-chain n -alkanes from an alpine lake. Earth Planet Sci Lett 446:68–76
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(4):181–204
Sokolik IN, Winker DM, Bergametti G, Gillette DA, Carmichael G, Kaufman YJ, Gomes L, Schuetz L, Penner JE (2001) Introduction to special section: outstanding problems in quantifying the radiative impacts of mineral dust. J Geophys Res-Atmos 106(D16):18015–18027
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-Atmos 106(D10):10325–10333
Sun D, An Z, Su R et al (2003) Eolian sedimentary records for the evolution of monsoon and westerly circulations of northern China in the last 2.6 Ma. Sci China 10:1049–1059
Sun D, Bloemendal J, Rea DK, An Z, Vandenberghe J, Lu H, Su R, Liu T (2004) Bimodal grain-size distribution of Chinese loess, and its palaeoclimatic implications. Catena. 55(3):325–340
Ta W, Dong Z, Sanzhi C (2006) Effect of the 1950s large-scale migration for land reclamation on spring dust storms in Northwest China. Atmos Environ 40(30):5815–5823
Tan M, Li X, Xin L (2014) Intensity of dust storms in China from 1980 to 2007: a new definition. Atmos Environ 85:215–222
Tateishi R, Thanh Hoan N, Kobayashi et al (2014) Production of global land cover data - GLCNMO2008. J Geogr Geol 6(3):99–122
Wan D, Jin Z, Zhang F, Song L, Yang J (2016a) Increasing dust fluxes on the northeastern Tibetan Plateau linked with the Little Ice Age and recent human activity since the 1950s. Aeolian Res 23:93–102
Wan D, Song L, Yang J, Jin Z, Zhan C, Mao X, Liu D, Shao Y (2016b) Increasing heavy metals in the background atmosphere of central North China since the 1980s: evidence from a 200-year lake sediment record. Atmos Environ 138:183–190
Wan D, Mao X, Jin Z, Song L, Yang J, Yang H (2019) Sedimentary biogeochemical record in Lake Gonghai: implications for recent lake changes in relatively remote areas of China. Sci Total Environ 649:929–937
Wang X, Dong Z, Zhang J, Liu L (2004) Modern dust storms in China: an overview. J Arid Environ 58(4):559–574
Wang T, Chen G, Zhao H et al (2006) Research progress on Aeolian desertification process and controlling in North of China. J Desert Res 26(4):507–516 ( in Chinese)
Wang X, Zhang C, Hasi E et al (2009) Has the Three Norths Forest Shelterbelt Program solved the desertification and dust storm problems in arid and semiarid China? J Arid Environ 74:13–22
Wang R, Liu B, Li H, Zou X, Wang J, Liu W, Cheng H, Kang L, Zhang C (2017) Variation of strong dust storm events in Northern China during 1978-2007. Atmos Res 183:166–172
Wei A, Meng Z (2006) Effects of dust storm fine particles (PM2.5) on micronuclei formation of human blood lymphocytes. Environ Toxicol Pharmacol 22(3):292–297
Xu J (2017) Reconstructing dust storm frequency in China since 1617 CE, using coral-based estimates of sea surface temperature. Palaeogeogr Palaeocl 479:164–172
Xu K, Yang D, Yang H, Li Z, Qin Y, Shen Y (2015) Spatio-temporal variation of drought in China during 1961–2012: a climatic perspective. J Hydrol 526(3):253–264
Xu B, Wang L, Gu ZY, Hao Q, Wang H, Chu G, Jiang D, Liu Q, Qin X (2018) Decoupling of climatic drying and asian dust export during the holocene. J Geophys Res-Atmos 123(2):915–928
Xu B, Gu Z, Wang L et al (2019) Global warming increases the incidence of haze days in china. J Geophys Res-Atmos 124:1–11
Xue J, Zhong W (2008) Variations in dust event reflected by grain-size component of lacustrine records in droughty area: a case study on Barkol Lake,Xinjiang,China. Acta Sedimentol Sin 26(4):647–654 (in Chinese)
Yang B, Brauning A, Zhang ZY et al (2007) Dust storm frequency and its relation to climate changes in Northern China during the past 1000 years. Atmos Environ 41(40):9288–9299
Yi L, Yu H, Ge J et al (2012) Reconstructions of annual summer precipitation and temperature in north-central China since 1470 AD based on drought/flood index and tree-ring records. Clim Chang 110(1-2):469–498
Yu M, Li Q, Hayes M et al (2014) Are droughts becoming more frequent or severe in China based on the standardized precipitation evapotranspiration index: 1951–2010? Int J Climatol 34(3):545–558
Yutaka T, Zhang D, Atsushi M et al (2010) Asian dust particles converted into aqueous droplets under remote marine atmospheric conditions. PNAS. 107(42):17905–17910
Zhu C, Wang B, Qian W (2008) Why do dust storms decrease in northern China concurrently with the recent global warming? Geophys Res Lett 35(18):L18702
Acknowledgements
We thank Dr. Lei Song, Mr Jinsong Yang, Zhiwei Bi, and Xin Mao at the Institute of Hydrogeology and Environmental Geology for their assistance in field sampling and laboratory analysis.
Funding
This work was supported by the Basic Research Program of Institute of Hydrogeology and Environmental Geology CAGS under Grant (SK201503), Project from the Ministry of Ecology and Environment under Grant (DQGG0104), Natural Science Foundation for Young Scientists of Shanxi Province of China under Grant (201801D221043), and National Natural Science Foundation of China under Grant (41271507).
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Xu, L., Wan, D., Duan, Y. et al. A ~ 230-year dust storm record from China’s Lake Gonghai on the northeast Loess Plateau. Arab J Geosci 14, 1195 (2021). https://doi.org/10.1007/s12517-021-07138-8
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DOI: https://doi.org/10.1007/s12517-021-07138-8