Abstract
Pollen grains deposited in marine sediments are transported from land to sea by wind or surface water flows. We analyzed pollen collected from the air and seawater from the coast of the Yellow Sea near China and into the western Pacific Ocean between December 2008 and January 2009 during the cruise “KX08-973”. Results showed that abundant pollen grains of Artemisia and Chenopodiaceae were probably transported to the continental shelf of the East China Sea, the East Philippine Sea and the equatorial regions of the Pacific Ocean by the winter monsoon. Some pollen may have even traveled over 2000 km from the East Asia continent to the tropical Pacific Ocean. However, a gradual decline of temperate components and an increase in tropical components was observed towards the tropical regions. Fern spores were rare in the air samples, but much more abundant in seawater samples, even though they were collected in nearly the same areas, which indicates that most fern spores were carried to the ocean by flowing water. These results suggest that the winter monsoon may be the major pollen carrier and transporter in the study area during winter.
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References
Sun X J, Li X, Beug H J. Pollen distribution in hemipelagic surface sediments of the South China Sea and its relation to modern vegetation distribution. Mar Geol, 1999, 156: 211–226
van der Kaars S. Pollen distribution in marine sediments from the south-eastern Indonesian waters. Palaeogeogr Palaeoclimatol Palaeoecol, 2001, 171: 341–361
van der Kaars S, Deckker D P. Pollen distribution in marine surface sediments offshore Western Australia. Rev Palaeobot Palyno, 2003, 124: 113–129
Lézine A M, Hooghiemstra H. Land-sea comparisons during the last glacial-interglacial transition: Pollen records from West Tropical Africa. Palaeogeogr Palaeoclimatol Palaeoecol, 1990, 79: 313–331
Celia B, Jean P S, Gilles E, et al. The significance of pollen signal in present-day marine terrigenous sediments: The example of the Gulf of Lions (western Mediterranean Sea). Geobios, 2007, 40: 159–172
Farley M B. Palynomorphs from surface water of the eastern and central Caribbean Sea. Micropaleontology, 1987, 33: 254–262
Calleja M, Rossignol-Strick M, Duzer D. Atmospheric pollen content off West Africa. Rev Palaeobot Palyno, 1993, 79: 335–368
Waisel Y, Ganor E, Epshtein V, et al. Airborne pollen, spores, and dust across the East Mediterranean Sea. Aerobiologia, 2008, 24: 125–131
Romero O E, Dupont L, Ulrike W, et al. Temporal variability of fluxes of eolian-transported freshwater diatoms, phytoliths, and pollen grains off Cape Blanc as reflection of land-atmosphere-ocean interactions in northwest Africa. J Geophy Res, 2003, 108: 3153–3164
Ding Z L, Yu Z W. Forcing mechanisms of Paleomonsoons over East Asia (in Chinese with English abstract). Quat Sci, 1995, 1: 63–74.
Wang P X. Global monsoon in a geological perspective. Chin Sci Bull, 2009, 54: 1113–1136.
Sun X J, Li X. A pollen record of the last 37 ka in deep sea core 17940 from the northern slope of the South China Sea. Mar Geol, 1999, 156: 227–244
Sun X J, Li X, Luo Y L, et al. The vegetation and climate at the last glaciation on the emerged continental shelf of the South China Sea. Palaeogeogr Palaeoclimatol Palaeoecol, 2000, 160: 301–316
Sun X J, Luo Y L. Pollen record of the last 280 ka from deep sea sediments of the northern South China Sea. Sci China Ser D-Earth Sci, 2001, 44: 879–888
Sun X J, Luo Y L, Huang F. Deep-sea pollen from the South China Sea: Pleistocene indicators of East Asian monsoon. Mar Geol, 2003, 201: 97–118
Luo Y L, Sun X J. Vegetation evolution and millennial-scale climatic fluctuations since Last Glacial Maximum in pollen record from northern South China Sea. Chin Sci Bull, 2005, 50: 793–799
Deng Y, Zheng Z, Suc J P, et al. Pollen assemblages of the Last Glacial Maximum in Okinawa trough and their implication on paleoenvironment (in Chinese with English abstract). Earth Sci-J Chin Univ Geosci, 2005, 30: 597–603
Liu J L, Wang W M. A discussion on the vegetation types during LGM time in south China (in Chinese with English abstract). Quat Sci, 2004, 24: 213–216
Sun X J, Luo Y L. From pollen record to paleovegetation: Reply to “a discussion on the vegetation types during LGM time in south China” (in Chinese with English abstract). Quat Sci, 2004, 24: 217–221
Xu H Y, Chang F M, Luo Y L, et al. Palaeoenvironmental changes from pollen record in deep sea core PC-1 from northern Okinawa Trough, East China Sea during the past 24 ka. Chin Sci Bull, 2009, 54: 3739–3748
Zhou S Z. Climatology and Meteorology (in Chinese). 3rd ed. Beijing: Higher Education Press, 1997. 200–227
Wu J H, Zhang S, Jiang Y, et al. Geobotany (in Chinese). 4rd ed. Beijing: Higher Education Press, 2006. 256–315
Chen L X, Zhu Q G, Luo H B. East Asian Monsoon (in Chinese). Beijing: China Meteorological Press, 1991. 304–327
National Meteorological Center of China Meteorological Administration. Marine Climatological Atlas for Continental and Adjacent Sea Areas of China (in Chinese). Beijing: China Meteorological Press, 1995. 2–3
Draxler R P, Hess G D. An overview of the HYSPLIT_4 modeling system for trajectories, dispersion and deposition. Aust Meteorol Mag, 1998, 47: 295–308
Gassmann M I, Pérez C F. Trajectories associated to regional and extraregional pollen transport in the southeast of Buenos Aires province, Mar del Plata (Argentina). Int J Biometeorol, 2006, 50: 280–291
Rousseau D D, Schevin P, Duzer D, et al. New evidence of long distance pollen transport to southern Greenland in late spring. Rev Palaeobot Palyno, 2006, 141: 277–286
Makra L, Pálft S. Intra-regional and long-range ragweed pollen transport over southern hungary. Acta Clinica Croatica, 2007, 41: 69–77
Wang K F, Sun Y H, Zhang Y L. The Spore-Pollen and Algal Assemblage in The East China Sea Sediments (in Chinese). Beijing: China Ocean Press, 1987. 10–80
Wang K F, Yu X R. The Spore-Pollen and Algal Assemblage and Algal Assemblages in the Sediments of the Bohai Sea and Palaeoenvironments (in Chinese). Beijing: Geological Publishing House, 1993. 8–105
Meng G L, Wang S Q. Studies on quaternary sporo-pollen assemblage and paleoclimate based on Bohai sea core Bc-1. Chin J Oceanol Limnol, 1989, 7: 368–381
Xiao X Y, Xiao J Y, Chen Y. Research on Sporopollen of Surface Sediment from Haizhou Bay of Jiangsu Province in China (in Chinese with English abstract). Geogr Terri Res, 2002, 18: 83–86
Uematsu M, Duce R A, Prospero J M, et al. Transport of mineral aerosol from Asia over the North Pacific Ocean. J Geophys Res, 1983, 88: 5343–5352
Zhou M, Okada K, Qian F, et al. Characteristics of dust-storm particles and their long-range transport from China to Japan-Case studies in April 1993. Atmos Res, 1996, 40: 19–31
Husar R B, Tratt D M, Schichtel B A, et al. Asian dust events of April 1998. J Geophys Res, 2001, 106: 317–330
Jaffe D, Snow J, Cooper O, et al. The 2001 Asian dust events: Transport and impact on surface aerosol concentrations in the US. Eos, 2003, 84: 501–516
Lin Y R. On the floristics of Artemisia L. in the world. Bull Bot Res, 1995, 15: 1–37
Weng C Y, Sun X J, Chen Y S. Numerical characteristics of pollen assemblages of surface samples from the west Kunlun mountains (in Chinese with English abstract). Acta Bot Sin, 1993, 35: 69–79
Liu H Y, Cui H T, Pott R, et al. The surface pollen of the woodland- steppe ecotone in southeastern Inner Mongolia, China. Rev Palaeobot Palyno, 1999, 105: 237–250
Li Y Y, Zhang X S, Zhou G S. Quantitative relationships between vegetation and several pollen taxa in surface soil from North China. Chin Sci Bull, 2000, 45: 1519–1523
Li Y C, Xu Q H, Yang X L, et al. Pollen assemblages of major steppe communities in China (in Chinese with English abstract). Acta Ecol Sin, 2005, 25: 555–564
Xu Q H, Li Y C, Yang X L, et al. Quantitative relationship between pollen and vegetation in northern China. Sci China Ser D-Earth Sci, 2007, 50: 582–599
Zhan B L, Chen S H, Zhang H. The characteristics ecological and geographical distribution of Artemisia feigida (in Chinese with English abstract). J Inner Mongola Inst Agr, 1999, 20: 1–7
Zheng Z, Huang K Y, Deng Y, et al. Dust pollen distribution on a continental scale and its relation to present-day vegetation along north-south transects in east China. Sci China Ser D-Earth Sci, 2007, 50: 236–246
Zhang Z L, Nie X H, Liu E F, et al. The accumulation records of environmental evolution on the salt-water intruded area south of Laizhou Bay since late Pleistocene (in Chinese with English abstract). Geol Res, 2005, 24: 105–112
Wang Y. Evolution sequences of palaeovegetation and palaeoclimate in the Caofeidian area since last stage of the late Pleistocene epoch (in Chinese with English abstract). Mar Geol Quat, 2000, 20: 87–92
Yi S, Saito Y, Oshima H, et al. Holocene environmental history inferred from pollen assemblages in the Huanghe (Yellow River) delta, China: Climatic change and human impact. Quat Sci Rev, 2003, 22: 609–628
Gregory P H. Distribution of airborne pollen and spores and their long distance transport. Pageoph, 1978, 116: 309–315
Kappen L, Straka H. Pollen and spores transport into the Antarcric. Pol Biol, 1988, 8: 173–180
Campbell I D, McDonald K, Flannigan M D, et al. Long-distance transport of pollen into the Arctic. Nature, 1999, 399: 29–30
Rousseau D D, Schevin P, Duzer D, et al. Pollen transport to southern Greenland: New evidences of a late spring long distance transport. Biogeosci Discuss, 2005, 2: 829–847
Wang K F, Jiang H, Zhang Y L. Quaternary Spores, Pollen and Algae from the Nanhai Sea and the Coastal Region and their Environments (in Chinese). Shanghai: Tongji University Press, 1990. 55–79
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Dai, L., Weng, C. A survey on pollen dispersal in the western Pacific Ocean and its paleoclimatological significance as a proxy for variation of the Asian winter monsoon. Sci. China Earth Sci. 54, 249–258 (2011). https://doi.org/10.1007/s11430-010-4027-7
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DOI: https://doi.org/10.1007/s11430-010-4027-7