Marine Geology

Pollen distribution in marine surface sediments of Guangdong coast and southeast Hainan Island and its environmental significance

  • Luo-Chuan-Xiu ,
  • Chen-Mu-Hong ,
  • Liu-Jian-Guo ,
  • Zhang-Lan-Lan ,
  • Xiang-Rong ,
  • Liu-Jun
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  • Key Laboratory of Marginal Sea Geology , South China Sea Institute of Oceanology , Chinese Academy of Sciences , Guangzhou 510301, China

Received date: 2010-10-14

  Revised date: 2010-12-13

  Online published: 2012-06-05

Abstract

In order to investigate the relationship between pollen distribution of marine surface sediments, pollen transmission mechanisms and vegetation, climate of pollen source areas, we conducted field sampling, laboratory experiments, calculation of pollen percentage and pollen concentration in this study. Our goal is to provide a reliable basis for paleoenvironmental research in the South China Sea. We analyzed the distribution of pollen in the surface sediments of Guangdong coast and southeast Hainan Island as recorded in the 40 samples from the area 108°34 ′ 12 ″ - 120°E and 17° - 23°43 ′ 12 ″ N at water depths of 37 - 3370m, focusing on the sea area along Guangzhou coast that has not been involved in surface pollen analysis before. It is found that pollen percentage of herbs (Poaceae, Artemisia, Chenopodiaceae and Brassiceae ) is low and the higher pollen percentage occurs in the sea area near Guangdong, probably related to tropic and subtropic grassland, cultivated rice, sugarcane and vegetable along the coast of Guangdong. The Pinus pollen percentage was relatively high (20%) and was transported over longer distance. It is revealed that Artemisia, Chenopodiaceae and Brassiceae were transported from north to south by the winter ocean current, while Pinus was transported by the winter monsoon. The high percentage of Trilete-spore (60%) in the surface sediments near the shore was probably related to human activities . Most pollen of tropical and subtropical broad-leaved trees ( Castanopsis, Quercus ) found in the northern part of the SCS occurred in low percentage. The pollen of Guangdong coast, such as Castanopsis, Quercus, and Trilete-spore, came from Hainan Island and Guangdong coast, probably was transported by rivers and coastal ocean currents. The higher percentage of Monolete-spore and Cyperaceae in the surface sediments occurred near the Pearl River Estuary , implying a fluvial discharge from the Pearl River.

Cite this article

Luo-Chuan-Xiu , Chen-Mu-Hong , Liu-Jian-Guo , Zhang-Lan-Lan , Xiang-Rong , Liu-Jun . Pollen distribution in marine surface sediments of Guangdong coast and southeast Hainan Island and its environmental significance[J]. Journal of Tropical Oceanography, 2012 , 31(2) : 55 -61 . DOI: 10.11978/j.issn.1009-5470.2012.02.008

References

NAUGHTON F, SANCHEZ G M F, DESPRAT S, et al. Present-day and past (last 25000 years) marine pollen signal off western Iberia[J]. Marine Micropaleontology, 2007, 62 (2): 91-114. ROE H M, VAN DE PLASSCHE O. Modern pollen distribution in a Connecticut saltmarsh: Implications for studies of sea-level change[J]. Quaternary Science Reviews, 2005, 24: 2030-2049. HOOGHIEMSTRA H, LEZINE A, LEROY S, et al. Late Quaternary palynology in marine sediments: A synthesis of the understanding of pollen distribution patterns in the NW African setting[J]. Quaternary International, 2006, 148: 29-44. VAN DER KAARS S. DECKKER D P. Pollen distribution in marine surface sediments offshore Western Australia[J]. Review of Palaeobotany and Palynology, 2003, 124, 1-2: 113-129. VAN DER KAARS S. Pollen distribution in marine sediments from the south-eastern Indonesian waters[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 2001, 171, 3: 341-361. 王开发, 李夫真. 黄海沉积孢粉藻类组合[M]. 北京: 海洋出版社, 1987: 9-23. 孙湘君, 李逊. 南海现代花粉传播动力与途径在南北海域的差异[J]. 中国科学: D 辑, 1997, 27(6): 494-498. 孙湘君, 罗运利, 陈怀成. 中国第四纪深海孢粉研究进展[J]. 科学通报, 2003, 48(15): 1613-1621. 张玉兰, 张卫东, 王开发, 等. 南海东北部表层沉积的孢粉与陆缘植被关系的研究[J]. 海洋通报, 2002, 21(4): 28-36. 陈炽新, 邓韫, 郑卓, 等. 香港-大亚湾近岸海域表层沉积物的孢粉分布规律[J]. 热带海洋学报, 2004, 23(2): 75-81. 中国科学院南沙综合科学考察队. 南沙群岛及其邻近海区综合调查研究报告(一): 下卷[R]. 北京: 科学出版社, 1989. 1-820. SARNTHEIN M, PLAUMANN U, WANG P, et al. Preliminary report on Sonne-95 cruse “monitor monsoon” to the South China Sea[R]. Bonn, Germany: Geol-Palaont Inst Uni Kiel, 1994, 68: 1-125. 张玉兰, 龙江平. 海南岛周边近海表层沉积中的孢粉及其与周边植被的关系[J]. 海洋学研究, 2007, 25(3): 23-31. SHAW P T, CHAO S Y. Surface circulation in the South China Sea[J]. Deep-Sea Research, Part 1: Oceanographic Research Papers, 1994, 41(11/12): 1663-1663. CHAO S, SHAW P, WANG J. Wind relaxation as a possible cause of the South China Sea Warm Current [J]. Journal of Oceanography, 1995, 51: 111-132. 吴征镒, 中国植被[M]. 北京: 科学出版社. 1995: 1-1382. 郭志华, 肖文发, 蒋有绪. 海南岛植被景观的斑块特征[J].林业科学, 2004, 40(2): 9-15.
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