Spring and autumn living coccolithophores in the Bohai Sea and Yellow Sea, China

JIN Hualong; FENG Yuanyuan; LI Xiaoqian; ZHAI Weidong; SUN Jun

doi:10.1007/s13131-015-0712-x

Volume 34 Issue 10

Turn off MathJax

Article Contents

Abstract

References

Article Navigation > Acta Oceanologica Sinica > 2015 > 34(10): 132-146

JIN Hualong, FENG Yuanyuan, LI Xiaoqian, ZHAI Weidong, SUN Jun. Spring and autumn living coccolithophores in the Bohai Sea and Yellow Sea, China[J]. Acta Oceanologica Sinica, 2015, 34(10): 132-146. doi: 10.1007/s13131-015-0712-x

Citation:

JIN Hualong, FENG Yuanyuan, LI Xiaoqian, ZHAI Weidong, SUN Jun. Spring and autumn living coccolithophores in the Bohai Sea and Yellow Sea, China[J]. Acta Oceanologica Sinica, 2015, 34(10): 132-146. doi: 10.1007/s13131-015-0712-x

Citation:

PDF( 91 KB)

Spring and autumn living coccolithophores in the Bohai Sea and Yellow Sea, China

doi: 10.1007/s13131-015-0712-x

1.
College of Marine and Environmental Sciences, Tianjin University of Science and Technology, Tianjin 300457, China;Tianjin Key Laboratory of Marine Resources and Chemistry, Tianjin University of Science and Technology, Tianjin 300457, China
2.
National Marine Environmental Monitoring Center, State Oceanic Administration, Dalian 116023, China

Received Date: 2014-01-23
Rev Recd Date: 2014-04-01

Abstract

Abstract

The living coccolithophores (LCs) are an important class of calcified taxa of phytoplankton functional groups, and major producers of marine biogenic inorganic carbon, playing an important role in the marine carbon cycle. In this study, we report the two-demensional abundance, composition of LCs and its correlation with the environmental parameters in spring and autumn, in order to understand the ecological role of LCs in the Yellow Sea and the Bohai Sea. In spring, totally 9 taxa belonging to coccolithophyceae were identified using a polarized microscope at the 1 000× magnification. The dominant species were Emiliania huxleyi, Gephyrocapsa oceanica, Helicosphaera carteri, and Calcidiscus leptoporus. The abundance of coccosphores and coccoliths ranged 0-7.72 cells/mL, and 0-216.09 coccoliths/mL, with the average values of 0.21 cells/mL, and 11.36 coccoliths/mL, respectively. The Emiliania huxleyi distribution was similar to Gephyrocapsa oceanica. The highest abundance of coccoliths was observed in the east of Shandong Peninsula in northern Yellow Sea, whereas Helicosphaera carteri distributed more widely. Emiliania huxleyi and Gephyrocapsa oceanica were the two predominant species in LCs with higher abundances. The distribution of LCs was similar to that of coccoliths. In autumn, 14 taxa belonging to coccolithophyceae were identified with dominant species as Emiliania huxleyi, Gephyrocapsa oceanica, Helicosphaera carteri, Calcidiscus leptoporus and Oolithotus fragilis. The abundance of coccosphores and coccoliths ranged 0-24.69 cells/mL, and 0-507.15 coccoliths/mL, with the average values of 1.47 cells/mL, and 55.89 coccoliths/mL, respectively. The highest abundance of coccoliths was located in Qingdao coastal waters and south of the survey area. The distribution of LCs was similar to the coccoliths; in addition, LCs presented large abundance in the east of the central Yellow Sea area.
- living coccolithophores,
- Bohai Sea,
- Yellow Sea,
- spring,
- autumn

FullText(HTML)

References(15)

References

Andruleit H, Stäger S, Rogalla U, et al. 2003. Living coccolithophores in the northern Arabian Sea: ecological tolerances and environ-mental control. Mar Micropaleontol, 49(1-2): 157-181

Balch W M. 2004. Re-evaluation of the physiological ecology of coc-colithophores. In: Thierstein H R, Young J R, eds. Coccolitho-phores. Berlin: Springer-Verlag, 165-190

Bollmann J, Cortés M Y, Haidar A T, et al. 2002. Techniques for quantitative analyses of calcareous marine phytoplankton. Marine Micropaleontology, 44(3-4): 163-185

Brownlee C, Taylor A2004. Calcification in coccolithophores. In: Theirstein H R, Young J R, eds. Coccolithophore from Molecu-lar Process to Global Impacts. Berlin: Springer-Verlag, 31-50

Chen Y-L L, Chen H-Y, Chung C-W. 2007. Seasonal variability of coc-colithophore abundance and assemblage in the northern South China Sea. Deep-Sea Res Pt II, 54(14-15): 1617-1633

Field C B, Behrenfeld M J, Randerson J T, et al. 1998. Primary produc-tion of the biosphere: integrating terrestrial and oceanic com-ponents. Science, 281(5374): 237-240

Mohan R, Mergulhao L P, Guptha M V S, et al. 2008. Ecology of cocco-lithophores in the Indian sector of the Southern Ocean. Mar Micropaleontol, 67(1-2): 30-45

Okada H, Honjo S. 1975. Distribution of coccolithophores in Margin-al Seas along the Western Pacific Ocean and in Red Sea. Mar Biol, 31(3): 271-285

Sun Jun, An Baizheng, Dai Minhan, et al. 2011. Living coccolitho-phores in the Western South China Sea in Summer 2007. Oceanologia et Limnologia Sinica (in Chinese), 42(2): 170-178

Sun Jun, Gu Xiaoyao, Feng Yuanyuan, et al. 2014. Summer and winter living coccolithophores in the Yellow Sea and the East China Sea. Biogeosciences, 11(3): 779-806

Sun Jun, Jin Shaofei. 2011. Species diversity of living coccolitho-phores in Chinese sea waters. Biodiversity Science (in Chinese), 19(6): 787-797

Sun Jun, Liu Dongyan, Ning Xiuren. 2003. Phytoplankton in the Pry-dz Bay and the adjacent indian sector of the Southern Ocean during the Austral Summer 2001/2002. Oceanologia et Limno-logia Sinica (in Chinese), 34(5): 519-532

Wen Tingting. 2010. Nutrient distribution characteristics in the East China Sea and the Yellow Sea and the preliminary study of up-welling cold vortex in northeastern Taiwan (in Chinese) [disser-tation]. Qingdao: Ocean University of China

Winter A, Rost B, Hilbrecht H, et al. 2002. Vertical and horizontal dis- tribution of coccolithophores in the Caribbean Sea. Geo-Mar Lett, 22(3): 150-16

Yang T-N, Wei K-Y, Chen M-P, et al. 2004. Summer and winter distribution and malformation of coccolithophores in the East China Sea. Micropaleontology, 50(S1): 157-170

Relative Articles

Relative Articles

Supplements(0)

Cited By

Cited by

Periodical cited type(4)

1.	Si-qing Yu, Tian-qi Xiong, Wei-dong Zhai. Quasi-Synchronous Accumulation of Apparent Oxygen Utilization and Inorganic Carbon in the South Yellow Sea Cold Water Mass From Spring to Autumn: The Acidification Effect and Roles of Community Metabolic Processes, Water Mixing, and Spring Thermal State. Frontiers in Marine Science, 2022, 9 doi:10.3389/fmars.2022.858871
2.	Haijiao Liu, Misun Yun, Xiaodong Zhang, et al. Biological Calcification Rate and Species‐Specific Contributions of Coccolithophores to Total Calcite Inventory in the Eastern Indian Ocean. Journal of Geophysical Research: Biogeosciences, 2020, 125(8) doi:10.1029/2019JG005547
3.	Xiujun Wang, Jun Yu, Hang Fan. Spatial and seasonal variability of surface particulate inorganic carbon and relationship with particulate organic carbon in the Yellow-Bohai Sea. Journal of Oceanography, 2020, 76(5): 327. doi:10.1007/s10872-020-00547-5
4.	Jelena Godrijan, Jeremy R. Young, Daniela Marić Pfannkuchen, et al. Coastal zones as important habitats of coccolithophores: A study of species diversity, succession, and life‐cycle phases. Limnology and Oceanography, 2018, 63(4): 1692. doi:10.1002/lno.10801

Other cited types(0)

Proportional views

Proportional views

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Get Citation

PDF

XML

Article Metrics

Article views (1437) PDF downloads(1603)

Spring and autumn living coccolithophores in the Bohai Sea and Yellow Sea, China

doi: 10.1007/s13131-015-0712-x

Abstract

References

Relative Articles

Cited by

Periodical cited type(4)

Other cited types(0)

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Article Metrics

Proportional views

Related

Spring and autumn living coccolithophores in the Bohai Sea and Yellow Sea, China

doi: 10.1007/s13131-015-0712-x

Abstract

References

Relative Articles

Cited by

Periodical cited type(4)

Other cited types(0)

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Article Metrics

Proportional views

Related

Export File

Citation

Format

Content