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Nitrogen and phosphorus intake by phytoplankton in the Xiamen Bay

Nitrogen and phosphorus intake by phytoplankton in the Xiamen Bay
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摘要 This paper describes a time series experiment examining the nitrogen and phosphorus intake of natural phytoplankton communities by a microcosms approach.Seawater samples containing natural phytoplankton communities were collected from waters around Baozhu Islet in inner Xiamen Bay and around Qingyu Islet in the outer bay.The goal was to elucidate the relationship between phytoplankton population enhancement,the biological removal of nitrogen and phosphorus from the seawater,and the phytoplankton nitrogen and phosphorus intake ratio based on nitrogen and phosphorus removal from seawater by phytoplankton,to provide a basis for detecting prewarning conditions for red tide and the assessment of red tide events.Two key results were obtained:1.During the experiment,the nitrogen and phosphorus seawater concentrations in samples from these two sites were negatively and closely correlated to the logarithm of the phytoplankton cell concentration and to the value of the apparent oxygen increment.The ratio of the intake coefficients was 3.5:1 for phosphorus and 1.1:1 for nitrogen for the phytoplankton between these samples from around Baozhu Islet and Qingyu Islet,respectively.This indicates that the intake capabilities of phytoplankton for nitrogen in the two waters are essentially identical.However,for phosphorus,the capability was much higher in the Baozhu Islet waters than the Qingyu Islet waters.In other words,the phytoplankton in Qingyu Islet waters produced more biomass while consuming the same amount of phosphorus as the other waters;2.The phytoplankton nitrogen and phosphorus intake ratio from the Baozhu Islet and Qingyu Islet waters was 20:1 and 36:1,respectively.The latter waters had a significantly higher ratio than the former and both were higher than the Redfield Ratio.These results indicate that nitrogen and phosphorus intake ratios by phytoplankton can vary significantly from region to region. This paper describes a time series experiment examining the nitrogen and phosphorus intake of natural phytoplankton communities by a microcosms approach. Seawater samples containing natural phytoplankton communities were collected from waters around Baozhu Islet in inner Xiamen Bay and around Qingyu Islet in the outer bay. The goal was to elucidate the relationship between phytoplankton population enhancement, the biological removal of nitrogen and phosphorus from the seawater, and the phytoplankton nitrogen and phosphorus intake ratio based on nitrogen and phosphorus removal from seawater by phytoplankton, to provide a basis for detecting prewarning conditions for red tide and the assessment of red tide events. Two key results were obtained: 1. During the experiment, the nitrogen and phosphorus seawater concentrations in samples from these two sites were negatively and closely correlated to the logarithm of the phytoplankton cell concentration and to the value of the apparent oxygen increment. The ratio of the intake coefficients was 3.5:1 for phosphorus and 1.1:1 for nitrogen for the phytoplankton between these samples from around Baozhu Islet and Qingyu IsLet, respectively. This indicates that the intake capabilities of phytoplankton for nitrogen in the two waters are essentially identical. However, for phosphorus, the capability was much higher in the Baozhu Islet waters than the Qingyu Islet waters. In other words, the phytoplankton in Qingyu Islet waters produced more biomass while consuming the same amount of phosphorus as the other waters; 2. The phytoplankton nitrogen and phosphorus intake ratio from the Baozhu Islet and Qingyu Islet waters was 20:1 and 36:1, respectively. The latter waters had a significantly higher ratio than the former and both were higher than the Redfield Ratio. These results indicate that nitrogen and phosphorus intake ratios by phytoplankton can vary significantly from region to region.
出处 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2010年第1期99-105,共7页 中国海洋湖沼学报(英文版)
基金 Supported by the Commonweal Program for the Institute (No. 2004DIB3J084) 908 Project (No. 02-02-01 special subject) the Program of Chinese Marine Chemistry Investigation and Research (No. 908-ZC-I-03)
关键词 Xiamen Bay PHYTOPLANKTON inorganic nitrogen PHOSPHORUS nitrogen and phosphorus intakeby phytoplankton 浮游植物群落 磷去除 摄入量 厦门湾 实验研究方法 海水样品 比例关系
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  • 1Zhang Z B(张正斌) Zhang Z B Chen Z D and Liu L S et al(张正斌 陈镇东 刘莲生 等).Marine biogenic matter and primary productivity [A](海洋生源物质与初级生产力[A])[A].Zhang Z B, Chen Z D and Liu L S,et al(张正斌,陈镇东,刘莲生,.Principals and Applications of Marine Chemistry[C](海洋化学原理和应用[C])[C].Beijing:China Ocean Press(北京:海洋出版社),1999.157- 201.
  • 2张正斌 张正斌 陈镇东 刘莲生 等.海洋生源物质与初级生产力[A].张正斌,陈镇东,刘莲生,等.海洋化学原理和应用[C].北京:海洋出版社,1999.157—201.
  • 3安达六郎.赤潮生物と赤潮实态[J].水产土木,1973,9(1):31-36.
  • 4Chen C T, Gong G C, Wang, S L, et al. Refield ratios and regeneration rates of particulate matter in the Sea of Japan as a model of closed system[J]. Geophys. Res. Lett., 1996, 23(14): 1785-1788.
  • 5Redfield A C, Ketchum B H and Rechards F A. The influence of organisms on the composition of seawater[A]. Hill M N. The Sea.Vol. 2[C]. New York : Interscience, 1963. 26-77.
  • 6Anderson L A. On the hydrogen and oxygen content of marine phytoplankton [J]. Deep-Sea Res. , 1995, 42(9) : 1675-1680.
  • 7Parsons T and Takahashi M. Biological Oceanographic Processes[M]. Oxford: Pergamon,1973.
  • 8Dyrssen D. The chemistry of plankton production and decomposition in seawater[A]. Anderson N R and Zahuranec B J. Oceanic Sound Scattering Prediction[C]. New York: Plenum, 1977. 65-84.
  • 9Lerman A. Geochemical Processes-Water and Sediment Environments[M]. New York: Wiley, 1979.
  • 10Wollast R, Mackenzie F T and Chou L. Interactions of C, N, P and S Biogeochemical Cycles and Global Change[M]. N. Atlantic Treaty Org. Adv. Stud. Inst. Ser[C]. Berlin: Springer, 1993. 521.

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