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沙海蜇(Nemopilema nomurai)模拟消亡过程中氮与磷的释放
引用本文:李学刚,李 宁,马清霞,袁华茂,段丽琴,宋金明.沙海蜇(Nemopilema nomurai)模拟消亡过程中氮与磷的释放[J].海洋与湖沼,2012,43(3):507-512.
作者姓名:李学刚  李 宁  马清霞  袁华茂  段丽琴  宋金明
作者单位:1. 中国科学院海洋研究所海洋生态与环境科学重点实验室,青岛,266071
2. 中国科学院海洋研究所海洋生态与环境科学重点实验室,青岛266071 中国科学院研究生院,北京100049
基金项目:国家重点基础研究发展计划(973)项目, 2011CB403602 号, “海洋环境变化与水母暴发的相互作用”; 国家自然科学基金委员会创新群体项目, 41121064 号
摘    要:在实验室内模拟研究了沙海蜇消亡过程中氮与磷的释放特征。模拟结果表明:沙海蜇消亡过程中向水体释放氮、磷可分为两个阶段,且氮的释放速率比磷高一个数量级。在沙海蜇消亡的初期阶段,水体中溶解态氮、磷和总氮、总磷的浓度迅速增高,氮可以达到其消亡过程中的最高浓度;在后期阶段,水体中溶解态氮和总氮的浓度不断下降,但水体中的磷在这一阶段达到消亡过程中的最高浓度碱性条件有利于氮的释放,酸性条件有利于磷的释放;盐度越高氮与磷的释放速率越小;温度对氮、磷的释放影响不大;水体中氮与磷含量越高,沙海蜇消亡的速度越慢,而且氮的浓度越高,氮与磷释放到水体中的速率就越慢。

关 键 词:沙海蜇  氮与磷  释放速率  模拟实验
收稿时间:2011/12/31 0:00:00
修稿时间:2012/2/28 0:00:00

NITROGEN AND PHOSPHORUS RELEASE FROM NEMOPILEMA NOMURAI IN SIMULATED DECOMPOSITION
LI Xue-Gang,LI Ning,MA Qing-Xi,YUAN Hua-Mao,DUAN Li-Qin and SONG Jin-Ming.NITROGEN AND PHOSPHORUS RELEASE FROM NEMOPILEMA NOMURAI IN SIMULATED DECOMPOSITION[J].Oceanologia Et Limnologia Sinica,2012,43(3):507-512.
Authors:LI Xue-Gang  LI Ning  MA Qing-Xi  YUAN Hua-Mao  DUAN Li-Qin and SONG Jin-Ming
Institution:Institute of Oceanology, Chinese Academy of Science;Institute of Oceanology, Chinese Academy of Science;Institute of Oceanology, Chinese Academy of Science;Graduate School, Chinese Academy of Science;Institute of Oceanology, Chinese Academy of Science;Institute of Oceanology, Chinese Academy of Science;Institute of Oceanology, Chinese Academy of Science
Abstract:Jellyfish populations grew rapidly to attain large biomasses and therefore represent significant stocks of carbon and nitrogen in the ecosystem.Blooms were also generally short-lived,lasting for just weeks or months,after which time the population decline rapidly,sink and decompose.The releases of nitrogen and phosphorus from decomposing Nemopilema nomurai were examined in a series of experiments at different pH values,salinities,temperatures and nitrogen and phosphorus concentrations as incubate conditions.The release of nitrogen and phosphorus from decomposing N.nomurai could be divided into two stages,but the releases of nitrogen and phosphorus were quite different,and the nitrogen effluxed at rates more than one order greater than phosphorus.In the early stages of N.nomurai decomposition,the concentrations of dissolved nitrogen,dissolved phosphorus,total nitrogen and total phosphorus in sea water increased rapidly.The concentration of nitrogen was highest in the whole degradation process,which dissolved nitrogen reached 1042μmol/L,total nitrogen reached 1650μmol/L,dissolved nitrogen release rates reached 44.8mg/(kg.d),total nitrogen release rates reached 56mg/(kg.d),DN/DP ratio increased rapidly and reached maximum 229:1.In the later stages of N.nomurai decomposition,the concentration of dissolved nitrogen and total nitrogen continues to decline,while the phosphorus concentration in water can reach the maximum concentration during the degradation process,which dissolved phosphorus reached 28.2μmol/L,total phosphorus reached 37.9μmol/L,dissolved phosphorus release rates reached 3.14mg/(kg.d),total phosphorus release rates reached 4.4mg/(kg.d),the DN/DP ratio decreased rapidly to 24:1 and gradually stabilized.Sea water pH had different influence on the release of nitrogen and phosphorus.Alkaline conditions favor the release of nitrogen,and acidic conditions favor the release of phosphorus.The nitrogen and phosphorus release rates increased with the salinity of sea water,and the amount of nitrogen and phosphorus released increased with their rates.Temperature had little impact on the release of nitrogen and phosphorus during the process of N.nomurai decomposition.The content of nitrogen and phosphorus in sea water had significant impact on the release of nitrogen and phosphorus.The rate of N.nomurai decomposition decreased with the increase of nitrogen and phosphorus content in sea water.The nitrogen and phosphorus release rates decreased with the increase of the concentration of nitrogen.So the rate of nitrogen and phosphorus release would be slowed during the process of N.nomurai decomposition in the eutrophication sea water.
Keywords:Nemopilema nomurai  Nitrogen and phosphorus  Release rate  Simulation test
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