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不同氮浓度对红色赤潮藻(Akashiwo sanguinea)生长、孢囊形成和生源要素组成的影响
王晓婷1, 黄健1, 刘云2,3,4, 宋书群2,3,4, 李才文2,3,4
1.中国海洋大学海洋生命学院 青岛 266003;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;3.青岛海洋科学与技术试点国家实验室 海洋生态与环境科学功能实验室 青岛 266237;4.中国科学院海洋大科学研究中心 青岛 266071
摘要:
为阐明红色赤潮藻(Akashiwo sanguinea)对氮营养条件的适应机制,本研究在不同氮浓度条件下对红色赤潮藻进行一次性培养,系统研究了氮浓度对红色赤潮藻生长、休眠孢囊形成和细胞生源要素组成的影响。结果显示,红色赤潮藻生长率随着初始氮浓度的增加而增大,200 μmol/L氮添加组生长率最大,为0.79/d。不同氮处理组细胞形态存在差异,低氮条件下藻细胞个体变小。培养第6天,各氮处理组均观察到休眠孢囊,且随着培养时间的延长,孢囊数量逐渐增多;50 μmol/L氮添加组孢囊形成率最高,为2.95%±0.16%。氮浓度对红色赤潮藻细胞生源要素组成有显著影响,红色赤潮藻胞内碳、氮含量随氮浓度的升高而增加,其C:N:P也随氮浓度的增加而增加。红色赤潮藻生长过程中,加氮处理组细胞在指数期碳、氮、磷含量较低,稳定期含量较高;相关性分析表明,红色赤潮藻胞内碳、氮、磷含量与藻生长率之间呈显著负相关关系(P<0.05)。不同氮浓度对红色赤潮藻的生长、休眠孢囊形成和藻细胞生源要素组成有显著影响,为揭示红色赤潮藻对氮营养条件的适应机制提供参考。
关键词:  红色赤潮藻  氮浓度  藻生长  休眠孢囊  生源要素组成
DOI:10.11693/hyhz20201200339
分类号:X55
基金项目:山东省重大科技创新工程专项,2018SDKJ0504-2号;国家自然科学基金,41976136号。
EFFECTS OF NITROGEN NUTRITION ON THE GROWTH, ENCYSTMENT AND BIOGENIC ELEMENTS COMPOSITION OF AKASHIWO SANGUINEA
WANG Xiao-Ting1, HUANG Jian1, LIU Yun2,3,4, SONG Shu-Qun2,3,4, LI Cai-Wen2,3,4
1.College of Marine Life Sciences, Ocean University of China, Qingdao 266003, China;2.CAS Key Laboratory of Marine Ecology and Environmental Sciences, Institute of Oceanology, Chinese Academy of Science, Qingdao 266071, China;3.Laboratory for Marine Ecology and Environmental Science, Pilot National Laboratory for Marine Science and Technology (Qingdao), Qingdao 266237, China;4.Center for Ocean Mega-Science, Chinese Academy of Sciences, Qingdao 266071, China
Abstract:
To classify the adaption mechanism of Akashiwo sanguinea to nitrogen, a batch culture of A. sanguinea was carried out in different nitrogen concentrations. Changes in growth, resting cyst formation, and biogenic element composition were studied. The results show that the specific growth rate of A. sanguinea increased with the increasing of nitrogen addition. The highest specific growth rate 0.79/d was achieved in 200 μmol/L N-added treatment. Different cellular morphology was shown in different nitrogen conditions. Under low nitrogen conditions, the individual algae cells become smaller. On the 6th day of culture, resting cysts were observed in each nitrogen treatment group, and the number gradually increased with the extension of the culture time; the 50 μmol/L N-added treatment had the highest cyst formation rate at 2.95%±0.16%. Furthermore, the biogenic element composition changed significantly under different nitrogen concentrations. The C and N content in A. sanguinea increased with the increase of nitrogen concentration, and its C:N:P also increased with the increase of nitrogen concentration. During the growth of A. sanguinea, the cellular content of C and N was lower in the exponential phase, while the content was higher in the stationary phase. The Pearson's correlation analysis indicated that cellular C, N, and P contents correlated negatively with the growth rate of A. sanguinea (P<0.05). Different nitrogen concentrations had significant effects on the growth, resting cyst formation, and biogenic elements composition of A. sanguinea. This study provided a reference for revealing the adaptation mechanism of A. sanguinea to a different condition of nitrogen nutrition.
Key words:  Akashiwo sanguinea  nitrogen concentration  growth  resting cysts  biogenic elements composition
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