GeO<sub>2</sub>对海带幼孢子体培育过程中硅藻污染的抑制效应

李涛; 王飞久; 孙修涛; 汪文俊; 刘福利; 丁昌玲; 梁洲瑞; 刘坤

引用本文:

【打印本页】【HTML】【下载PDF全文】【View/Add Comment】【EndNote】【RefMan】【BibTex】

←前一篇|后一篇→

过刊浏览高级检索

本文已被：浏览 2727次下载 2410次	码上扫一扫！
分享到：微信更多字体:加大+\|默认\|缩小-
GeO₂对海带幼孢子体培育过程中硅藻污染的抑制效应
李涛^1,2, 王飞久², 孙修涛², 汪文俊², 刘福利², 丁昌玲², 梁洲瑞², 刘坤²
1.青岛农业大学动物科技学院，266109;2.农业部海洋渔业可持续发展重点实验室中国水产科学研究院黄海水产研究所，青岛 266071

摘要:

采用叶绿素荧光技术，以光系统Ⅱ最大荧光产量（Fv/Fm）为指标，结合形态显微观察，研究了GeO₂在海带幼孢子体培育过程中菱形藻污染的抑制效应。结果表明，1）对于菱形藻，当GeO₂浓度在5 mg/L以上时，对其Fv/Fm值有显著影响，达到或超过15 mg/L时菱形藻趋于死亡。2）对于海带幼孢子体，GeO₂浓度在20 mg/L以上时，对其Fv/Fm值有显著影响，达到或超过30 mg/L时其趋于死亡。3）对于受到菱形藻污染的海带幼孢子体，GeO₂浓度在15 mg/L以上时对其Fv/Fm值有显著影响，达到或超过20 mg/L时其趋于死亡。综合来看，当GeO₂浓度为5～15 mg/L时，菱形藻光合作用受到较强的抑制，而对海带幼孢子体影响不大。

关键词: GeO₂ 海带幼孢子体菱形藻叶绿素荧光技术

DOI：

分类号:

基金项目:国家“863”项目（2012AA10A406）和海带行业专项（B22201002）共同资助

Suppressive effect of germanium dioxide on diatom contamination during cultivation of Saccharina japonica young sporophytes

Abstract:

In the present study, using the chlorophyll fluorescence technique, the suppressive effect of germanium dioxide (GeO₂)on Nitzschia sp. contamination during the cultivation of Saccharina japonica seedling was investigated with the photosystem II maximum fluorescence yield (Fv/Fm) as the index. The results showed that: 1) When the concentration was above 5mg/L, GeO₂ affected Fv/Fm value of Nitzschia sp. significantly, whereas when the concentration was 15mg/L or above，GeO₂ had lethal effect on Nitzschia sp.; 2) To the young sporophytes of S. japonica, GeO₂ at concentrations of 20mg/L or above affected the Fv/Fm value significantly, whereas GeO₂ at concentrations of 30mg/L or above had lethal effect on young sporophytes; 3) To the young sporophytes contaminated by Nitzschia sp.，the Fv/Fm value was affected significantly by GeO₂ at concentrations of 15 mg/L or above , while the contaminated young sporophytes died when GeO₂ concentration was 20 mg/L or above. Comparatively, GeO₂ at concentrations of 5～15 mg/L could suppress the photosynthesis of Nitzschia sp. significantly, but only had a minor effect on photosynthesis of S. japonica young sporophytes. Therefore, GeO₂ at concentrations of 5～15 mg/L could prevent the Nitzschia sp. contamination during the cultivation of S. japonica young sporophytes. The results obtained from the present study could provide the basis for preventing the Nitzschia sp. contamination during the cultivation of S. japonica young sporophytes.

Key words: Germanium dioxide Saccharina japonica sporophytes Nitzschia sp. Chlorophyll fluorescence technique