| 铜锈环棱螺对藻华水体沉积物-水界面营养盐通量的影响 |
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| 引用本文: | 孙思志,郑忠明,陆开宏,金春华,朱津永,胡智勇.铜锈环棱螺对藻华水体沉积物-水界面营养盐通量的影响[J].生态学杂志,2010,29(4). |
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| 作者姓名: | 孙思志 郑忠明 陆开宏 金春华 朱津永 胡智勇 |
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| 作者单位: | 宁波大学教育部应用海洋生物技术重点试验室,浙江宁波,315211 |
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| 基金项目: | 国家自然科学基金项目(30771658); 浙江省自然科学基金项目(Y3090640); 宁波大学人才工程资助项目(博士基金)(2009919) |
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| 摘 要: | 于2008年在室内小型试验模拟生态系统中进行了为期1个月的铜锈环棱螺生物干扰对底泥耗氧率和上覆水营养盐通量的影响试验,根据铜锈环棱螺放养密度设置了3个处理组和1个对照组。与试验前相比,培养1个月后,所有处理组和对照组的底泥耗氧率均显著下降;各处理组的底泥耗氧率初期高于对照组,后期低于对照组,且密度高的处理组其底泥耗氧率高于密度低的处理组。除12月7日外,对照组沉积物始终向上覆水释放铵氮,且释放量逐渐减小,而各处理组中,除试验初期沉积物向上覆水释放铵氮外,试验中后期均表现为吸收铵氮。除试验初期外,处理组和对照组中亚硝酸盐+硝酸盐通量主要表现为向上覆水中释放,且处理组1与对照组间存在显著差异(P<0.05)。磷酸盐通量主要表现为,试验初期沉积物向上覆水中释放,后期被沉积物吸收。本试验结果表明,短期内铜锈环棱螺的生物干扰增加了底泥耗氧率,但其长期效应可使底泥耗氧率下降,铜锈环棱螺的存在促进了沉积物中的总体硝化速率,加快了沉积物中的N循环。
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| 关 键 词: | 铜锈环棱螺 藻华水体 底泥耗氧率 沉积物-水界面 营养盐通量 |
Effects of Bellamya aeruginosa bioturbation on nutrient fluxes across sediment-water interface of algal bloom water body |
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| SUN Si-zhi,ZHENG Zhong-ming,LU Kai-hong,JIN Chun-hua,ZHU Jin-yong,HU Zhi-yong.Effects of Bellamya aeruginosa bioturbation on nutrient fluxes across sediment-water interface of algal bloom water body[J].Chinese Journal of Ecology,2010,29(4). |
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| Authors: | SUN Si-zhi ZHENG Zhong-ming LU Kai-hong JIN Chun-hua ZHU Jin-yong HU Zhi-yong |
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| Institution: | SUN Si-zhi,ZHENG Zhong-ming,LU Kai-hong,JIN Chun-hua,ZHU Jin-yong,HU Zhi-yong (Key Laboratory of Applied Marine Biotechnology,Ministry of Education,Ningbo University,Ningbo 315211,Zhejiang,China) |
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| Abstract: | A one-month laboratory experiment was conducted to study the effects of Bellamya aeruginosa bioturbation on the sediment oxygen consumption rate and overlying water nutrient fluxes in a simulated algal bloom water body.Three treatment groups and one control group were set up in the experiment,according to the stocking density of B.aeruginosa.Throughout the trial period,the sediment oxygen consumption (SOC) rate in treatment and control groups declined significantly.The SOC rate in treatment groups was highe... |
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| Keywords: | Bellamya aeruginosa algal bloom water body sediment oxygen consumption sediment-water interface nutrient flux |
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