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引用本文:李大鹏,马增岭,李慧,丁刚,辛美丽,吴海一,郭文.铜藻(Sargassum horneri)在营养限制胁迫后对NH4-N的超补偿吸收研究.海洋与湖沼,2018,49(4):904-909.
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铜藻(Sargassum horneri)在营养限制胁迫后对NH4-N的超补偿吸收研究
李大鹏1, 马增岭2, 李慧2, 丁刚1, 辛美丽1, 吴海一1, 郭文1
1.山东省海洋生物研究院 青岛 266104;2.温州大学生命与环境科学学院 温州 325035
摘要:
以经济马尾藻铜藻(Sargassum horneri)为研究材料,研究了其在营养限制胁迫后对NH4-N的超补偿吸收情况。实验分营养限制和恢复营养两个阶段进行,每个阶段均设置饥饿处理组、饱和处理组和正常对照组。铜藻在低营养限制胁迫(饥饿)下培养10天后,恢复营养盐培养3天,分别采用次溴酸盐氧化法和锌镉还原法测定培养液中的NH4-N和NO3-N的浓度。本文研究发现,饥饿处理组中铜藻吸收氨氮的速率远高于正常对照组和饱和处理组,在恢复培养第一天时,饥饿处理组对NH4-N的吸收速率最高为14.94μmol/(g·h),与正常对照组及饱和处理组间差异显著。在恢复培养的后两天,三个处理组中铜藻对NH4-N的吸收速率差异慢慢变小,直至最后几乎相同。三组对NO3-N没有表现出较高的吸收,最高仅为6.15μmol/(g·h),结果表明:氮源包括NH4-N和NO3-N时,铜藻优先选择吸收NH4-N。实验后称重测定生长速率:对照组、饥饿处理组和饱和组生长率(SGR)分别为8.48%、8.86%、8.01%,ANOVA方差分析表明,三者存在显著差异(P=0.032<0.05),从而证实了铜藻也存在超补偿生长的现象。
关键词:  铜藻  营养限制  超补偿  NH4-N吸收  NO3-N吸收
DOI:10.11693/hyhz20180300068
分类号:Q789
基金项目:国家海洋公益性行业科研专项,201505022-2号;山东省现代农业技术体系建设专项资金资助项目,SDAIT-26号增殖岗。
附件
NH4-N OVER-COMPENSATORY UPTAKE OF SARGASSUM HORNERI UNDER THE STRESS OF NUTRIENTS DEFICIENCY
LI Da-Peng1, MA Zeng-Ling2, LI Hui2, DING Gang1, XIN Mei-Li1, WU Hai-Yi1, GUO Wen1
1.Marine Biology Institute of Shandong Province, Qingdao 266104, China;2.College of Life and Environmental Science, Wenzhou University, Wenzhou 325035, China
Abstract:
In this paper, Sargassum horneri was used as experimental material for the study of NH4-N over-compensatory uptake under laboratory conditions. Sargassum horneri was thoroughly cleaned, epibiotics carefully removed, and cultured in beakers in an illuminating incubator under 15℃, 100μmol/(m2·s), L:D 12h/12h, 30 salinity and pH 7.5-8.0.
The experiments included two periods. Firstly, Sargassum horneri was cultured for 10 days under the condition of nutrients stress, i.e. nutrients deficiency and nutrients enrichment, with fresh sea water one as the control. Secondly, the nutrients stress was lifted; the treated and the control were simultaneously cultured for another 3 days under the same nutrients supply with daily medium change. The experiments were carried out in 2L beakers with 3g Sargassum horneri and 1L medium, and the concentration of NH4-N and NO3-N was 100 and 280μmol/L respectively. Triplicate were set for each group. During the experiment, the NH4-N, NO3-N uptake rate were measured periodically.
After subjecting to the nutrients deficiency, Sargassum horneri showed a strong ability of NH4-N uptake. The uptake rate of NH4-N of the starved group, the control group and the fed group, was 14.94, 11.54, and 9.63μmol/(g·h), respectively. The starved had the highest uptake rate of NH4-N but its highest uptake rate of NO3-N was only 6.15μmol/(g·h), much smaller than that of NH4-N, indicating that Sargassum horneri assimilated NH4-N first. As a result, the concentration of NO3-N in the beakers was 3 times higher of the NH4-N.
As the culture time proceeded, difference between the treated and the control decreased gradually and finally were equivalent. The special growth rate (SGR) in the group of the starved, the control and the fed was 8.86%, 8.48%, and 8.01% respectively. The difference of the growth rate between the treated and the control was significant (P=0.032<0.05).
After 10 days of nutrients deficiency, there was a short phase of rapid NH4-N uptake demonstrating over-compensatory growth. Thus, NH4-N over-compensatory uptake of Sargassum horneri could be used as a guidance for cultivation. Moreover, Sargassum horneri have very high productivity and ability of absorbing large quantities of N. It is believed that Sargassum horneri cultivation in large-scale is a good solution to eutrophication in coastal waters.
Key words:  Sargassum horneri  nutrients deficiency  over-compensatory growth  NH4-N uptake  NO3-N uptake
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