Impact of mercury (II) nitrate on physiological and biochemical characteristics of selected marine algae of different classes

机译：汞（ii）硝酸盐对不同课程选定海藻的生理生化特征的影响

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Short-term physiological and biochemical responses induced by mercury(II) nitrate (Hg(NO3)2) in three marine macroalgae, Gracilaria salicornia (Rhodophyceae), Sargassum sp. (Phaeophyceae) and Ulva reticulata (Chlorophyceae) were studied. All algae were good accumulators of Hg. However, this characteristic significantly decreases in G. salicornia and significantly increases in U. reticulata as concentration of Hg increases. Algal F_V/F_M, chlorophyll (chl) a content and relative growth showed a significant reduction in the presence of Hg. Hg impact was prominent in F_V/F_M than the other parameters while a small impact was shown by the relative growth. Hg induced synthesis of new amino acids and inhibit the production of some. The profile even changed when the concentration of Hg(NO3)2 increases.

机译：汞（II）硝酸盐（HG（NO3）2）诱导的短期生理和生化反应在三次海洋大草原，Gracilaria Salicornia（肾小藻藻），Sargassum sp。（Pheaeophyceae）和Ulva reticulata（叶绿素）进行了研究。所有藻类都是HG的良好蓄能器。然而，这种特性在G. Salicornia中显着降低，并且随着Hg浓度的浓度增加，U. reticulata显着增加。藻类F_V / F_M，叶绿素（CHL）含量和相对生长显示HG存在显着降低。在F_V / F_M的情况下，HG撞击比其他参数突出，而相对生长则表现出小的影响。 HG诱导新氨基酸的合成，抑制一些物质的生产。当HG（NO3）2的浓度增加时，概况甚至改变。

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《International Conference on Environmental Forensics》|2015年||共6页
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Luqman Abu Bakar; Nakisah Mat Amin; Hazlina Ahamad Zakeri;
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中图分类环境化学;
关键词
heavy metals; marine alga; maximal quantum yield; chl a content; amino acid content;

机译：重金属;海藻藻;最大量子产量;CHL含量;氨基酸含量;

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机译：硝酸汞对不同种类海藻生理生化特性的影响

Impact of mercury (II) nitrate on physiological and biochemical characteristics of selected marine algae of different classes

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