Disposal of seaweed wakame (Undaria pinnatifida) in composting process by marine bacterium Halomonas sp. AW4. (Special Issue: Biological utilisation of biomass or organic waste materials.)

Tang JingChun; Xiao YuTang; Oshima A.; Kawai H.; Nagata S.

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Disposal of seaweed wakame (Undaria pinnatifida) in composting process by marine bacterium Halomonas sp. AW4. (Special Issue: Biological utilisation of biomass or organic waste materials.)

机译：在海洋细菌Halomonas sp。堆肥过程中处理海藻裙带菜（Undaria pinnatifida）。 AW4。（特刊：生物质或有机废料的生物利用。）

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A novel marine bacterium, identified as Halomonas sp. AW4 by partial 16 S rDNA analysis, was isolated from the seaweeds in Awaji Island, Japan. Strain AW4 grew well even in the wide NaCl concentration ranges of 0-3 mol/L, where it showed an optimal growth in the presence of 0.5 mol/L NaCl. The organic components were reduced to 73.6% of initial dry weight after 168 h of composting by inoculation of AW4. The microbial community structure became complex after 72 h of composting. The initial content of alginate was 35.6%, which decreased to 15.6% after 168 h of composting. The decomposition of alginate mainly occurred at the late stage of composting, suggesting that the microbial community consisting of various types of microorganisms is effective in degrading alginate. The germination of plant Brassica campestris L. indicated the promotion effect of composted wakame.

机译：一种新的海洋细菌，被鉴定为Haloomonas sp。通过部分16 S rDNA分析，从日本淡路岛的海藻中分离出AW4。即使在0-3 mol / L的宽NaCl浓度范围内，菌株AW4也生长良好，在存在0.5 mol / L的NaCl的情况下，菌株显示出最佳生长。通过接种AW4，堆肥168小时后，有机成分减少至初始干重的73.6％。堆肥72小时后，微生物群落结构变得复杂。藻酸盐的初始含量为35.6％，堆肥168小时后降至15.6％。海藻酸盐的分解主要发生在堆肥的后期，这表明由各种类型的微生物组成的微生物群落可有效地降解海藻酸盐。芸苔属植物的发芽表明堆肥的裙带菜具有促进作用。

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《International Journal of Biotechnology》 |2008年第1期|共13页
作者
Tang JingChun; Xiao YuTang; Oshima A.; Kawai H.; Nagata S.;
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正文语种 eng
中图分类生物科学;
关键词
aquatic plants; composting; composts; growth; seaweeds; Algae; Brassica campestris; plants; Japan;

机译：水生植物;堆肥;堆肥;生长;海藻;藻类;油菜;植物;日本;

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1. Disposal of seaweed wakame (Undaria pinnatifida) in composting process by marine bacterium Halomonas sp. AW4. (Special Issue: Biological utilisation of biomass or organic waste materials.) [J] . Tang JingChun, Xiao YuTang, Oshima A., International Journal of Biotechnology . 2008,第1期

机译：在海洋细菌Halomonas sp。堆肥过程中处理海藻裙带菜（Undaria pinnatifida）。 AW4。（特刊：生物质或有机废料的生物利用。）
2. Improved composting of Undaria pinnatifida seaweed by inoculation with Halomonas and Gracilibacillus sp. isolated from marine environments [J] . Tang J., Wang M., Zhou Q., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2011,第3期

机译：接种Halomonas和Gracilibacillus sp可改善裙带菜海藻的堆肥。与海洋环境隔离
3. Effect of feeding efficient microbial community on aerobic composting of municipal waste and excrement. (Special Issue: Biological utilisation of biomass or organic waste materials.) [J] . He JunGuo, Jiang Tao, Wang Dan, International Journal of Biotechnology . 2008,第1期

机译：高效饲喂微生物群落对城市垃圾和粪便有氧堆肥的影响。（特刊：生物质或有机废料的生物利用。）
4. Degradation of the Seaweed Wakame (Undaria pinnatifida) by a Composting Process with the Inoculation of Bacillus sp. HR6 [O] . JING-CHUN TANG, JIAN-HE WEI, KENJI MAEDA, 2007

机译：通过接种芽孢杆菌的堆肥过程来降解海藻娃娃（undariapaTifida）。 HR6.

Disposal of seaweed wakame (Undaria pinnatifida) in composting process by marine bacterium Halomonas sp. AW4. (Special Issue: Biological utilisation of biomass or organic waste materials.)

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