Co-culturing bacteria and microalgae in organic carbon containing medium.

IF 1.9 3区 生物学 Q2 BIOLOGY Journal of Biological Research-Thessaloniki Pub Date : 2016-04-26 eCollection Date: 2016-12-01 DOI:10.1186/s40709-016-0047-6
Jichang Han, Lin Zhang, Song Wang, Guanpin Yang, Lu Zhao, Kehou Pan
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引用次数: 55

Abstract

Background: Microalgae frequently grow in natural environment and long-term laboratory cultures in association with bacteria. Bacteria benefit the oxygen and extracellular substances generated by microalgae, and reimburse microalgae with carbon dioxide, vitamins and so on. Such synergistic relationship has aided in establishing an efficient microalga-bacterium co-culturing mode. Obviously, the mutually beneficial relationship can be strengthened with the increase of the densities of microalgae and bacteria. However, nearly all of the early co-cultures were performed under photoautotrophic conditions, thus both microalgae and bacteria were at relatively low densities. In this study, the feasibility of bacteria-microalgae co-cultured under mixotrophic conditions was studied.

Results: Firstly, bacteria mingled with xenic microalgae were isolated and identified based on their 16S rRNA gene sequence (16S rDNA hereafter). Then, the two most frequently found strains of Muricauda sp. were co-cultured with axenic microalga (Tetraselmis chuii, Cylindrotheca fusiformis and Nannochloropsis gaditana) in extra organic carbon containing medium. At the end of a co-culture period of 33 days, we found that the final cell density of T. chuii and C. fusiformis of various treatments was remarkably higher than that of controls (21.37-31.18 and 65.42-83.47 %, respectively); on the contrary, the growth of N. gaditana was markedly inhibited. During the co-culture of bacteria with C. fusiformis, the cell density of two strains of bacteria firstly decreased, then increased and maintained at a relatively steady level. However, the cell density of bacteria performed a sustaining downward trend when they were co-cultured with T. chuii and N. gaditana.

Conclusions: Our findings proved that microalgae-bacteria co-cultures under mixotrophic conditions are quite effective strategy for microalgal cultivation.

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细菌与微藻在含有机碳培养基中共培养。
背景:微藻经常生长在自然环境和长期实验室培养与细菌。细菌受益于微藻产生的氧气和胞外物质,并以二氧化碳、维生素等补偿微藻。这种协同关系有助于建立一种高效的微藻-细菌共培养模式。显然,随着微藻和细菌密度的增加,这种互利关系可以得到加强。然而,几乎所有的早期共培养都是在光自养条件下进行的,因此微藻和细菌的密度都相对较低。本研究探讨了在混合营养条件下细菌-微藻共培养的可行性。结果:首先,分离出混杂微藻菌,并根据其16S rRNA基因序列(以下简称16S rDNA)进行鉴定。然后,将两种最常见的Muricauda sp.菌株与无菌性微藻(Tetraselmis chuii,圆柱形藻fususiformis和Nannochloropsis gaditana)在额外含有机碳的培养基中共同培养。共培养33 d时,不同处理的毛状螺旋体和梭形螺旋体最终细胞密度均显著高于对照(分别为21.37% ~ 31.18%和65.42% ~ 83.47%);与此相反,绿僵菌的生长明显受到抑制。在与梭形梭菌共培养过程中,两株细菌的细胞密度均呈现先下降后上升的趋势,并保持在一个相对稳定的水平。然而,当它们与滴虫和棘球蚴共培养时,细菌的细胞密度呈持续下降趋势。结论:在混合营养条件下进行微藻-细菌共培养是一种有效的微藻培养策略。
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来源期刊
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5.20
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>12 weeks
期刊介绍: Journal of Biological Research-Thessaloniki is a peer-reviewed, open access, international journal that publishes articles providing novel insights into the major fields of biology. Topics covered in Journal of Biological Research-Thessaloniki include, but are not limited to: molecular biology, cytology, genetics, evolutionary biology, morphology, development and differentiation, taxonomy, bioinformatics, physiology, marine biology, behaviour, ecology and conservation.
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