Development of an automatic system for cultivating the bioluminescent heterotrophic dinoflagellate Noctiluca scintillans on a 100-liter scale

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

ACS Applied Electronic Materials Pub Date : 2022-06-15 DOI:10.4490/algae.2022.37.6.8

Ji Hyun You, H. Jeong, Sang Ah Park, Jin Hee Ok, Hee Chang Kang, S. Eom, A. Lim

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引用次数: 2

Abstract

Noctiluca scintillans is a heterotrophic dinoflagellate that causes red-colored oceans during the day (red tides) and glowing oceans at night (bioluminescence). This species feeds on diverse prey, including phytoplankton, heterotrophic protists, and eggs of metazoans. Thus, many scientists have conducted studies on the ecophysiology of this species. It is easy to cultivate N. scintillans at a scale of <1 L, but it is difficult to cultivate them at a scale of >100 L because N. scintillans cells usually stay near the surface, while prey cells stay below the surface in large water tanks. To obtain mass-cultured N. scintillans cells, we developed an automatic system for cultivating N. scintillans on a scale of 100 L. The system consisted of four tanks containing fresh nutrients, the chlorophyte Dunaliella salina as prey, N. scintillans for growth, and N. scintillans for storage, respectively. The light intensities supporting the high growth rates of D. salina and N. scintillans were 300 and 20 μmol photons m-2 s-1, respectively. Twenty liters of D. salina culture from the prey culture tank were transferred to the predator culture tank, and subsequently 20 L of nutrients from the nutrient tank were transferred to the prey culture tank every 2 d. When the volume of N. scintillans in the predator culture tank reached 90 L 6 d later, 70 L of the culture were transferred to the predator storage tank. To prevent N. scintillans cells from being separated from D. salina cells in the predator culture tank, the culture was mixed using an air pump, a sparger, and a stirrer. The highest abundance of N. scintillans in the predator culture tank was 45 cells mL-1, which was more than twice the highest abundance when this dinoflagellate was cultivated manually. This automatic system supplies 100 L of N. scintillans pure culture with a high density every 10 d for diverse experiments on N. scintillans.

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百升异养异养双鞭毛藻夜光藻自动培养系统的研制

夜luca scintillans是一种异养鞭毛藻，白天海洋呈红色(赤潮)，晚上海洋发光(生物发光)。该物种以多种猎物为食，包括浮游植物、异养原生生物和后生动物的卵。因此，许多科学家对该物种的生态生理进行了研究。在100 L的规模下很容易培养出闪烁芽孢菌，因为闪烁芽孢菌的细胞通常停留在地表附近，而猎物细胞则停留在地表以下的大水箱中。为了获得大量培养的闪烁藻细胞，我们开发了一套100 l规模的闪烁藻自动培养系统，该系统由4个盛有新鲜营养物的容器组成，分别为杜氏绿藻类(Dunaliella salina)为猎物，闪烁藻生长，闪烁藻储存。支持盐藻和闪烁藻高生长速率的光强分别为300和20 μmol光子m-2 s-1。将猎物培养皿中的盐藻培养液20升转移到捕食者培养皿中，随后每隔2天将营养液中的营养物质20 L转移到捕食者培养皿中。6天后，当捕食者培养皿中的闪螺体积达到90 L时，将70 L的培养液转移到捕食者储存皿中。在捕食者培养槽中，为了防止闪烁芽孢杆菌细胞与盐芽孢杆菌细胞分离，用气泵、喷雾器和搅拌器混合培养物。在捕食者培养池中，N. scintillans的最高丰度为45个细胞mL-1，是人工培养时最高丰度的两倍以上。该自动系统每10 d提供100 L高密度的闪烁芽孢菌纯培养物，用于闪烁芽孢菌的各种实验。

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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567