Analysis of Microbial Abundances in Biofilms and Water in Hypersaline Environments with Different NaCl Levels

Journal of Experimental Life Science Pub Date : 2023-06-26 DOI:10.21776/ub.jels.2023.013.02.07

Ilham Misbakudin Al Zamzami, Yuni Kilawati, Zulkisam Pramudia, Yogita Ayu Dwi Susanti, Andi Kurniawan

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Abstract

Biofilm is the dominant habitat for aquatic microbes that can grow in various aquatic conditions, including environments with extreme conditions. One of the extreme conditions found in aquatic ecosystems is a hypersaline environment. As part of aquatic biological resources, microbes can also live in this environment. However, although it is the predominant habitat of microbes, biofilms in hypersaline environments have yet to be widely explored. Understanding biofilms in hypersaline environments, especially salt ponds, will increase knowledge about microbial biofilms. The knowledge can open opportunities for using microbes as aquatic resources, such as aquaculture or environmental biotechnology. This study analyzed microbial abundance in biofilms and water in hypersaline environments. The water is from salt ponds on the South Coast of Malang Regency, Indonesia, with different salinity levels (2%, 25%, and 40%). Microbial abundance was analyzed using the culture method using several culture media (Modified Nutrient Agar, Modified Total Plate Agar, Mannitol Salt Agar, and Casein Medium Agar). The substrate for biofilm growth is HDPE, often used as a bottom coating for salt ponds and shrimp ponds. Moreover, this study also analyzed water quality parameters (pH, dissolved oxygen, turbidity, conductivity, total dissolved solids, temperature) during the biofilms' forming process. The results of this study indicate that the abundance of good microbes that grow in the biofilm or the water around the biofilm is strongly influenced by the type of media used for culturing. The main composition of the most influential media is peptone. The density of microbes in the biofilm is hundreds to thousands of times higher than that in the surrounding water. The results of this study also show that the presence of microbes in both water and biofilm affects the water quality properties in hypersaline environments. Keywords: aquatic ecosystem, biofilm, hypersaline, microbial ecology.

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不同NaCl水平高盐环境下生物膜和水中微生物丰度分析

生物膜是水生微生物的主要栖息地，可以在各种水生条件下生长，包括极端条件下的环境。在水生生态系统中发现的极端条件之一是高盐环境。作为水生生物资源的一部分，微生物也可以在这种环境中生存。然而，尽管它是微生物的主要栖息地，但高盐环境中的生物膜尚未得到广泛的探索。了解高盐环境中的生物膜，特别是盐池中的生物膜，将增加对微生物生物膜的认识。这些知识可以为利用微生物作为水生资源，如水产养殖或环境生物技术开辟机会。本研究分析了高盐环境下生物膜和水中的微生物丰度。水来自印度尼西亚玛琅摄政南海岸的盐池，含盐量不同(2%，25%和40%)。采用几种培养基(改良营养琼脂、改良总平板琼脂、甘露醇盐琼脂和酪蛋白培养基琼脂)的培养方法分析微生物丰度。生物膜生长的底物是HDPE，常用于盐池和虾池的底涂。此外，本研究还分析了生物膜形成过程中的水质参数(pH、溶解氧、浊度、电导率、总溶解固形物、温度)。本研究结果表明，在生物膜或生物膜周围的水中生长的有益微生物的丰度受到用于培养的培养基类型的强烈影响。最有影响力的介质的主要成分是蛋白胨。生物膜中的微生物密度是周围水体的数百至数千倍。本研究结果还表明，水和生物膜中微生物的存在会影响高盐环境下的水质特性。关键词:水生生态系统，生物膜，高盐，微生物生态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Experimental Life Science

自引率

0.00%

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审稿时长

8 weeks