淡水微型藻类 "Scenedesmus protuberans "的耐盐性和营养吸收能力

Thanh-Son Dao , Dien-Anh-Khoi Nguyen , Van-Tu Nguyen , Hua-Hien Huu , Tan-Duc Nguyen , Thanh-Luu Pham , Pham-Yen-Nhi Tran , Thi-Thanh-Nhan Luu
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引用次数: 0

摘要

全球变暖一直是世界范围内的严重问题。它们导致盐分进一步侵入内陆水系地区,对水生环境和生态系统产生了负面影响。我们的研究评估了一种从越南分离出来的淡水微藻--Scenedesmus protuberans 对 2 ‰、4 ‰ 和 8 ‰ 盐度的耐受能力。我们还评估了藻类在 0 ‰、2 ‰ 和 4 ‰ 不同盐度下对硝酸盐和磷酸盐的吸收。为了解决这两个研究问题,我们进行了两次实验。第一项实验为期 12 天,旨在评估原肠畸形的耐盐碱能力。第二个实验持续了 20 天,重点研究了在三种不同盐度下藻类对营养物质(硝酸盐和磷酸盐)的吸收情况。在第一个实验中,我们发现 S. protuberans 可以适应并生长在盐度高达 4 ‰ 的培养环境中。在第二个实验中,盐度为 0 ‰、2 ‰ 和 4 ‰ 的微藻类分别能从水环境中吸收 88 %、75 % 和 54 % 的磷酸盐,去除 39 %、56 % 和 36 % 的硝酸盐。我们的研究结果表明,无论是在淡水还是咸水系统中,当应用原小叶藻处理污染水体中的营养物质时,开发和验证原小叶藻的营养物质去除能力都具有很大的潜力,这与净零排放方法是一致的。
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Salinity tolerance and nutrient uptake of the freshwater microalga Scenedesmus protuberans

Global warming have been serious problems worldwide. They have resulted in the saline intrusion reaching farther into the inland water system region, which negatively influences the aquatic environment and ecosystems. Our study assessed the tolerant capacity of a freshwater micro-alga, Scenedesmus protuberans, isolated from Vietnam to the salinity of 2 ‰, 4 ‰, and 8 ‰. We also evaluated the nitrate and phosphate uptake by the alga in different salinity of 0 ‰, 2 ‰, and 4 ‰. To address these two research questions, two experiments were conducted. The first experiment spanned 12 days and aimed to assess the salinity tolerance capacity of S. protuberans. The second experiment lasting for 20 days focused on investigating the nutrient (nitrate and phosphate) uptake by the alga under three different salinity levels. In the first experiment, we found that the S. protuberans could adapt and grow at the salinity up to 4 ‰ of incubation. In the second one, the micro-alga in the salinity of 0 ‰, 2 ‰, and 4 ‰ could uptake 88 %, 75 %, and 54 % of phosphate and remove 39 %, 56 %, and 36 % of nitrate from the water environment, respectively. Our results reveal a high potential for developing and validating the nutrient removal capacity of S. protuberans when applied to treat nutrients in polluted water, both in freshwater and brackish water systems, aligning with the net zero emission approach.

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来源期刊
Case Studies in Chemical and Environmental Engineering
Case Studies in Chemical and Environmental Engineering Engineering-Engineering (miscellaneous)
CiteScore
9.20
自引率
0.00%
发文量
103
审稿时长
40 days
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