Algal consortia as the flexible bio-system for wastewater treatment: Effect of different light intensities on photosynthetic performance, anti-oxidative system and biodiesel production of consortia

IF 3.4 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Biocatalysis and agricultural biotechnology Pub Date : 2024-06-20 DOI:10.1016/j.bcab.2024.103299

Dig Vijay Singh , Atul Kumar Upadhyay , Ranjan Singh , Rana Pratap Singh

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Abstract

Competence of microalgae consortia-1 (Chlorococcum humicola and Tetradesmus sp.) and consortia-2 (Chlorococcum humicola, Scenedesmus vacuolatus and Tetradesmus sp.) was analyzed by examining their adaptability potential in wastewater under different light intensities (20 W/m² and 40 W/m²). The results depicted highest decline in nutrients and metal concentration (40–90%) at light intensity of 40 W/m² by consortia-1 and consortia-2 treated with wastewater (50%, 100%). The result of metal remediation was further confirmed by fourier transform infrared spectroscopy (FTIR) which reflected occurrence of different functional groups in selected consortia. Moreover, light intensity of 40 W/m² induced neutral-lipid accumulation (1750 cm⁻¹) in consortia-1 as depicted in FTIR spectra. The maximum active photosystem-II reaction center (79.75%), quantum yield (26.17%) and performance index (195.8%) revealed that light intensity (40 W/m²) and wastewater augmented functioning of photosystem-II in consortia-1 than consortia-2. Further, consortia-2 appeared more sensitive to oxidative stress as the concentration of oxidative stress markers (5.73–6.39 folds) was amplified after treatment with wastewater at light intensity of 40 W/m². The prodigious tolerance potential towards different light intensities and wastewater concentration of consortia-1 may be attributed to increased activity of ascorbic acid (1.16 folds), proline (1.32 folds), cysteine (2.80 folds), superoxide dismutase (3.44 folds), catalase (2.52 folds) and glutathione reductase (1.90 folds). However, abundance of saturated fatty acid (41.34%) together with high cetane number (59.07) indicated that consortia 2 can produce excellent quality biofuel at 20 W/m² while consortia-2 at 40 W/m². Overall, consortia 1 appeared competent in terms of photosynthetic performance, remediation efficiency and antioxidant defense mechanism under 20 W/m² and 40 W/m² while consortia-2 showed quality biodiesel production at 20 W/m². Thus, algal consortia based on photosynthetic performance and defense responses along with excellent biodiesel quality under different light intensity and wastewater concentration can serve as the promising biosystem for biomass and bioenergy production.

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藻类联合体作为废水处理的灵活生物系统：不同光照强度对联合体光合作用性能、抗氧化系统和生物柴油生产的影响

通过研究微藻联合体-1（Chlorococcum humicola 和 Tetradesmus sp.）和联合体-2（Chlorococcum humicola、Scenedesmus vacuolatus 和 Tetradesmus sp.）在不同光照强度（20 W/m2 和 40 W/m2）下对废水的适应潜力，分析了它们的能力。结果表明，在光照强度为 40 W/m2 时，用废水（50%、100%）处理过的联合菌群-1 和联合菌群-2 的养分和金属浓度下降幅度最大（40%-90%）。傅里叶变换红外光谱（FTIR）进一步证实了金属修复的结果，反映出所选联合菌群中存在不同的官能团。此外，如傅立叶变换红外光谱所示，光照强度为 40 W/m2 会导致中性脂质在菌群-1 中积累（1750 cm-1）。最高活性光系统-II 反应中心（79.75%）、量子产率（26.17%）和性能指数（195.8%）表明，光照强度（40 W/m2）和废水对联合菌群-1 的光系统-II 功能的促进作用大于联合菌群-2。此外，在光照强度为 40 W/m2 时，用废水处理后，氧化应激标记物的浓度（5.73-6.39 倍）增加，因此联合体-2 似乎对氧化应激更敏感。联营体-1 对不同光照强度和废水浓度的巨大耐受潜力可能归因于抗坏血酸（1.16 倍）、脯氨酸（1.32 倍）、半胱氨酸（2.80 倍）、超氧化物歧化酶（3.44 倍）、过氧化氢酶（2.52 倍）和谷胱甘肽还原酶（1.90 倍）活性的提高。然而，饱和脂肪酸含量（41.34%）和十六烷值（59.07）的增加表明，在 20 W/m2 的条件下，联合菌群 2 可以生产优质生物燃料，而在 40 W/m2 的条件下，联合菌群 2 则可以生产优质生物燃料。总体而言，在 20 W/m2 和 40 W/m2 的条件下，联合菌群 1 在光合作用性能、修复效率和抗氧化防御机制方面都表现出较强的能力，而联合菌群 2 在 20 W/m2 的条件下则表现出生产优质生物柴油的能力。因此，在不同光照强度和废水浓度下，基于光合作用性能和防御反应以及优良生物柴油质量的藻类联合体可作为生物质和生物能源生产的理想生物系统。

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来源期刊

Biocatalysis and agricultural biotechnology Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

7.70

自引率

2.50%

发文量

308

审稿时长

48 days

期刊介绍： Biocatalysis and Agricultural Biotechnology is the official journal of the International Society of Biocatalysis and Agricultural Biotechnology (ISBAB). The journal publishes high quality articles especially in the science and technology of biocatalysis, bioprocesses, agricultural biotechnology, biomedical biotechnology, and, if appropriate, from other related areas of biotechnology. The journal will publish peer-reviewed basic and applied research papers, authoritative reviews, and feature articles. The scope of the journal encompasses the research, industrial, and commercial aspects of biotechnology, including the areas of: biocatalysis; bioprocesses; food and agriculture; genetic engineering; molecular biology; healthcare and pharmaceuticals; biofuels; genomics; nanotechnology; environment and biodiversity; and bioremediation.