Innovative approach in sustainable agriculture: Harnessing microalgae potential via subcritical water extraction

IF 6.7 2区 环境科学与生态学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Alice Ferreira , Jelena Vladić , Diego de Oliveira Corrêa , Valéria Louzada Leal Butzke , Pedro L. Martins , Belina Ribeiro , Cláudia Marques-dos-Santos , F. Gabriel Acién , Luisa Gouveia
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引用次数: 0

Abstract

Microalgae can contribute to sustainable agriculture and wastewater treatment. This study investigated Tetradesmus obliquus, grown in piggery wastewater (To-PWW), as a biostimulant/biofertilizer compared to biomass grown in synthetic medium (To-B). Subcritical water extraction was tested for disruption/hydrolysis of wet biomass, at three temperatures (120, 170, and 220 °C) and two biomass loads (1:10 and 1:80 (g dry biomass/mL water)). Extracts were evaluated for germination, and root formation/expansion. Residues were quantified for nutrient composition to assess their biofertilizer potential and tested for their affinity to oil compounds for bioremediation. The best germination was achieved by To-B extracts at 170 °C (1:10: 148 % at 0.2 g/L, 1:80: 145 % at 0.5 g/L). Only To-PWW extracts at 0.2 g/L had a significant germination effect (120 °C: 120–123 % for both loads; 170 °C: 115 % for 1:80). To-PWW extract at 120 °C and 1:10 significantly affected cucumber and mung bean root formation (224 and 268 %, respectively). Most extracts significantly enhanced root expansion, with all To-B extracts at 1:10 showing the best results (139–181 %). The residues contained essential nutrients (NPK), indicating their biofertilizer potential, helping decrease synthetic fertilizers demands. To-B residues had high affinity to toluene and diesel but lower to used cooking and car oils. To-PWW showed very low affinity to all oil compounds. Finally, all residues were only able to form stable emulsions with the used car oil. This study fully exploits the use of microalgal biomass in sustainable agriculture, producing biostimulant extracts, and residues for biofertilizer and bioremediation, from a low-cost wastewater source.

可持续农业的创新方法:通过亚临界水萃取利用微藻潜力
微藻可为可持续农业和废水处理做出贡献。本研究调查了在猪场废水(To-PWW)中生长的 Tetradesmus obliquus,与在合成培养基(To-B)中生长的生物质相比,Tetradesmus obliquus 可用作生物刺激剂/生物肥料。在三种温度(120、170 和 220 °C)和两种生物质负荷(1:10 和 1:80(克干生物质/毫升水))下,对亚临界水萃取进行了湿生物质破坏/水解试验。对提取物的发芽率和根的形成/扩展进行了评估。对残留物的营养成分进行了量化,以评估其生物肥料潜力,并测试了其与油类化合物的亲和性,以进行生物修复。To-B 提取物在 170 °C 下的发芽率最高(1:10: 0.2 克/升时为 148%,1:80: 0.5 克/升时为 145%)。只有 0.2 克/升的 To-PWW 提取物有显著的发芽效果(120 °C:两种负载的发芽率均为 120-123%;170 °C:1:80 的发芽率为 115%)。120 °C 和 1:10 的 To-PWW 萃对黄瓜和绿豆根的形成有显著影响(分别为 224% 和 268%)。大多数提取物都能明显促进根的扩展,其中 1:10 的 To-B 提取物效果最好(139-181%)。残留物中含有必需的养分(氮磷钾),这表明它们具有生物肥料的潜力,有助于减少对合成肥料的需求。To-B 残留物与甲苯和柴油的亲和力较高,但与使用过的烹饪油和汽车油的亲和力较低。To-PWW 对所有油类化合物的亲和力都很低。最后,所有残留物都只能与废汽车油形成稳定的乳状液。这项研究充分利用了微藻生物质在可持续农业中的应用,从低成本的废水来源中生产出生物刺激剂提取物以及用于生物肥料和生物修复的残留物。
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来源期刊
Environmental Technology & Innovation
Environmental Technology & Innovation Environmental Science-General Environmental Science
CiteScore
14.00
自引率
4.20%
发文量
435
审稿时长
74 days
期刊介绍: Environmental Technology & Innovation adopts a challenge-oriented approach to solutions by integrating natural sciences to promote a sustainable future. The journal aims to foster the creation and development of innovative products, technologies, and ideas that enhance the environment, with impacts across soil, air, water, and food in rural and urban areas. As a platform for disseminating scientific evidence for environmental protection and sustainable development, the journal emphasizes fundamental science, methodologies, tools, techniques, and policy considerations. It emphasizes the importance of science and technology in environmental benefits, including smarter, cleaner technologies for environmental protection, more efficient resource processing methods, and the evidence supporting their effectiveness.
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