Seasonal nitrogen removal in an outdoor microalgal polyculture at Nordic conditions.

IF 2.5 4区 环境科学与生态学 Q3 ENGINEERING, ENVIRONMENTAL
Lina Mattsson, Hanna Farnelid, Maurice Hirwa, Martin Olofsson, Fredrik Svensson, Catherine Legrand, Elin Lindehoff
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Abstract

Microalgal solutions to clean waste streams and produce biomass were evaluated in Nordic conditions during winter, spring, and autumn in Southeast Sweden. The study investigated nitrogen (N) removal, biomass quality, and safety by treating industrial leachate water with a polyculture of local microalgae and bacteria in open raceway ponds, supplied with industrial CO2 effluent. Total N (TN) removal was higher in spring (1.5 g-2d-1), due to beneficial light conditions compared to winter and autumn (0.1 and 0.09 g-2d-1). Light, TN, and N species influenced the microalgal community (dominated by Chlorophyta), while the bacterial community remained stable throughout seasons with a large proportion of cyanobacteria. Winter conditions promoted biomass protein (19.6-26.7%) whereas lipids and carbohydrates were highest during spring (11.4-18.4 and 15.4-19.8%). Biomass toxin and metal content were below safety levels for fodder, but due to the potential presence of toxic strains, biofuels or fertilizer could be suitable applications for the algal biomass. PRACTITIONER POINTS: Microalgal removal of nitrogen from leachate water was evaluated in Nordic conditions during winter, spring, and autumn. Total nitrogen removal was highest in spring (1.5 g-2d-1), due to beneficial light conditions for autotrophic growth. Use of local polyculture made the cultivation more stable on a seasonal (light) and short-term (N-species changes) scale. Toxic elements in produced algal biomass were below legal thresholds for upcycling.

北欧条件下室外微藻多元养殖的季节性脱氮。
在瑞典东南部的冬季、春季和秋季,在北欧条件下对微藻清洁废物流和生产生物质的解决方案进行了评估。该研究调查了工业渗滤液的脱氮、生物质质量和安全性,方法是在开放式赛道池塘中利用当地微藻和细菌的多重培养来处理工业渗滤液水,并向其供应工业二氧化碳废水。与冬季和秋季(0.1 g-2d-1 和 0.09 g-2d-1)相比,由于光照条件良好,春季的总氮(TN)去除率更高(1.5 g-2d-1)。光照、TN 和氮的种类影响了微藻群落(以叶绿藻为主),而细菌群落在各个季节保持稳定,蓝藻占很大比例。冬季条件促进了生物量蛋白质(19.6-26.7%)的增加,而春季则以脂类和碳水化合物含量最高(分别为 11.4-18.4% 和 15.4-19.8%)。生物质毒素和金属含量低于饲料的安全水平,但由于可能存在有毒菌株,生物燃料或肥料可能是藻类生物质的合适用途。实践点:在北欧的冬季、春季和秋季,对微藻类去除渗滤液中的氮进行了评估。春季的总脱氮量最高(1.5 g-2d-1),这得益于有利于自养生长的光照条件。采用本地多培养方式使培养在季节(光照)和短期(氮种变化)范围内更加稳定。所产藻类生物量中的有毒元素低于可循环利用的法定阈值。
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
Water Environment Research
Water Environment Research 环境科学-工程:环境
CiteScore
6.30
自引率
0.00%
发文量
138
审稿时长
11 months
期刊介绍: Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.
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