Microbiome Wetlands in Nutrient and Contaminant Removal

IF 6.4 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Shamima Moazzem, Muhammed Bhuiyan, Shobha Muthukumaran, Jill Fagan, Veeriah Jegatheesan
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Abstract

Purpose of Review

Constructed wetlands (CWs) are engineered systems that have been proven as an alternative option to traditional wastewater treatment technologies because of their ability to provide cost-effective and energy-efficient solutions. This technology depends on natural microbial/biological, physical, and chemical processes to treat wastewater. Processes removing impurities in constructed wetlands are based on the combination of interactive systems such as selected plant species, the nature of substrate used for constructed wetlands, biofilm growth, microbial diversity, and several biogeochemically affected reaction cycles in wetland systems. Microorganisms play a vital role in these processes such as the degradation of pollutants and the transformation of nutrients. Microorganisms remove the pollutants from CWs by catalyzing chemical reactions, biodegrading, biosorbing, and supporting plant growth. An in-depth analysis of the function of microorganisms in CWs is important to understand. This review deals with the recent developments in constructed wetland systems from a microbiological perspective to treat impurities present in wastewater. It focuses on the studies of microbial diversity in CWs and the role of enzymes produced by microbes, the influence of the substrates of CWs on microbial diversity, the influence of the hydraulic design of CWs on the growth of microorganisms, the role of specific microbes in the removal of pollutants and the different software, analytical equipment, tools, and techniques used to measure/quantify the parameters of interest or to design and operate a wetland.

Recent Findings

The combination of different types of substrates in constructed wetlands can form different types of zones such as anaerobic and aerobic zones which can allow to form a diversity of microorganisms. In addition, plant diversity plays a vital role in microbial growth by providing O2 and increasing plant biomass production which influences the soil microbial community. Moreover, the influent carbon source influences the biomass as for example when the COD/N ratio is increased by 80%, the phospholipid fatty acids (PLFA) concentration of microbial biofilm in glucose constructed wetlands is increased by 50%. At the same time, the biomass of aerobic and anaerobic bacteria and fungi increased significantly. In addition, different microorganisms are responsible in removing different types of heavy metals and micropollutants.

Summary

This article provides useful information on the understanding of the diversity of microbes, influencing factors on the growth of microorganisms, and the efficiency of pollutant removal process in CWs. Overall, this review provides new ideas and directions for the improvement of constructed wetlands from a microbiological perspective.

Abstract Image

微生物湿地在去除营养物和污染物方面的作用
审查目的建造湿地 (CW) 是一种工程系统,因其能够提供具有成本效益和能源效率的解决方案,已被证明可作为传统废水处理技术的替代选择。这种技术依靠自然微生物/生物、物理和化学过程来处理废水。在建造的湿地中清除杂质的过程是基于互动系统的组合,如选定的植物物种、建造湿地所用基质的性质、生物膜生长、微生物多样性以及湿地系统中受生物地球化学影响的若干反应循环。微生物在污染物降解和养分转化等过程中发挥着重要作用。微生物通过催化化学反应、生物降解、生物吸收和支持植物生长来清除化武中的污染物。深入分析微生物在化武中的功能对于理解化武具有重要意义。本综述从微生物学角度探讨了建造湿地系统处理废水中杂质的最新进展。综述的重点是对人工湿地中微生物多样性的研究、微生物产生的酶的作用、人工湿地基质对微生物多样性的影响、人工湿地水力设计对微生物生长的影响、特定微生物在去除污染物中的作用,以及用于测量/量化相关参数或设计和操作湿地的不同软件、分析设备、工具和技术。最新研究结果在人工湿地中结合不同类型的基质可形成不同类型的区域,如厌氧区和好氧区,从而形成微生物的多样性。此外,植物多样性通过提供氧气和增加植物生物量,对微生物的生长起着至关重要的作用,从而影响土壤微生物群落。此外,进水碳源也会影响生物量,例如,当 COD/N 比值增加 80% 时,葡萄糖建造的湿地中微生物生物膜的磷脂脂肪酸(PLFA)浓度会增加 50%。同时,好氧、厌氧细菌和真菌的生物量也显著增加。此外,不同的微生物负责去除不同类型的重金属和微污染物。总之,这篇综述从微生物学的角度为改善人工湿地提供了新的思路和方向。
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来源期刊
Current Pollution Reports
Current Pollution Reports Environmental Science-Water Science and Technology
CiteScore
12.10
自引率
1.40%
发文量
31
期刊介绍: Current Pollution Reports provides in-depth review articles contributed by international experts on the most significant developments in the field of environmental pollution.By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to identification, characterization, treatment, management of pollutants and much more.
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