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Book Chapter

Phytoremediation using Aquatic Plants

Details

Citation

Fletcher J, Willby NJ, Oliver DM & Quilliam RS (2020) Phytoremediation using Aquatic Plants. In: Shmaefsky BR (ed.) Phytoremediation – In-Situ Applications. Concepts and Strategies in Plant Sciences. Cham, Switzerland: Springer. https://doi.org/10.1007/978-3-030-00099-8_7

Abstract
Freshwaters are affected by a diverse range of pollutants which increase the demand for effective remediation. Aquatic phytoremediation is a nature-based solution that has the potential to provide efficient, spatially adaptable and multi-targeted treatment of polluted waters using the ability of macrophytes to take-up, sequester and degrade pollutants. This chapter considers the primary phytoremediation mechanisms that macrophytes employ to remove inorganic, organic and biological waterborne pollutants before highlighting some of the common macrophyte accumulators that have been studied. Three common macrophyte planting systems (i) constructed wetlands (CWs), (ii) wild macrophyte planting/harvesting and (iii) floating treatment wetlands (FTWs) are considered to understand how macrophytes are deployed for targeted aquatic phytoremediation. Important practical considerations for implementing aquatic phytoremediation include the use of invasive species, the optimal harvesting time and frequency for pollutant removal with macrophyte biomass, and the full extent of the role that microbial biofilms play in phytoremediation. In this chapter, these issues are unpacked and recommendations for future programmes of research and development are made. Finally, the opportunities to generate ‘added value’ from expanding aquatic phytoremediation in terms of the provision of ecosystem services and the potential for resource recovery are outlined.

Keywords
Macrophytes; Phytoremediation; Floating treatment; wetlands; Resource recovery; Ecosystem services; Diffuse pollution

StatusPublished
Funders
Title of seriesConcepts and Strategies in Plant Sciences
Publication date31/12/2020
Publication date online12/04/2019
URL
PublisherSpringer
Place of publicationCham, Switzerland
ISSN of series2662-3188
ISBN978-3-030-00098-1
eISBN978-3-030-00099-8

People (3)

Professor David Oliver

Professor David Oliver

Professor, Biological and Environmental Sciences

Professor Richard Quilliam

Professor Richard Quilliam

Professor, Biological and Environmental Sciences

Professor Nigel Willby

Professor Nigel Willby

Professor & Associate Dean of Research, Biological and Environmental Sciences

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