Plant Based Phosphorus Recovery from Wastewater Via Algae and Macrophytes

Overview

Journal Curr Opin Biotechnol

Publisher Elsevier

Specialty Biotechnology

Date 2012 Aug 15

PMID 22889679

Citations 12

Authors

Andrew N Shilton

Nicola Powell

Benoit Guieysse

Affiliations

Soon will be listed here.

Abstract

At present, resource recovery by irrigation of wastewater to plants is usually driven by the value of the water resource rather than phosphorus recovery. Expanded irrigation for increased phosphorus recovery may be expected as the scarcity and price of phosphorus increases, but providing the necessary treatment, storage and conveyance comes at significant expense. An alternative to taking the wastewater to the plants is instead to take the plants to the wastewater. Algal ponds and macrophyte wetlands are already in widespread use for wastewater treatment and if harvested, would require less than one-tenth of the area to recover phosphorus compared to terrestrial crops/pastures. This area could be further decreased if the phosphorus content of the macrophytes and algae biomass was tripled from 1% to 3% via luxury uptake. While this and many other opportunities for plant based recovery of phosphorus exist, e.g. offshore cultivation, much of this technology development is still in its infancy. Research that enhances our understanding of how to maximise phosphorus uptake and harvest yields; and further add value to the biomass for reuse would see the recovery of phosphorus via plants become an important solution in the future.

Citing Articles

Chloroplast phosphate transporter CrPHT4-7 regulates phosphate homeostasis and photosynthesis in Chlamydomonas.

Toth D, Kuntam S, Ferenczi A, Vidal-Meireles A, Kovacs L, Wang L Plant Physiol. 2023; 194(3):1646-1661.

PMID: 37962583 PMC: 10904345. DOI: 10.1093/plphys/kiad607.

More efficient phosphorus use can avoid cropland expansion.

Mogollon J, Bouwman A, Beusen A, Lassaletta L, van Grinsven H, Westhoek H Nat Food. 2023; 2(7):509-518.

PMID: 37117673 DOI: 10.1038/s43016-021-00303-y.

Engineering microalgae for water phosphorus recovery to close the phosphorus cycle.

Wang L, Jia X, Xu L, Yu J, Ren S, Yang Y Plant Biotechnol J. 2023; 21(7):1373-1382.

PMID: 36920783 PMC: 10281605. DOI: 10.1111/pbi.14040.

Wheat Can Access Phosphorus From Algal Biomass as Quickly and Continuously as From Mineral Fertilizer.

Mau L, Kant J, Walker R, Kuchendorf C, Schrey S, Roessner U Front Plant Sci. 2021; 12:631314.

PMID: 33584779 PMC: 7879783. DOI: 10.3389/fpls.2021.631314.

Learning from microorganisms: using new insights in microbial physiology for sustainable nitrogen management.

Garrido-Amador P, Kniaziuk M, Vekeman B, Kartal B Curr Opin Biotechnol. 2021; 67:42-48.

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