# Circular economy: water quality assessment for irrigation purposes in a constructed-wetland scenario

**Authors:** Patrícia Gomes, Marta Pinheiro, José Martins, Joel Castro, Teresa Valente, Vítor Ribeiro, Marina Mendes

PMC · DOI: 10.1038/s41598-025-34161-6 · Scientific Reports · 2026-02-02

## TL;DR

This study shows that treated wastewater from constructed wetlands can be safely used for irrigation, supporting water reuse and sustainability.

## Contribution

The study evaluates the feasibility of using constructed wetlands for producing irrigation-quality water, emphasizing compliance with environmental standards.

## Key findings

- Treated wastewater met national and European irrigation quality standards for most parameters.
- High removal efficiencies were observed for chemical oxygen demand, total suspended solids, and turbidity.
- Ammonium levels exceeded the standards, but SAR values were well within acceptable limits.

## Abstract

Water is an essential natural resource that sustains life and ecosystems. However, the increasing pressure on freshwater reserves due to climate change, rapid population growth, and industrialization is exacerbating the issue of water scarcity. In this context, wastewater reuse has emerged as a vital strategy to address water shortage. Also, it supports the United Nations Sustainable Development Goals and aligns with the principles of the circular economy. In this context, phytoremediation appears to be a viable solution that employs plant species to purify water, thereby contributing to water reuse. So, this study focuses on evaluating the feasibility of using treated wastewater from a constructed wetland for irrigation purposes. The investigation involved establishing a comprehensive monitoring plan, including sampling and analytical processes, followed by in situ and laboratory analyses of the collected water samples. The results indicate that the treated wastewater met the quality standards set by National and European legislation for irrigation purposes. Some parameters, such as chemical oxygen demand, total suspended solids, and turbidity, demonstrate high removal efficiencies, with maximum removal efficiencies exceeding 97%. The anions and potentially toxic elements showed very low values, being within the standards for water reuse for irrigation, except ammonium (NH4+), which did not comply with the standards in any of the campaigns. The SAR, with a value of less than 2, was below the maximum recommended value (MRV) of 8. Overall, the findings support the use of treated wastewater from constructed wetlands for irrigation, which offers an effective solution for water reuse and contributes to environmental sustainability.

## Linked entities

- **Chemicals:** ammonium (PubChem CID 223), NH4+ (PubChem CID 222)

## Full-text entities

- **Diseases:** DL (MESH:C537113), animal (MESH:D000820), Water (MESH:D000069578), COD (MESH:D000860), FL (MESH:C537270), TSS (MESH:D018250)
- **Chemicals:** Lead (MESH:D007854), Mn (MESH:D008345), Sn (MESH:D014001), Se (MESH:D012643), Al (MESH:D000535), F- (MESH:D005461), Water (MESH:D014867), Br- (MESH:D001966), Mo (MESH:D008982), calcium bicarbonate (MESH:C031556), O2 (MESH:D010100), Cu (MESH:D003300), nitrites (MESH:D009573), NTU (-), NO2- (MESH:D009585), Cl- (MESH:D002713), Sodium (MESH:D012964), HNO3 (MESH:D017942), polyethylene (MESH:D020959), NO3- (MESH:C038619), Cd (MESH:D002104), nitrates (MESH:D009566), HCO3- (MESH:D001639), sulfate (MESH:D013431), Cr (MESH:D002857), Li (MESH:D008094), Fe (MESH:D007501), Ba (MESH:D001464), Ni (MESH:D009532), Zn (MESH:D015032), CaCO3 (MESH:D002119), Ca (MESH:D002118), nitrogen (MESH:D009584), Co (MESH:D003035), ammonium (MESH:D064751), V (MESH:D014639), As (MESH:D001151), salts (MESH:D012492), Be (MESH:D001608)
- **Species:** Homo sapiens (human, species) [taxon 9606], Canis lupus familiaris (dog, subspecies) [taxon 9615], Phragmites australis (common reed, species) [taxon 29695]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12868612/full.md

## References

8 references — full list in the complete paper: https://tomesphere.com/paper/PMC12868612/full.md

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Source: https://tomesphere.com/paper/PMC12868612