# Assessment of Effects of Discharged Firefighting Water on the Nemunas River Based on Biomarker Responses

**Authors:** Laura Butrimavičienė, Virginija Kalcienė, Reda Nalivaikienė, Kęstutis Arbačiauskas, Kęstutis Jokšas, Aleksandras Rybakovas

PMC · DOI: 10.3390/toxics14010041 · Toxics · 2025-12-30

## TL;DR

This study examines how firefighting water affected the Nemunas River ecosystem by analyzing chemical contamination and biomarker responses in mussels.

## Contribution

The study uniquely evaluates the long-term ecological impact of firefighting water discharge in a less anthropogenically stressed river ecosystem.

## Key findings

- Elevated trace metals and genotoxic damage were observed in mussels downstream from the wastewater treatment plant.
- PAH metabolite concentrations increased over time, indicating heightened oxidative stress and neurotoxic effects.
- Changes in metal profiles and PAH contamination were linked to the resumption of routine activities post-pandemic.

## Abstract

This study estimates the levels of chemical contamination and the responses of biochemical and cytogenetic biomarkers in Unio pictorum from the Nemunas River after a large-scale fire at a tire storage and processing warehouse (in October 2019), as well as after the subsequent discharge of partially cleaned water used for firefighting. The impact of firefighting water (FW) on the River Nemunas ecosystem was assessed. Elevated levels of trace metals (Pb, Cu, Co, Cr, Al, Zn) in U. pictorum mussels collected downstream from the wastewater treatment plant (WTP) discharger were measured in the first year after the accident. Genotoxic aberrations in gill cells were significantly more frequent in mussels collected downstream of the WTP discharger, along with higher frequencies of cytotoxic damage and changes in acetylcholinesterase activity. PAH metabolite concentrations, including naphthalene (Nap) and benzo(a)pyrene (B(α)P), were also elevated in haemolymph in U. pictorum gathered downstream from the discharger, but differences were not statistically significant. The total sum of 16 PAH concentrations in mussels collected in 2021 and 2022 was over 5 times higher than those in 2020, and the profile of accumulated metals shifted, with Ni, Cd, Cr, and Pb concentrations decreasing while Zn increased significantly. Mussel haemolymph in 2021 contained the highest levels of B(α)P-type PAH metabolites, indicating increased oxidative stress and neurotoxic impact. The results of chemical analysis and the values of genotoxic aberrations determined in gill cells of U. pictorum collected in 2021 and 2022 indicate an increase in PAH contamination and geno-cytotoxic impact compared to the results of 2020; these changes might be related to the gradual cancellation of COVID-19 restrictions and restoration of routine activities. The study provided an opportunity to demonstrate the unique response of a less anthropogenically stressed ecosystem to the extreme impact of contamination related to the fire on the tire recycling plant.

## Linked entities

- **Chemicals:** Pb (PubChem CID 5352425), Cu (PubChem CID 23978), Co (PubChem CID 281), Cr (PubChem CID 23976), Al (PubChem CID 104727), Zn (PubChem CID 23994), naphthalene (PubChem CID 931), benzo(a)pyrene (PubChem CID 2336), PAH (PubChem CID 2148)
- **Species:** Unio pictorum (taxon 55837), Mus musculus (taxon 10090)

## Full-text entities

- **Diseases:** COVID-19 (MESH:D000086382), cytotoxic (MESH:D064420), fire (MESH:D000092422), neurotoxic (MESH:D020258)
- **Chemicals:** Al (MESH:D000535), Pb (MESH:D007854), Cu (MESH:D003300), Zn (MESH:D015032), Ni (MESH:D009532), Cr (MESH:D002857), Cd (MESH:D002104), Nap (MESH:C031721), B(alpha)P (-), benzo(a)pyrene (MESH:D001564), Co (MESH:D003035)
- **Species:** Unio pictorum (painter's mussel, species) [taxon 55837]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC12845875/full.md

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12845875/full.md

## References

62 references — full list in the complete paper: https://tomesphere.com/paper/PMC12845875/full.md

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Source: https://tomesphere.com/paper/PMC12845875