Wildfire effects on two freshwater producers: Combining in-situ and laboratory bioassays

Ana Ré; Isabel Campos; Maria J Saraiva; João Puga; Jan Jacob Keizer; Fernando J M Gonçalves; Joana L Pereira; Nelson Abrantes

doi:10.1016/j.ecoenv.2020.110361

Wildfire effects on two freshwater producers: Combining in-situ and laboratory bioassays

Ecotoxicol Environ Saf. 2020 May:194:110361. doi: 10.1016/j.ecoenv.2020.110361. Epub 2020 Feb 29.

Authors

Ana Ré¹, Isabel Campos², Maria J Saraiva², João Puga², Jan Jacob Keizer², Fernando J M Gonçalves¹, Joana L Pereira¹, Nelson Abrantes³

Affiliations

¹ Department of Biology and CESAM (Centre for Environmental and Marine Studies), University of Aveiro, Aveiro, Portugal.
² Earth Surface Processes Team, CESAM and Department of Environment and Planning, University of Aveiro, Aveiro, Portugal.
³ Earth Surface Processes Team, CESAM and Department of Environment and Planning, University of Aveiro, Aveiro, Portugal. Electronic address: njabrantes@ua.pt.

PMID: 32126411
DOI: 10.1016/j.ecoenv.2020.110361

Abstract

Mediterranean forests are highly susceptible to wildfires, which can cause several impacts not only within burnt areas but also on downstream aquatic ecosystems. The ashes' washout from burnt areas by surface runoff can be a diffuse source of toxic substances, such as metals, when reaching the nearby aquatic systems, and can be noxious to aquatic organisms. The present work aimed at assessing the ecotoxicological effects of post-fire contamination on two aquatic producers (the microalgae Raphidocelis subcapitata and the macrophyte Lemna minor) through in-situ bioassays, validating the obtained results with the outcomes of laboratory bioassays with surface water collected simultaneously. Four distinct sites were selected in a basin partially burnt (Ceira river basin; Coimbra district, Portugal) for bioassay deployment: one site upstream the burnt area in the Ceira river (RUS); three sites located under the influence of the burnt area, one immediately downstream of the burnt area in the Ceira river (RDS) and the other two in tributary streams within the burnt area (BS₁ and BS₂). The in-situ bioassays lasted for 13 days and began following the first post-fire major rain events. Results showed that the microalgae growth rate was able to distinguish the three sites within and downstream of the burnt area (BS₁, BS₂, RDS) from the site upstream (RUS). By contrast, the macrophytes growth rate only allowed to differentiate between the sites within the burnt area (BS₁ and BS₂) and those up- and downstream of the burnt area (RUS and RDS). The in-situ results for both species were corroborated with the results of the laboratory experiments, supporting the use of laboratory surrogates for a screening assessment of wildfire impacts in aquatic ecosystems. Direct causal relationships between the observed ecotoxicological effects on R. subcapitata and L. minor and the physical-chemical parameters of the water samples were difficult to establish, although the results suggest (i) a role of differential major and trace metal load in explaining species growth variation; (ii) interaction between metals and/or between metals and other field parameters are likely to modulate the biological responses to the challenges deriving from wildfire runoff.

Keywords: In-situ bioassays; Metals; Producers; Riverine ecosystems; Wildfire effects.

MeSH terms

Aquatic Organisms / physiology*
Araceae / drug effects
Biological Assay*
Ecosystem
Ecotoxicology
Environmental Monitoring / methods*
Fires
Forests
Fresh Water / chemistry
Metals / pharmacology
Portugal
Rain
Rivers / chemistry
Trace Elements / pharmacology
Wildfires*

Substances

Metals
Trace Elements