EGU21-6573
https://doi.org/10.5194/egusphere-egu21-6573
EGU General Assembly 2021
© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

The effects of organic matter and flooding on the ecotoxicity of pore water in soils developed in the sites of historical arsenic mining: application of biological tests with crustacean zooplankton 

Katarzyna Szopka1, Iwona Gruss2, Dariusz Gruszka1, Anna Karczewska1, Agnieszka Dradrach3, and Bernard Gałka1
Katarzyna Szopka et al.
  • 1Institute of Soil Science and Environmental Protection, Wroclaw University of Environmental and Life Sciences, Wrocław, Poland
  • 2Plant Protection Department, Wroclaw University of Environmental and Life Sciences, Wrocław, Poland
  • 3Institute of Agroecology and Plant Production, Wroclaw University of Environmental and Life Sciences, Wrocław, Poland

Arsenic is a trace metalloid, potentially toxic for humans, animals and for plants. The problem of soil pollution with arsenic occurs in Poland only on a local scale, but in the Sudetes and in their foreland, there are several sites were arsenic was mined in the past. Particularly high concentrations of As in soils were confirmed in Złoty Stok, formerly the main European centre of arsenic industry. Decomposing forest litter as well as flooding can affect mobilization of As and other toxic elements, change their speciation in pore water and influence the toxicity to biota. This study examined the chemistry and ecotoxicity of pore water acquired from two soils that developed in a former As mining site: from the “Orchid dump” and from a nearby forest. Soils used in the experiment  contained very high concentrations of As: 2020 and 19600 mg/kg.  An unpolluted soil was used as a control. Soil samples were incubated in various moisture conditions (70%  of water holding capacity and 100% flooding), in the presence and absence of organic matter introduced with forest litter collected from a beech stand. Soil pore water was collected three times (after 7, 21 and 90 days) with MacroRhizon suction samplers. Chemical analysis of pore water involved the measurements of concentrations of As and potentially toxic metals, including Mn and Fe, as well as the concentrations of P. Ecotoxicity of pore water was examined in two bioassays: THAMNOTOXKIT F and RAPIDTOXKIT F. The Thamnocephalus platyurus toxicity test is a 24h bioassay based on the mortality of the test organisms (freshwater crustaceans). The sublethal effects were determined using RAPIDOTOXKIT, based on ISO standard 2011. This procedure measures the feeding inhibition of the juveniles of T. platyurus. A very high toxicity to T. platyurus was confirmed in the pore water of the soil richer in As, where all the organisms died. High mortality of crustaceans > 83,33 % was found in the pore water of soil collected from the Orchid dump, in particular after a longer incubation period. The addition of beech litter, as well as soil flooding, caused an increased mortality of test organisms that reached 100%, regardless of the time of incubation. In the pore water of less polluted soil, collected from the forest site in Złoty Stok, an increased mortality of crustaceans was observed upon the addition of beech litter. The RAPIDOTOXKIT test turned out less sensitive to high concentrations of As and other toxic components present in soil pore water. The feeding inhibition did not correspond directly with the concentrations of As. However, in the case of samples with the highest As concentration (130 mg/L), found in pore water of the Orchid dump soil treated with beech litter and fully flooded, the feeding inhibition reached 100%.

This research was funded by the National Science Centre of Poland; Project No. 2016/21/B/ST10/02221

How to cite: Szopka, K., Gruss, I., Gruszka, D., Karczewska, A., Dradrach, A., and Gałka, B.: The effects of organic matter and flooding on the ecotoxicity of pore water in soils developed in the sites of historical arsenic mining: application of biological tests with crustacean zooplankton , EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-6573, https://doi.org/10.5194/egusphere-egu21-6573, 2021.

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