Data from: Pre-exposure to chemicals increases springtail vulnerability to high temperatures

Wehrli, Micha 1 ; Ge, Jian2; Slotsbo, Stine2; Holmstrup, Martin2

Published Feb 12, 2026 on Dryad. https://doi.org/10.5061/dryad.1rn8pk16m

Data files

Feb 12, 2026 version files 690.37 KB

Data_Pre-exposure_to_chemicals_increases_springtail_vulnerability_to_high_temperatures.xlsx

682.62 KB
README.md

7.75 KB

Abstract

Global climate change is increasing the frequency and intensity of heat waves, posing a significant threat to ectothermic organisms. Concurrently, chemical pollution, including heavy metals and pesticides, remains a pervasive environmental stressor. This study investigates the effects of sublethal copper and fluazinam exposure on the thermal tolerance of the soil-dwelling springtail, Folsomia candida. Using a Thermal Death Time (TDT) framework, we assessed how pre-exposure to these toxicants at two acclimation temperatures (20 °C and 24 °C) influenced survival under heat stress. Our findings indicate that toxicant exposure reduced heat tolerance at moderately high temperatures (32.5 °C) but had negligible effects at extreme temperatures (37 °C). Acclimation at 24 °C mitigated the negative effects of both toxicants, suggesting an enhanced capacity for cellular homeostasis under warm conditions. Additionally, soil type influenced thermal tolerance, highlighting the importance of environmental context in multiple stressor interactions. These findings highlight the need to integrate realistic thermal exposure scenarios in ecotoxicological assessments to improve predictions of organismal vulnerability under climate change.

Dataset DOI: 10.5061/dryad.1rn8pk16m

Description of the data and file structure

Dataset name: Data_Pre-exposure_to_chemicals_increases_springtail_vulnerability_to_high_temperatures.xlsx

Associated publication:
Wehrli, M., Ge, J., Slotsbo, S., & Holmstrup, M. (2025). Pre‑exposure to chemicals increases springtail vulnerability to high temperatures. Global Change Biology, 31:e70374. https://doi.org/10.1111/gcb.70374

Description:
This dataset contains all experimental data underlying the analyses reported in the publication. The study assessed how pre‑exposure to two soil contaminants, fluazinam (a fungicide) and copper, affects the thermal tolerance of the springtail Folsomia candida. After a three‑week exposure to contaminated soil at two acclimation temperatures (20  °C and 24  °C), individuals were subjected to thermal death time (TDT) assays across seven exposure temperatures (31.5–37  °C). The dataset enables the calculation and comparison of survival curves, LT50 values, and TDT landscapes for each chemical, concentration, acclimation temperature, and soil type.

Potential reuse:
The dataset can support research on thermal tolerance modelling, multiple stressor interactions (chemical × temperature), ectotherm physiology, ecotoxicology, and climate‑change risk assessment. It enables recalculation of survival curves, refitting of TDT landscapes, comparison across species or contaminants, or integration into broader meta‑analyses of thermal susceptibility and toxicant interactions.

Files and variables

The dataset is provided as an Excel file containing three sheets:

Sheet 1 — RawResults

Individual‑level survival outcomes from thermal death time assays.

Updated Variable Descriptions (with Chemical Concentrations Included)

Acclimation temperature (°C)
Temperature at which springtails were acclimated during the 3‑week soil exposure period (20  °C or 24  °C).

Treatment

Identifier for the soil chemical treatment including concentration level. The codes correspond to both soil type and chemical concentration: Fluazinam treatments (LUFA soil): – Control: 0 mg/kg – 20A / 24A: 0 mg/kg (LUFA Control) – 20B / 24B: 2 mg/kg fluazinam – 20C / 24C: 10 mg/kg fluazinam Copper treatments (Hygum soil): – 20L / 24L: Low copper (~21 mg/kg) – 20M / 24M: Medium copper (~437 mg/kg) – 20H / 24H: High copper (~690 mg/kg)

Actual exposure temperature (°C)
Exact temperature inside centrifuge tubes during the thermal stress exposure (31.5–37  °C).

Exposure time (min)
Duration (in minutes) animals were held at the exposure temperature before recovery.

Live
Number of animals showing coordinated movement after 24 h at 20  °C.

Dead
Number of animals not showing normal movement after recovery.

Total exposed
Total number of animals exposed in each tube (Live + Dead).

Survival fraction
Proportion surviving (`Live / Total exposed`).

Substance
Type of soil contaminant used during pre‑exposure: Fluazinam or Copper.

Sheet 2 — LT50

LT50 estimates calculated from dose–response models.

Temperature
Water‑bath temperature (°C) at which LT50 was modelled.

Acclimation temperature
Soil acclimation temperature prior to TDT assays (20  °C or 24  °C).

Treatment
Soil treatment group: LUFA control or fluazinam levels (0, 2, 10 mg/kg), Hygum soils (Low/Medium/High copper).

LT50
Time (minutes) required to reach 50% mortality, predicted from log‑logistic models.

Substance
Toxicant associated with the treatment (Fluazinam or Copper).

Sheet 3 — Templogger

Continuous logger output validating temperature stability during assays.

Property
Internal row identifier from the logger export (not an experimental variable).

Date
Excel numeric timestamp of measurement.

Temperature
Recorded water‑bath temperature (°C).

Humidity
Relative humidity inside the logger housing (%).

Logger
Device ID and acclimation group (e.g., “Acc. 20”, “Acc. 24”).

File format:
Microsoft Excel (.xlsx)