Spring dispersal and reproductive potential Ips typographus
Data files
Dec 19, 2024 version files 346.59 KB
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data21_final.csv
8.03 KB
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data23_final.csv
335.98 KB
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README.md
2.58 KB
Abstract
Diapause is a common strategy in insects to respond to reoccurring adverse events. The European spruce bark beetle Ips typographus is an important forest pest in Eurasia affecting spruce-dominated forests by eruptive outbreaks, which are likely to become more frequent and severe in a changing climate. It expresses a reproductive diapause to cope with harsh winter conditions. As diapause also affects the activity and voltinism of I. typographus, understanding its regulation by abiotic environmental factors can help to mitigate outbreak risks, e.g. by coordinating management measures or adapting silvicultural strategies. While diapause induction in late summer and autumn has been shown to be mainly triggered by photoperiod and modified by temperature, information on environmental cues affecting post-diapause swarming in spring is scarce. In late winter/early spring 2021 and 2023, we conducted a laboratory experiment assessing spring swarming and reproductive potential of I. typographus after diapause termination under various temperature and photoperiodic conditions. We applied mean temperatures between 13 and 23 °C with daily oscillations of ±5 °C and daylengths between 9 and 14 h (January to April). Post-diapause temperature sums had the strongest effect on spring swarming, modified by daily maximum temperatures, while photoperiods only had a small and ambiguous effect. In contrast, reproductive potential of dispersing beetles remained almost unaffected by temperature sum, daily temperature, and photoperiod. Our results show that spring swarming can potentially start right after cold temperatures in mid-winter have terminated diapause. Ongoing climate warming will consequently extend the reproductive season, likely increasing voltinism and population density of I. typographus. Our findings can be implemented in phenology- and risk assessment models to more accurately predict the temperature-dependent phenology and infestation risk in a future climate, to ultimately facilitate bark beetle management (e.g. sanitation and salvage logging) and guide long-term silvicultural adaptations.
README: Spring dispersal and reproductive potential Ips typographus
https://doi.org/10.5061/dryad.0k6djhb9b
Description of the data and file structure
In late winter/early spring 2021 and 2023, we conducted a laboratory experiment assessing spring swarming and reproductive potential of I. typographus after diapause termination under various temperature and photoperiodic conditions. We applied mean temperatures between 13 and 23 °C with daily oscillations of ±5 °C and daylengths between 9 and 14 h (January to April). Flight activity was assessed by counting emerging beetles from experimental logs, while reproductive potential was assessed by disecting female beetles to record the mean number of eggs per ovariole and the mean relative vitellarium length.
Files and variables
File: data21.csv
Description: all data recorded in the experiment in 2021
Variables
- trial: trial of the respective observation
- start: start of the respective trial (Date)
- date: date of the respective observation (Date)
- mean temperature: mean temperature of the scenario (°C)
- amplitude: amplitude of the scenario (°C)
- temperature curve: type of temperature curve of the scenario
- daylength: daylength of the respective trial (hours)
- emerged individuals: emerged individuals recorded at the respective observation (n)
File: data23.csv
Description: all data recorded in the experiment in 2023
Variables
- trial: trial of the respective observation
- start: start of the respective trial (Date)
- date: date of the respective observation (Date)
- mean temperature: mean temperature of the scenario (°C)
- amplitude: amplitude of the scenario (°C)
- temperature curve: type of temperature curve of the scenario
- daylength: daylength of the respective trial (hours)
- total emerged individuals: (n); total individual in respective observation
- individual: sampling number for dissected individual; NA indicates observations that are not applicable
- sex: sex of the respective individual (f = female, m = male); NA indicates observations that are not available
- eggs: number of eggs in the ovariol of the respective individual (n); NA indicates observations that are not applicable
- vitellarium length: vitellarium length of the respective individual (µm); NA indicates observations that are not applicable
- total length: total ovariole length of the respective individual (µm); NA indicates observations that are not applicable
Code/software
Data can be opend using R-Studio
Methods
In laboratory experiments performed in 2021 and 2023, emergence of Ips typographus von experimental logs and the reprodutive potential of female beetles was assessed under different controlled fluctuating temperatures and daylengths.