Data for: Thermoregulation enhances survival but not reproduction in a plant-feeding insect
Data files
Mar 13, 2024 version files 172.79 KB
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leith_et_al_2020_ethology_mating_thermal_performance_data.csv
3.72 KB
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README.md
4.90 KB
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treehopper_thermoreg_gradient_validation_data.csv
2.02 KB
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treehopper_thermoreg_meso_field_data.csv
155.96 KB
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treehopper_thermoreg_operative_validation_data.csv
842 B
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treehopper_thermoreg_thermal_preference_data.csv
5.34 KB
Abstract
Temperature influences nearly all aspects of fitness. However, reproduction is often more thermally sensitive than survival. Thermoregulation must maintain performance in both components of fitness to buffer populations from environmental change. We assessed the fitness benefits of thermoregulation in Enchenopa binotata treehoppers. Under realistic mesocosm conditions, we quantified fine-scale microclimates using 3D-printed operative temperature models. We then compared operative temperatures to treehopper body temperatures and translated patterns of thermoregulation into variation in survival and reproduction. We also assessed two thermoregulatory mechanisms: precise microclimate choice and heat escape behaviors. Finally, we applied our results to evaluate if arthropod thermoregulation is accurately characterized by two theoretical models commonly used to simulate responses to environmental change. We found substantial thermal variation at fine spatial scales relevant to insects: at a single point in time, temperatures within 30cm-tall plants spanned ranges up to 19ºC (23-42ºC). Lethal operative temperatures were common when air temperatures were high. However, heat escapes allowed treehoppers to almost entirely avoid lethal temperatures. By contrast, individuals thermo-conformed in the absence of lethal operative temperatures. This finding suggests that precise microclimate choice imposes high costs due to thermal uncertainty at fine spatial scales. Furthermore, given the narrow range of temperatures in which reproduction occurs, thermoregulation is unlikely to maintain reproduction. Thermoregulation was most effective in the lowest-quality and most spatially variable thermal habitats. Treehopper thermoregulation therefore more closely follows cost-benefit models of thermoregulation compared to models that account for inhibited movement at extreme temperatures. Overall, even if thermoregulation can prevent lethal heat stress, thermoregulation may have limited capacity to buffer arthropods and other small ectotherms from environmental change if it cannot maintain reproductive performance.
README: Data for: Thermoregulation enhances survival but not reproduction in a plant-feeding insect
All temperatures are in ºC.
treehopper_thermoreg_operative_validation_data.csv
- Description: Body temperatures and microclimate temperatures for validating the accuracy of 3D-printed operative temperature models.
- Rows: 43, excluding the header. Each row corresponds to a temperature measurement.
Columns: 4. image ID, type, body_temp, habitat_temp:
- image ID: Image file ID
- type: Condition under which body and microclimate temperatures were measured. Shade and sun indicate measurements taken in mesocosms covered by shade or exposed to direct sunlight. Lab indicates measurements taken under controlled laboratory conditions.
- body_temp: Temperature of a living treehopper (ºC).
- habitat_temp: Temperature of a 3D-printed operative temperature model (ºC).
treehopper_thermoreg_meso_field_data.csv
- Description: Body temperatures and microclimate temperatures measured in the mesocosms and at the field site where treehoppers were collected.
- Rows: 1902, excluding the header. Each row corresponds to a temperature measurement.
Columns: 12. date, exp.type, rep.plant, sample, sample.c, type, type.temp, time, time.min, temperature, plant.structure, ambient.temp:
- date: Date of temperature measurement.
- exp.type: Two-level factor indicating whether the measurement was taken in the mesocosms or in the field.
- rep.plant: Replicant mesocosm or field plant.
- sample: Sample period in which the measurement was taken in numeric form.
- sample.c: Sample period in which the measurement was taken in character form.
- type: Two-level factor indicating whether the measurement is a body temperature or microclimate (habitat) temperature.
- type.temp: Three-level factor indicating whether the measurement is a male body temperature, a female body temperature, or microclimate (habitat) temperature.
- time: Time of day that the measurement was taken in 24:00 format.
- time.min: Time of day that the measurement was taken in minutes from midnight.
- temperature: Temperature measurement (ºC).
- plant.structure: Three-level factor indicating the plant structure type (leaf, petiole, or stem) on which the temperature measurement was taken.
- ambient.temp: The macroclimate-level ambient temperature at which the temperature measurement was taken.
treehopper_thermoreg_thermal_preference_data.csv
- Description: Body temperatures selected in the thermal preference experiment.
- Rows: 128, excluding the header. Each row corresponds to an individual thermal preference trial.
Columns: 10. date, time.of.pic, time.min, sex, context , rep.plant, placement, tsel, ambient.temp, cloud.cover:
- date: Date of thermal preference trial.
- time.of.pic: Time of thermal preference trial in 24:00 format.
- time.min: Time of thermal preference trial in minutes since midnight.
- sex: Two-level factor indicating the sex of the individual in the thermal preference trial (M: male; F; female).
- context: Two-level factor indicating the playback treatment used in the trial (R: signal playback; N; white noise).
- rep.plant: Two-level factor indicating the replicate rearing plant for the individual.
- placement: Two-level factor indicating the initial placement of the individual in the gradient.
- tsel: Body temperature selected in the gradient (ºC).
- ambient.temp: The macroclimate-level ambient temperature during the thermal preference trial.
- cloud.cover: The proportion of sky covered by clouds during the thermal preference trial.
treehopper_thermoreg_gradient_validation_data.csv
- Description: Temperatures available in the thermal preference gradient.
- Rows: 150, excluding the header. Each row corresponds to a temperature on the preference dowel.
Columns: 4. day, replicate, position, temperature:
- day: Two-level factor indicating the day that the gradient temperatures were measured.
- replicate: Six-level factor indicating the replicate measurement.
- position: Position along the gradient in centimeters.
- temperature: Temperature of the dowel (ºC).
leith_et_al_2020_ethology_mating_thermal_performance_data.csv
- Description: Mating rate data across temperatures from Leith et al. (2020), Ethology.
- Rows: 102, excluding the header. Each row corresponds to a species.
Columns: 5. id, temp, cop, year, t.temp:
- id: Trial ID.
- temp: Exact incubator temperature in the mating trial (ºC).
- cop: Whether copulation occurred in the mating trial (1: yes; 0: no).
- year: Year in which the trial was performed.
- t.temp: The target temperature for the mating trial (ºC).