Quantifying visual acuity in Heliconius butterflies
Data files
Nov 14, 2023 version files 21.88 KB
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cyrbia_visual_acuity.R
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eye_morph_cyr.csv
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male_tests.csv
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opt_cyr.csv
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README.md
Abstract
Heliconius butterflies are well-known for their colourful wing patterns, which advertise distastefulness to potential predators and are used during mate choice. However, the relative importance of different aspects of these signals will depend on the visual abilities of Heliconius and their predators. Previous studies have investigated colour sensitivity and neural anatomy, but visual acuity (the ability to perceive detail) has not been studied in these butterflies. Here, we provide the first estimate of visual acuity in Heliconius: from a behavioural optomotor assay, we found that mean visual acuity = 0.49 cycles-per-degree (cpd), with higher acuity in males than females. We also examined eye morphology and report more ommatidia in male eyes. Finally, we estimated how visual acuity affects Heliconius visual perception compared to a potential avian predator. Whereas the bird predator maintained high resolving power, Heliconius lost the ability to resolve detail at greater distances, though colours may remain salient. These results will inform future studies of Heliconius wing pattern evolution, as well as other aspects in these highly visual butterflies, which have emerged as an important system in studies of adaptation and speciation.
README: Quantifying visual acuity in Heliconius butterflies
https://doi.org/10.5061/dryad.2z34tmpsk
GENERAL INFORMATION
1. Title of Dataset: Quantifying visual acuity in Heliconius butterflies
2. Author Information:
- Daniel Shane Wright (Division of Evolutionary Biology, Faculty of Biology, LMU Munich, Planegg-Martinsried, Germany)
- Anupama Nayak Manel (Division of Evolutionary Biology, Faculty of Biology, LMU Munich, Planegg-Martinsried, Germany)
- Michelle Guachamin-Rosero (Division of Evolutionary Biology, Faculty of Biology, LMU Munich, Planegg-Martinsried, Germany; Universidad Regional Amazónica IKIAM, Tena, Ecuador)
- Pamela Chamba-Vaca (Division of Evolutionary Biology, Faculty of Biology, LMU Munich, Planegg-Martinsried, Germany; Universidad Regional Amazónica IKIAM, Tena, Ecuador)
- Caroline Nicole Bacquet (Universidad Regional Amazónica IKIAM, Tena, Ecuador)
- Richard M. Merrill (Division of Evolutionary Biology, Faculty of Biology, LMU Munich, Planegg-Martinsried, Germany)
3. Date of data collection: 2022-2023
4. Geographic location of data collection: Tena\, Napo\, Ecuador
5. Information about funding sources that supported the collection of the data: ERC starting grant (Grant number: 851040)
SHARING/ACCESS INFORMATION
1. Publications that cite or use the data: Wright DS\, Manel AN\, Guachamin-Rosero M\, Chamba-Vaca P\, Bacquet CN\, Merrill RM. (2023). Quantifying visual acuity in Heliconius butterflies. Biology Letters.
2. Links to other publicly accessible locations of the data: https://github.com/SpeciationBehaviour/quantifying_visual_acuity
3. Links/relationships to ancillary data sets: None
4. Was data derived from another source? No
DATA & FILE OVERVIEW
1. File list:
- cyrbia_visual_acuity.R
- opt_cyr.csv
- eye_morph_cyr.csv
- male_tests.csv
2. Relationship between files\, if important: None
3. Additional related data collected that was not included in the current data package: None
FILE-SPECIFIC INFORMATION FOR: cyrbia_visual_acuity.R
Annotated R-scripts for all related analyses and figures
DATA-SPECIFIC INFORMATION FOR: opt_cyr.csv
The dataset for the behavioural optomotor assay
1. Number of variables: 11
2. Number of cases/rows: 49
3. Variable List:
- date: date of optomotor assay (dd.mm.yyyy)
- time: time of day for the optomtor assay (hhmm)
- weather: outside weather conditions at the time of test (sun = sunny with minimal clouds; over50 = more than 50% cloud cover; overcast = complete cloud cover; rain = rain)
- id: individual identification of each butterfly
- species: species identify of each butterfly (Cyrbia = Heliconius erato cyrbia)
- sex: F = female; M = male
- origin: source of the butterfly (reared = insectary reared)
- date_emerged: date butterfly emerged from pupae (dd.mm.yyyy)
- age: age at testing in number of days
- threshold: visual acuity threshold (in cycles per degree) from the optomotor assay
- observer: researcher conducting the optomotor test
4. Missing data codes: None
5. Specialized formats or other abbreviations used: None
DATA-SPECIFIC INFORMATION FOR: eye_morph_cyr.csv
The dataset of outer eye morphology measurements
1. Number of variables: 9
2. Number of cases/rows: 14
3. Variable List:
- id: individual identification of each butterfly
- lmu_no: sample identification for each preserved butterfly
- species: species identify of each butterfly (Cyrbia = Heliconius erato cyrbia)
- sex: F = female; M= male
- L_count: number of ommatidia in the left eye
- R_count: number of ommatidia in the right eye
- L_tibia: length of the left hind tibia (mm)
- R_tibia: length of the right hind tibia (mm)
- observer: researcher conducting the optomotor test
4. Missing data codes: NA (data not available)
5. Specialized formats or other abbreviations used: None
DATA-SPECIFIC INFORMATION FOR: male_tests.csv
The dataset for additional ‘male only’ optomotor tests ( at levels >1.0 cpd)
1. Number of variables: 7
2. Number of cases/rows: 20
3. Variable List:
- date: date of optomotor assay (dd.mm.yyyy)
- time: time of day for the optomtor assay (hhmm)
- weather: outside weather conditions at the time of test (sun = sunny with minimal clouds; over50 = more than 50% cloud cover; overcast = complete cloud cover; rain = rain)
- id: individual identification of each butterfly
- sex: F = female; M= male
- threshold: visual acuity threshold (in cycles per degree) from the optomotor assay
- observer: researcher conducting the optomotor test
4. Missing data codes: None
5. Specialized formats or other abbreviations used: None