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http://hdl.handle.net/11667/197
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DC Field | Value | Language |
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dc.contributor | Boulton, Rebecca A | - |
dc.contributor.other | Other | en_GB |
dc.coverage.spatial | N 50° 41’ 24” W 4° 41’ 24” | en_GB |
dc.coverage.spatial | N 50° 30’ 36” W 4° 33’ 36” | en_GB |
dc.coverage.spatial | 54° 32’ 24” W 5° 58’ 48” | en_GB |
dc.coverage.spatial | N 57° 53’ 24” W 4° 15’ 0” | en_GB |
dc.coverage.spatial | N 50° 53’ 60” W 0° 21’ 36” | en_GB |
dc.coverage.temporal | 06-2018-08-2020 | en_GB |
dc.creator | Boulton, Rebecca | - |
dc.creator | Field, Jeremy | - |
dc.date.accessioned | 2022-06-01T07:51:29Z | - |
dc.date.available | 2022-06-01T07:51:29Z | - |
dc.identifier.uri | http://hdl.handle.net/11667/197 | - |
dc.description.abstract | The social Hymenoptera have contributed much to our understanding of the evolution of sensory systems. Attention has focussed chiefly on how sociality and sensory systems have evolved together. In the Hymenoptera, the antennal sensilla are important for optimising the perception of olfactory social information. Social species have denser antennal sensilla than solitary species, which is thought to enhance social cohesion through nest-mate recognition. In the current study, we test whether sensilla numbers vary between populations of the socially plastic sweat bee Halictus rubicundus from regions that vary in climate and the degree to which sociality is expressed. We found region level differences in both olfactory and hygro/thermoreceptive sensilla numbers. We also found evidence that olfactory sensilla density is developmentally plastic: when we transplanted bees from Scotland to the south-east of England, their offspring (which developed in the south) had more olfactory hairs than the transplanted individuals themselves (which developed in Scotland). The transplanted bees displayed a mix of social (a queen plus workers) and solitary nesting, but neither individual nor nest phenotype was related to sensilla density. We suggest that this general, rather than caste-specific sensory plasticity provides a flexible means to optimise sensory perception according to the most pressing demands of the environment. Sensory plasticity may support social plasticity in H. rubicundus but does not appear to be causally related to it. | en_GB |
dc.description.tableofcontents | Bee.antenna read.me This read me provides details about the headers in each of the .txt files in this repository: Files:I0R - all files for calculating intra-observer reliability. All values in the same row represent repeated counts of sensillae from the same antenna. File name: IOR-Q-Sp-2.txt Sp1: Number of type i sensilla counted across 3 quadrats, first measurement; Sp2: Number of type i sensilla counted across 3 quadrats, second measurement File name: IOR-Q-Stb-2.txt Stb1: Number of type ii sensilla counted across 3 quadrats, first measurement; Stb2: Number of type i sensilla counted across 3 quadrats, second measurement File name: IOR-Q-Sacc-2.txt Sacc1: Number of type iii sensilla counted across 3 quadrats, first measurement; Sacc2: Number of type iii sensilla counted across 3 quadrats, second measurement File name: IOR-full-2.txt Sacc-all-1: Number of type iii sensilla counted across full antennal segment, first measurement; Sacc-all-2: Number of type iii sensilla counted across full antennal segment, second measurement File name: IOR-Q-Sp-3.txt Sp1: Number of type i sensilla counted across 3 quadrats, first measurement; Sp2: Number of type i sensilla counted across 3 quadrats, second measurement; Sp3: Number of type i sensilla counted across 3 quadrats, third measurement File name: IOR-Q-Stb-3.txt Stb1: Number of type ii sensilla counted across 3 quadrats, first measurement; Stb2: Number of type i sensilla counted across 3 quadrats, second measurement; Stb3: Number of type i sensilla counted across 3 quadrats, third measurement File name: IOR-Q-Sacc-3.txt Sacc1: Number of type iii sensilla counted across 3 quadrats, first measurement; Sacc-all-2: Number of type iii sensilla counted across 3 quadrats, second measurement; Sacc3: Number of type iii sensilla counted across 3 quadrats, third measurement File name: IOR-full-3.txt Scac1: Number of type iii sensilla counted across full antennal segment, first measurement; Scac2: Number of type iii sensilla counted across full antennal segment, second measurement; Scac3: Number of type iii sensilla counted across full antennal segment, third measurement; File name: Full-antennae-all.txt This file is used for analyses of regional differences in sensilla counts (REgion models) Imaged: Date the bee antenna was imaged on Individual: The unique code given to each indiviudal bee Seg.ID: The unique code given to each antennal segment for each bee (x 2 per bee). Suffix .9 refers to segment 11 and .10 to segment 12. Seg: Segment number, 9 = segment 11 and 10 = segment 12 (tip) Scac: Total type iii sensilla counted across each antennal segment Sp.sum: Sum of type i sensilla counted across 3 quadrants (50x50uM) (x 2 segments per bee) Stb.sum: Sum of type ii sensilla counted across 3 quadrants (50x50uM) (x 2 segments per bee) Region: North (Belfast), South-West, Scotland. Refers to where bees were collected. Used as indpendent variable in 'region' model. Population: More detailed data about where in each region bees were collected (Bodmin vs Boscastle for the South-West bees). Latitude: Latitude of site where bees were sampled Longitude: Longitude of site where bees were sampled Year: Year that bees were sampled Month: Month of year (numerical; Jan = 1) when bees were sampled. File name: Knepp-transplant-full.txt This file is used for analysing whether there is an effect of where bees developed on sensilla numbers (Transplant models). Imaged: Date the bee antenna was imaged on Individual: The unique code given to each indiviudal bee Seg.ID: The unique code given to each antennal segment for each bee (x 2 per bee). Suffix .9 refers to segment 11 and .10 to segment 12. Seg: Segment number, 9 = segment 11 and 10 = segment 12 (tip) Scac: Total type iii sensilla counted across each antennal segment Sp.sum: Sum of type i sensilla counted across 3 quadrants (50x50uM) (x 2 segments per bee) Stb.sum: Sum of type ii sensilla counted across 3 quadrants (50x50uM) (x 2 segments per bee) Origin: Where the bees were collected (Natal site = Migdale, transplant site = Knepp) Latitude: Latitude of site where bees were sampled Longitude: Longitude of site where bees were sampled Year: Year that bees were sampled Month: Month of year (numerical; Jan = 1) when bees were sampled. File name: Bee.phen.txt This file is used for testing whether bees from solitary or social nests, bees of different phenotypes (workers, solitary foundresses), or bees of different ages have different sensilla numbers. Imaged: Date the bee antenna was imaged on Individual: The unique code given to each indiviudal bee Seg.ID: The unique code given to each antennal segment for each bee (x 2 per bee). Suffix .9 refers to segment 11 and .10 to segment 12. Seg: Segment number, 9 = segment 11 and 10 = segment 12 (tip) Scac: Total type iii sensilla counted across each antennal segment Sp.sum: Sum of type i sensilla counted across 3 quadrants (50x50uM) (x 2 segments per bee) Stb.sum: Sum of type ii sensilla counted across 3 quadrants (50x50uM) (x 2 segments per bee) Age: Whether the bee was fresh (newly emerged and had not provisioned a nest) or old (had provisioned a nest for several weeks) Phenotype.2: The phenotype of the individual bee. Future-rep = future reproductive, a B1 individual that emerged in 2020 and did not provision that year; Worker = a B1 individual that provisioned a nest containing a queen; Sol-F = a foundress that emerged in SCO in 2019 and laid eggs/provisioned a nest alone without workers in the south-east; Sol-B1 = a female that emerged in the B1 generation in 2020 in the SE and provisioned a nest alone Nest.phenotype = phenotype of the nest, solitary (only one female provisioning alone) or social (multiple bees provisioning the same nest). Latitude: Latitude of site where bees were sampled Longitude: Longitude of site where bees were sampled Year: Year that bees were sampled Month: Month of year (numerical; Jan = 1) when bees were sampled. Antenna-Supp-20.5.21: Table S1 Intraclass correlation coefficients for intra-rater reliability of all antenna types. Table S2: Shown are monthly maximum, minimum and mean temperatures (means ± standard deviations across all months) in years that bees that were collected from each site developed. Data from two years are provided for Migdale (Scotland) as bees were collected in two years (2018 and 2020 after developing in 2017 and 2019 (www.wunderground.com/history). Also included are soil temperatures recorded at depths of 1cm and 15cm at Migdale and Knepp sites in 2019 and 2020 respectively (using TinyTag data loggers; Gemini data loggers). At Knepp 1 logger was deployed and recovered at 1cm and 1 at 15cm. At Migdale 4 loggers were deployed and recovered at 1cm and 2 at 15cm. | en_GB |
dc.language.iso | eng | en_GB |
dc.publisher | University of Stirling, Faculty of Natural Sciences. | en_GB |
dc.relation | Boulton, R; Field, J (2022): Data from ‘Sensory plasticity in a socially plastic bee’. Version 1. University of Stirling. Faculty of Natural Sciences. Dataset. http://hdl.handle.net/11667/197 | en_GB |
dc.relation.isversionof | https://github.com/DrBecky-B/Bee.Antennae | en_GB |
dc.relation.isreferencedby | Boulton, R.A. and Field, J. (2022) Sensory plasticity in a socially plastic bee. [Preprint] bioRxiv 2022.01.29.478030. DOI: https://doi.org/10.1101/2022.01.29.478030 | en_GB |
dc.rights | Rights covered by the standard CC-BY 4.0 licence: https://creativecommons.org/licenses/by/4.0/ | en_GB |
dc.subject | Eusociality | en_GB |
dc.subject | Hymenoptera | en_GB |
dc.subject | Halictidae | en_GB |
dc.subject | Phenotypic plasticity | en_GB |
dc.subject | Social plasticity | en_GB |
dc.subject | Sensory plasticity | en_GB |
dc.subject | Antenna | en_GB |
dc.subject | Sensilla | en_GB |
dc.subject.classification | ::Ecology, biodiversity and systematics | en_GB |
dc.title | Data from 'Sensory plasticity in a socially plastic bee' | en_GB |
dc.type | dataset | en_GB |
dc.description.version | 1 | en_GB |
dc.contributor.email | r.boulton@stir.ac.uk | en_GB |
dc.identifier.projectid | 695744 | en_GB |
dc.contributor.affiliation | University of Stirling | en_GB |
dc.contributor.affiliation | Wageningen University and Research | en_GB |
dc.contributor.affiliation | University of Exeter | en_GB |
dc.contributor.othernew | European Research Council | en_GB |
dc.date.publicationyear | 2022 | en_GB |
Appears in Collections: | University of Stirling Research Data |
Files in This Item:
File | Description | Size | Format | |
---|---|---|---|---|
Bee-antenna-code-revision-2.2.22.R | 20.39 kB | Unknown | View/Open | |
Bee.phen.txt | 8.98 kB | Text | View/Open | |
Full-antennae-all.txt | 7.8 kB | Text | View/Open | |
IOR-full-2.txt | 134 B | Text | View/Open | |
IOR-full-3.txt | 90 B | Text | View/Open | |
IOR-Q-Sacc-2.txt | 185 B | Text | View/Open | |
IOR-Q-Sacc-3.txt | 236 B | Text | View/Open | |
IOR-Q-Sp-2.txt | 201 B | Text | View/Open | |
IOR-Q-Sp-3.txt | 226 B | Text | View/Open | |
IOR-Q-Stb-2.txt | 240 B | Text | View/Open | |
IOR-Q-Stb-3.txt | 307 B | Text | View/Open | |
Knepp-transplant-full.txt | 8.08 kB | Text | View/Open | |
Readme.docx | 13.77 kB | Microsoft Word XML | View/Open | |
Antenna-Supp-20.5.21.pdf | 68.09 kB | Adobe PDF | View/Open |
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