Assessing non-reproductive labour in Platycerium bifurcatum
Data files
Jun 08, 2025 version files 7.29 KB
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Dislodgement.csv
1.31 KB
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Morphology.csv
1.87 KB
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Orientation.csv
615 B
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README.md
3.49 KB
Abstract
In complex animal societies, group members often sub-divide labor by focusing on different tasks such as reproduction and defense. While division of labor is well documented in animals, little is known about whether colonial plants exhibit similar patterns in task differentiation. To help bridge this gap in our understanding of sociality, we investigated non-reproductive division of labor in the staghorn fern (Platycerium bifurcatum, Polypodiaceae), an epiphyte that forms colonies of many individual plants, which coalesce into a communal water and nutrient store. We conducted a series of field observations and glasshouse experiments to answer three questions: 1) Are individuals in the upper regions of colonies shaped in ways that facilitate the capture of airborne particulate matter (e.g., leaf-litter)? 2) Do individuals at the apex of colonies decay in ways that inhibit the invasion of colonies by other plant species? 3) Does the anatomy of fronds at the bottom of colonies facilitate water storage? Results show that individuals at the top of colonies were larger and more lobed, which fostered the retention of leaf litter within communal nests. Plants located at the top of colonies also repetitively collapsed over the upper surface of nests as they decayed, inhibiting the germination and growth of foreign plant species. Lastly, individuals at the bottom of colonies produced thicker fronds with larger intra-cellular spaces, which facilitated the storage of rainwater captured above. Overall results demonstrate clear patterns in non-reproductive division of labor within staghorn fern colonies that are similar to highly social animals.
https://doi.org/10.5061/dryad.ksn02v7fb
Description of the data and file structure
This dataset accompanies a study investigating non-reproductive labour in the staghorn fern, Platycerium bifurcatum. The data span field measurements and glasshouse experiments, assessing frond morphology, frond orientation, and leaflitter entrapment. These traits were analyzed to evaluate the potential roles of non-reproductive (nest) fronds in colony structure and function.
The variables frond size, shape, moisture (water content), and orientation were collected in the field on wild colonies.
The variable leaf dislodgement was a glasshouse experiment.
Files and variables
Colony ID is a factor present in all data files and represents sample size for that field or laboratory experiment, and was not directly used in analyses.
File: Dislodgement.csv
Purpose:
Contains data from a glasshouse experiment that tested frond resistance to dislodgement (e.g., wind force). The goal was to evaluate whether intact nest fronds contribute to litterfall entrapment.
Variables:
Independent variable:
- Treatment (intact vs. removed fronds)
Dependent variable:
- Average wind speed (km/h) required for dislodgement
Covariates:
- 3 leaf types provided by 3 tree species
- Legend for the three tree species used for analysis - Coprosma repens = CR, Dodonea viscosa = DV, Myoporum laetum = ML
- SD of average windspeed– Standard deviation of wind speed measurements
- SE of average windspeed – Standard error of the mean wind speed, calculated as SD/√n
- Colony ID: Representation of sample size, i.e., number colonies that were measures in the glasshouse
File: Orientation.csv
Purpose:
Includes field-collected data relating the angle of fronds to their position (nodes) within a colony. Used to assess whether frond orientation is consistent across wild colonies.
Variables:
Independent variable:
- Node number or position of frond emergence along the rhizome axis.
Dependent variable:
- Orientation of the frond: Measured vertically in degrees (0–180°).
Covariate:
- Colony ID: Representation of sample size, i.e., number colonies that were measures in the field
File: Morphology.csv
Purpose:
Contains morphological measurements from 24 wild colonies. The data were used to test whether frond shape, size, and moisture content vary systematically within and between colonies.
Variables:
Independent variable:
- Colony level: Frond position, which was an categorical indicator of frond location within the colony e.g., Lower sections, Mid sections, Higher sections of colonies
Dependent variables:
- Frond surface area: Measured via image analysis (cm)
- Frond lobing: Quantitative index used to assess the extent to which the margins of the frond are indented, measured via image analysis)
- Frond moisture content: Level of water saturation within a single frond
Covariates:
- Colony size: Number of ramets present in a colony
- Colony ID: Representation of sample size, i.e., number colonies that were measures in the field
Code/software
Variables frond surface area and frond lobing located in the Morhology.csv dataset were obtained with ImageJ (version 1.41)
All data was analyzed in RStudio (ver 2023.09.0)