Data from: High detectability costs select weak warning signals in chemically defended gregarious prey
Data files
Jan 30, 2026 version files 57.84 KB
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larvalweight.csv
4.66 KB
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norep_predationexperiment.csv
19.69 KB
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phenotypicdata.csv
3.97 KB
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predationexperiment.csv
22.95 KB
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prepaint.csv
1.57 KB
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README.md
4.99 KB
Abstract
The evolution of costly chemical defenses in cryptic prey is puzzling, as conspicuousness should be adaptive for defended prey by enhancing predator avoidance learning. Here, we explore three hypotheses that may promote weak visual signal strategies: (1) Low prey conspicuousness is favored in diverse predator communities; (2) Conspicuousness is less critical if color patterns or behavior allow defended prey to be distinguished from cryptic prey; and (3) in gregarious prey species, aggregation itself could act as a deterrent signal. We used chemically defended and gregarious European pine sawfly (Neodiprion sertifer) larvae, exhibiting green-black-grey coloration, as our study system. First, we manipulated the conspicuousness of the larvae by placing them either solitarily or in groups and marking them with either cryptic or conspicuous coloration, then testing their survival against predators in the field. Second, we analyzed how conspicuous the ventral side (which larvae reveal during a defense display) of N. sertifer appears to avian predators and how its conspicuousness correlates with the larvae's chemical defenses. Our results indicate that increased conspicuousness was costly and decreased larvae survival. The ventral side of larvae making the defense display was more conspicuous (showed higher luminance) than that of larvae not displaying; however, this was not associated with chemical defense traits. The signaling function of synchronous displays involving defensive secretions in sawflies presents a promising avenue for future studies on the mechanisms by which weak visual signals operate in nature.
1. Paper Citation
Koskenpato K, Mikkonen T, Mappes J, Valkonen J & Lindstedt C. 2026. High detectability costs select weak warning signals in chemically defended gregarious prey. Behavioral Ecology.
2. Brief abstract
Why do some chemically defended prey use weak visual signals when conspicuous aposematic coloration seems more effective for predator avoidance? Using weakly conspicuous pine sawfly larvae as a study system, we found that increased conspicuousness under predation risk from natural predator communities reduces their survival. Our findings highlight the importance of understanding ecological mechanisms behind the evolution of weak visual signal strategies.
3. Originators
Katja Koskenpato
4. Contact information
Katja Koskenpato, Faculty of Agriculture and Forestry, Department of Forest Sciences, University of Helsinki, Helsinki, Finland, katja.koskenpato@helsinki.fi
5. Year of data collection
2013-2014
6. Geographic location(s) of data collection
Puumala, Finland (61°31´25´´N, 28°10´40´´E)
7. Information about funding sources that supported the collection and curation of the data
Academy of Finland (grant numbers 257581 and 330578) and Emil Aaltonen Foundation
DATA FILES AND VARIABLES
1. prepaint.csv
Data to verify that painting do not affect larval mortality
- id = ID of larva
- color: paint treatment (1 = no paint, 2 = green paint, 3 = yellow paint)
- branch: ID of given food branch
- survival: survival of larvae (0 = died during the experiment, 1 = survived till the end of experiment)
- time: survival time of larva in days
- event: 1 = larva survived till the end of experiment, 2 = larva died during the experiment
2. larvalweight.csv
Data to verify that weights of experimental larvae do not differ
- transect: experimental transect 1 or 2
- group: treatment group size of larvae (1 = solitary, 2 = group of 10 larvae)
- box: larval rearing box ID
- petri_weight: weight of the petri dish without larva(e) (g)
- petri_larva_weight: weight of the petri dish with larva(e) in it (g)
- larva_weight: weight of larva(e) (g)
- treatment: 1 = yellow marking, 2 = green marking, 3 = mesh bag
3. norep_predationexperiment.csv
Data including only the first attacks of predation experiment
- area: experimental transect 1 or 2
- tree: ID of tree where the experimental larvae were put
- groupsize: treatment group size of larvae (1 = solitary, 2 = group of 10 larvae)
- colour: treatment color of larva (1 = cryptic/green, 2 = conspicuous/yellow)
- bag: mesh bag/exposed treatment (1 = exposed/no mesh bag, 2 = mesh bag)
- treatment: experimental treatment (1 = cryptic/green exposed, 2 = conspicuous/yellow exposed, 3 = cryptic/green in mesh bag, 4 = conspicuous/yellow in mesh bag)
- fate: survival of larvae during the experiment (0 = survived, 1 = died)
- survival: survival of larvae during the experiment (1 = survived, 0 = died)
- time: survival time of larva in days
- family: larval family ID
- event: survival of larvae during the experiment (1 = survived, 2 = died)
- NA / empty cells: data not available
4. predationexperiment.csv
Data including all attacks (first and repeated) of predation experiment
- area: experimental transect 1 or 2
- tree: ID of tree where the experimental larvae were put
- groupsize: treatment group size of larvae (1 = solitary, 2 = group of 10 larvae)
- colour: treatment color of larva (1 = cryptic/green, 2 = conspicuous/yellow)
- bag: mesh bag/exposed treatment (1 = exposed/no mesh bag, 2 = mesh bag)
- treatment: experimental treatment (1 = cryptic/green exposed, 2 = conspicuous/yellow exposed, 3 = cryptic/green in mesh bag, 4 = conspicuous/yellow in mesh bag)
- fate: survival of larvae during the experiment (0 = survived, 1 = died)
- survival: survival of larvae during the experiment (1 = survived, 0 = died)
- time: survival time of larva in days
- family: larval family ID
- event: survival of larvae during the experiment (1 = survived, 2 = died)
- NA / empty cells: data not available
5. phenotypicdata.csv
Data on larval phenotypic traits
- family: larval family ID
- lenght: lenght of larva (mm)
- defending: production of defensive fluid (1 = produced fluid, 0 = did not produce fluid)
- volume: volume of produced defensive fluid (mm in capillary tube)
- col_dor_jnd: jnd (just noticeable difference) value of color contrast on dorsal side of larva
- col_ven_jnd: jnd (just noticeable difference) value of color contrast on ventral side of larva
- lum_dor_jnd: jnd (just noticeable difference) value of luminance contrast on dorsal side of larva
- lum_ven_jnd: jnd (just noticeable difference) value of luminance contrast on ventral side of larva
- movement: U-posture of larva (1 = larva took U-posture, 2 = larva did not take U-posture)
- pupamass: pupa mass (mg)
- sex: sex of larva/individual (1 = male, 0 = female)
- NA / empty cells: data not available