|Exploration speed in captivity predicts foraging tactics and diet in free‐living red knots|Ersoy, S.; Beardsworth, C.E.; Dekinga, A.; van der Meer, M.T.J.; Piersma, T.; Groothuis, T.G.G.; Bijleveld, A.I. (2022). Exploration speed in captivity predicts foraging tactics and diet in free‐living red knots. J. Anim. Ecol. 91(2): 356-366. https://dx.doi.org/10.1111/1365-2656.13632
In: Journal of Animal Ecology. Blackwell Science/British Ecological Society: Oxford. ISSN 0021-8790; e-ISSN 1365-2656, meer
|Auteurs|| || Top |
- Ersoy, S.
- Beardsworth, C.E.
- Dekinga, A., meer
- van der Meer, M.T.J., meer
- Piersma, T., meer
- Groothuis, T.G.G.
- Bijleveld, A.I., meer
- Variation in foraging tactics and diet are usually attributed to differences in morphology, experience, and prey availability. Recently, consistent individual differences in behaviour (personality) have been shown to be associated with foraging strategies. Bolder or more exploratory individuals are predicted to have a faster pace-of-life and offset the costs of moving more or in risky areas, with higher energetic gains by encountering profitable foraging opportunities and prey. However, the relationship between personality, foraging, and diet is poorly understood.
- We investigated how exploratory behaviour in red knots ( Calidris canutus) is associated with foraging tactics and diet by combining laboratory experiments, field observations, and stable isotope analysis. First, we developed a mobile experimental arena to measure exploration speed in controlled settings. We validated the method by repeated testing of individuals over time and contexts. This setup allowed us to measure exploratory personality at the field site, eliminating the need to bring birds into captivity for long periods of time. After releasing birds within days of their capture, we asked whether exploration speed was associated with differences in foraging tactics and diet in the wild.
- We found that tactile foraging red knots mainly caught hard-shelled prey that are buried in the sediment, whereas visual foraging knots only captured soft preys located close to or on the surface. We also found that faster explorers showed a higher percentage of visual foraging than slower explorers. By contrast, morphology (bill length and gizzard size) had no significant effect on foraging tactics. Diet analysis based on δ15N and δ13C stable isotope values of plasma and red blood cells confirmed our field observations with slower explorers mainly consumed hard-shelled prey while faster explorers consumed more soft than hard-shelled prey.
- Our results show that foraging tactics and diet are associated with a personality trait, independent of morphological differences. We discuss how consistent behaviour might develop early in life through positive feedbacks between foraging tactics, prey type, and foraging efficiency.