Flying seabirds are adapted for windy environments. Despite this, storms can cause widespread strandings and wrecks, demonstrating that these seabirds are not always able to avoid or compensate for extreme conditions. The maximum wind speeds that birds can operate in should vary with morphology and flight style, but this has been hard to quantify due to the challenges of collecting data during infrequent events. We apply a step-selection approach to > 300,000 hours of tracking data from 18 seabird species in order to quantify the range of wind speeds that birds use during their foraging trips in relation to the wind speeds available, and assess evidence for avoidance of particular wind conditions. The maximum wind speeds that birds flew in increased with wing loading, in line with general aeronautical predictions. Two species of albatross flew in extreme winds > 23 m/s. Within the 18 species studied, we found no general preference or avoidance of specific wind speeds. Nonetheless, in a very small number of instances, albatrosses avoided speeds below their operable maxima, demonstrating that even the most wind-adapted birds avoid extreme speeds in particular scenarios. Furthermore, Atlantic yellow-nosed albatross and the wandering albatross avoided the maximum wind speeds by flying towards and tracking the eye of the storm. Extreme winds therefore might pose context-dependent risks to seabirds, and there is a need for more information on the factors that determine the hierarchy of risk, given the impact of global change on storm intensity.
Foraging outcomes dictate the nutritional resources available to an organism and may vary with intrinsic factors, like age. Thus, understanding how age affects foraging performance, alone or in interaction with extrinsic factors (like environmental quality), improves our understanding of aging processes in the wild. We examined how foraging traits, measured across five breeding seasons, change with age, environmental variation, and their interaction in Nazca boobies (Sula granti), a pelagic seabird in Galápagos. We evaluated the hypotheses that (1) foraging performance is better in middle-aged birds than in young ones, and that (2) foraging performance is better in middle-aged birds than in old ones. Furthermore, favorable environmental conditions will either (3) attenuate age differences in foraging performance (by relieving constraints on young, inexperienced and old, senescent age classes), or (4) accentuate age differences (if middle-aged birds can exploit abundant resources better than other age classes can). Incubating birds tagged with GPS loggers (N = 815) provided data on foraging performance (e.g., total distance traveled, mass gained) to evaluate interactions between age and environmental variation (e.g., sea surface temperature). Poor environmental conditions associated with the cool phase of the El Niño-Southern Oscillation increased foraging effort, including foraging distance and duration, for example. Across age classes, foraging boobies responded similarly to environmental variation except for female mass gain rate: age-related declines in mass gain rate were reduced under favorable environmental conditions. Birds of different ages also searched in somewhat distinct areas in the poor conditions of 2016, but not in other years. In several foraging traits, including foraging duration and distance, female boobies showed predicted early-life improvement and late-life decline, following the established pattern for reproductive traits in this species. Thus, deficits in resource acquisition (this study) may contribute to the poor survival and reproductive outcomes previously observed in old Nazca boobies, particularly in females.underlying foraging traits (mass gain, foraging duration; following Howard et al., 2021), and, for the first time, for foraging location, distance traveled, and time spent searching. We evaluate age-byenvironment interactions with respect to a population-level shift in breeding date (Tompkins et al., 2017) and two environmental predictors linked to the El Niño-Southern Oscillation (ENSO; sea surface temperature and cloud cover; Table 1). Using patterns of observed age effects in breeding traits as models (Tompkins et al., 2017;Tompkins & Anderson, 2019, 2021, and assuming a tight link between foraging and breeding performances, we predict that: (1) foraging performance will be better in middle-aged birds than in young ones in our cross-sectional sample (higher rate of mass gain, larger mass gain, and shorter foraging duration, distance traveled, and time searching in middle-aged...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.