A stable foraging polymorphism buffers Galapagos sea lions against environmental change

Schwarz J, DeRango E, Zenth F, Kalberer S, Hoffman J, Mews S, Piedrahita P, Trillmich F, Paez-Rosas D, Thiboult A, Krüger O (2022)
Current Biology 32(7): 1623-1628.e3.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Schwarz, JonasUniBi; DeRango, Eugene; Zenth, Friederike; Kalberer, StephanieUniBi; Hoffman, JosephUniBi ; Mews, SinaUniBi; Piedrahita, Paolo; Trillmich, FritzUniBi ; Paez-Rosas, Diego; Thiboult, Antoine; Krüger, OliverUniBi
Abstract / Bemerkung
Understanding the ability of animals to cope with a changing environment is critical in a world affected by anthropogenic disturbance.1 Individual foraging strategies may influence the coping ability of entire populations, as these strategies can be adapted to contrasting conditions, allowing populations with foraging polymorphisms to be more resilient toward environmental change.2,3 However, environmentally dependent fitness consequences of individual foraging strategies and their effects on population dynamics have not been conclusively documented.4,5 Here, we use biologging data from endangered Galapagos sea lion females (Zalophus wollebaeki) to show that benthically foraging individuals dig after sand-dwelling prey species while pelagic foragers hunt in more open waters. These specialized foraging behaviors result in distinct and temporally stable patterns of vibrissae abrasion. Using vibrissae length as a visual marker for the benthic versus pelagic foraging strategies, we furthermore uncovered an environment-dependent fitness trade-off between benthic and pelagic foragers, suggesting that the foraging polymorphism could help to buffer the population against the negative effects of climate change. However, demographic projections suggest that this buffering effect is unlikely to be sufficient to reverse the ongoing population decline of the past four decades.6 Our study shows how crucial a deeper understanding of behavioral polymorphisms can be for predicting how populations cope within a rapidly changing world. VIDEO ABSTRACT. Copyright © 2022 Elsevier Inc. All rights reserved.
Erscheinungsjahr
2022
Zeitschriftentitel
Current Biology
Band
32
Ausgabe
7
Seite(n)
1623-1628.e3
eISSN
1879-0445
Page URI
https://pub.uni-bielefeld.de/record/2961728

Zitieren

Schwarz J, DeRango E, Zenth F, et al. A stable foraging polymorphism buffers Galapagos sea lions against environmental change. Current Biology. 2022;32(7):1623-1628.e3.
Schwarz, J., DeRango, E., Zenth, F., Kalberer, S., Hoffman, J., Mews, S., Piedrahita, P., et al. (2022). A stable foraging polymorphism buffers Galapagos sea lions against environmental change. Current Biology, 32(7), 1623-1628.e3. https://doi.org/10.1016/j.cub.2022.02.007
Schwarz, Jonas, DeRango, Eugene, Zenth, Friederike, Kalberer, Stephanie, Hoffman, Joseph, Mews, Sina, Piedrahita, Paolo, et al. 2022. “A stable foraging polymorphism buffers Galapagos sea lions against environmental change”. Current Biology 32 (7): 1623-1628.e3.
Schwarz, J., DeRango, E., Zenth, F., Kalberer, S., Hoffman, J., Mews, S., Piedrahita, P., Trillmich, F., Paez-Rosas, D., Thiboult, A., et al. (2022). A stable foraging polymorphism buffers Galapagos sea lions against environmental change. Current Biology 32, 1623-1628.e3.
Schwarz, J., et al., 2022. A stable foraging polymorphism buffers Galapagos sea lions against environmental change. Current Biology, 32(7), p 1623-1628.e3.
J. Schwarz, et al., “A stable foraging polymorphism buffers Galapagos sea lions against environmental change”, Current Biology, vol. 32, 2022, pp. 1623-1628.e3.
Schwarz, J., DeRango, E., Zenth, F., Kalberer, S., Hoffman, J., Mews, S., Piedrahita, P., Trillmich, F., Paez-Rosas, D., Thiboult, A., Krüger, O.: A stable foraging polymorphism buffers Galapagos sea lions against environmental change. Current Biology. 32, 1623-1628.e3 (2022).
Schwarz, Jonas, DeRango, Eugene, Zenth, Friederike, Kalberer, Stephanie, Hoffman, Joseph, Mews, Sina, Piedrahita, Paolo, Trillmich, Fritz, Paez-Rosas, Diego, Thiboult, Antoine, and Krüger, Oliver. “A stable foraging polymorphism buffers Galapagos sea lions against environmental change”. Current Biology 32.7 (2022): 1623-1628.e3.

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