Your search keyword '"Ecology Evolutionary ecology"' showing total 2 results

1. Foraging strategy of a carnivorous-insectivorous raptor species based on prey size, capturability and nutritional components

Author

Juan A. Fargallo, Juan Navarro-López, Rosa Nieto, P. Palma-Granados, and Ministerio de Economía y Competitividad (España)

Subjects

0106 biological sciences, 0301 basic medicine, Foraging, Zoology, lcsh:Medicine, Kestrel, Evolutionary ecology, 010603 evolutionary biology, 01 natural sciences, Falco tinnunculus, Article, Predation, Optimal foraging theory, 03 medical and health sciences, Abundance (ecology), Animals, lcsh:Science, Predator, Multidisciplinary, Ecology, Behavior, Animal, Raptors, biology, lcsh:R, Eulipotyphla, Insectivore, Nutrients, Animal behaviour, biology.organism_classification, Carnivory, Ecology Evolutionary ecology, 030104 developmental biology, Spain, Predatory Behavior, lcsh:Q

Abstract

Optimal foraging theory has typically paid little attention to species feeding on mobile prey and has emphasised energy intake rather than the nutritional contribution of food. The difficulty of capturing food has rarely been included in foraging models, even when it is a potentially important modulator of time devoted to foraging. From the central place foraging and provisioning perspectives, it is posited that at high levels of prey selectivity, the time spent to capture prey is longer than at low levels of prey selectivity. Furthermore, in the case of carnivorous predators, it is thought that nutritional composition does not influence foraging strategies. To explore these issues, we investigated the influence of abundance, size, difficulty of capture, gross energy and nutritional composition (fat, protein, protein-fat ratio and amino acid contents) of prey species on the foraging behaviour of a predator species, the common kestrel Falco tinnunculus, in a region of high diversity of prey species. Our results show that capturability index and load-size explain the foraging behaviour of kestrels. Preferred prey take longer to be provisioned, both selectivity and capturability might explain this result. It is also shown that specific nutritional components, such as protein and amino acid contents, are likely to explain food preference in this carnivorous-insectivorous species., was supported by a Formación de Personal Investigador (FPI) grant from Ministerio de Economía y Competitividad (MIMECO). Research was funded by the Ministerio de Economía y Competitividad (MINECO) through projects CGL2007–61395, CGL2010–15726, CGL2013–42451-P and PGC2018–095070-B-I00. This is a contribution of the El Ventorrillo Biological Station.

Published

2020

2. Foraging strategy of a carnivorous-insectivorous raptor species based on prey size, capturability and nutritional components

Author

Ministerio de Economía y Competitividad (España), Fargallo, Juan A., Navarro-López, Juan, Palma Granados, Patricia, Nieto Liñán, Rosa María, Ministerio de Economía y Competitividad (España), Fargallo, Juan A., Navarro-López, Juan, Palma Granados, Patricia, and Nieto Liñán, Rosa María

Abstract

Optimal foraging theory has typically paid little attention to species feeding on mobile prey and has emphasised energy intake rather than the nutritional contribution of food. The difficulty of capturing food has rarely been included in foraging models, even when it is a potentially important modulator of time devoted to foraging. From the central place foraging and provisioning perspectives, it is posited that at high levels of prey selectivity, the time spent to capture prey is longer than at low levels of prey selectivity. Furthermore, in the case of carnivorous predators, it is thought that nutritional composition does not influence foraging strategies. To explore these issues, we investigated the influence of abundance, size, difficulty of capture, gross energy and nutritional composition (fat, protein, protein-fat ratio and amino acid contents) of prey species on the foraging behaviour of a predator species, the common kestrel Falco tinnunculus, in a region of high diversity of prey species. Our results show that capturability index and load-size explain the foraging behaviour of kestrels. Preferred prey take longer to be provisioned, both selectivity and capturability might explain this result. It is also shown that specific nutritional components, such as protein and amino acid contents, are likely to explain food preference in this carnivorous-insectivorous species.

Published

2020