Abstract
Documenting habitat-related patterns in foraging behaviour at the individual level and over large temporal scales remains challenging for large herbivores. Stable isotope analysis could represent a valuable tool to quantify habitat-related foraging behaviour at the scale of individuals and over large temporal scales in forest dwelling large herbivores living in coastal environments, because the carbon (δ13C) or nitrogen (δ15N) isotopic signatures of forage can differ between open and closed habitats or between terrestrial and littoral forage, respectively. Here, we examined if we could detect isotopic differences between the different assemblages of forage taxa consumed by white-tailed deer that can be found in open, closed, supralittoral, and littoral habitats. We showed that δ13C of assemblages of forage taxa were 3.0‰ lower in closed than in open habitats, while δ15N were 2.0‰ and 7.4‰ higher in supralittoral and littoral habitats, respectively, than in terrestrial habitats. Stable isotope analysis may represent an additional technique for ecologists interested in quantifiying the consumption of terrestrial vs. marine autotrophs. Yet, given the relative isotopic proximity and the overlap between forage from open, closed, and supralittoral habitats, the next step would be to determine the potential to estimate their contribution to herbivore diet.
Highlights
Determining habitat-related patterns in foraging behaviour is critical to better understand the ecology of large herbivores
The following open habitats are found on Anticosti Island: peatlands, canopy openings in forest stands, clear-cuts resulting from commercial logging, and burned areas of natural origin
1: Isotopic differences between habitats δ13C of forage taxa was 3.0‰, 2.6‰, and 16.2‰ higher in open, supralittoral, and littoral habitats, respectively, than in the closed habitat (Fig 2). δ15N did not differ between closed (-0.9‰, 95% CI = [-2.1, 0.4]) and open habitats, but was 2.0‰ and 7.4‰ higher in supralittoral and littoral habitats, respectively, than in terrestrial habitats
Summary
Determining habitat-related patterns in foraging behaviour is critical to better understand the ecology of large herbivores. The trade-off between using habitats rich in forage and those providing cover is generally recognized as a determinant of foraging behaviour in herbivores inhabiting forest ecosystems [1, 2]. Whereas forage is more abundant in open habitats due to direct exposure to sunlight [3, 4], vertical and lateral cover provide protection against extreme climatic conditions and predators, respectively [5,6,7]. May be higher under cover ([8], but see [9]) due to the delayed maturation of forage under shaded conditions [10]. Large herbivores may use supralittoral and littoral habitats where they.
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