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Bibliographic Details
Main Authors: Zimmer, Ilka, Wilson, Rory P, Beaulieu, Michaël, Ancel, André, Plötz, Joachim
Format: Dataset Open Access
Language:en
Published: PANGAEA 2008
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Online Access:https://doi.org/10.1594/PANGAEA.701333
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author Zimmer, Ilka
Wilson, Rory P
Beaulieu, Michaël
Ancel, André
Plötz, Joachim
author_facet Zimmer, Ilka
Wilson, Rory P
Beaulieu, Michaël
Ancel, André
Plötz, Joachim
collection Datos científicos de ciencias marinas y ambientales
contents The foraging ability of visual hunters depends critically on light conditions. Emperor penguins Aptenodytes forsteri are reported to be visual hunters, but breed and forage at high latitudes and are thus exposed to extreme changes in light conditions in the course of the year. We examined how light influenced the foraging ability of breeding emperor penguins using loggers in winter (n = 5) and spring (n = 4) 2005 (see doi:10.1594/PANGAEA.633713) at Pointe Géologie (66° 40' S, 140° 01' E), Antarctica, as well as by using models of light availability over the year and as a function of depth. The model showed that daylight was continuous between days of the year 350 and 363 and that the sun did not rise between days of the year 166 and 180. Logger-measured light intensity decreased with water depth, and depth-specific values were higher at greater sun elevation angles. Depth-time use (given by the maximum depth reached multiplied by the number of hours at which this depth could be achieved over 24 h) of spring-foraging penguins was 8394.5 m x h, which was more than twice that of winter-foraging birds at 3845.4 m x h, showing the severe constraints imposed by winter conditions. Average catch-per-unit effort was related to mean maximum diving depth and was highest around mid-day in winter and highest during dawn and dusk in spring. This reflects availability of prey to foraging emperor penguins.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_701333
institution PANGAEA
language en
publishDate 2008
publisher PANGAEA
record_format pangaea
spellingShingle Luminous intensity and dive depth profile data of emperor penguins from Pointe Géologie, Adélie Land, Antarctica, from expedition DDU 2005
Zimmer, Ilka
Wilson, Rory P
Beaulieu, Michaël
Ancel, André
Plötz, Joachim
DDU2005; DDU2005_emp_a_f_18; DDU2005_emp_a_m_10; DDU2005_emp_a_x_05; DDU2005_emp_a_x_08; Dumont d´Urville Station; Dumont d´Urville Trough; Marine endotherm; Marine Mammal Tracking; MET; MMT
The foraging ability of visual hunters depends critically on light conditions. Emperor penguins Aptenodytes forsteri are reported to be visual hunters, but breed and forage at high latitudes and are thus exposed to extreme changes in light conditions in the course of the year. We examined how light influenced the foraging ability of breeding emperor penguins using loggers in winter (n = 5) and spring (n = 4) 2005 (see doi:10.1594/PANGAEA.633713) at Pointe Géologie (66° 40' S, 140° 01' E), Antarctica, as well as by using models of light availability over the year and as a function of depth. The model showed that daylight was continuous between days of the year 350 and 363 and that the sun did not rise between days of the year 166 and 180. Logger-measured light intensity decreased with water depth, and depth-specific values were higher at greater sun elevation angles. Depth-time use (given by the maximum depth reached multiplied by the number of hours at which this depth could be achieved over 24 h) of spring-foraging penguins was 8394.5 m x h, which was more than twice that of winter-foraging birds at 3845.4 m x h, showing the severe constraints imposed by winter conditions. Average catch-per-unit effort was related to mean maximum diving depth and was highest around mid-day in winter and highest during dawn and dusk in spring. This reflects availability of prey to foraging emperor penguins.
title Luminous intensity and dive depth profile data of emperor penguins from Pointe Géologie, Adélie Land, Antarctica, from expedition DDU 2005
topic DDU2005; DDU2005_emp_a_f_18; DDU2005_emp_a_m_10; DDU2005_emp_a_x_05; DDU2005_emp_a_x_08; Dumont d´Urville Station; Dumont d´Urville Trough; Marine endotherm; Marine Mammal Tracking; MET; MMT
url https://doi.org/10.1594/PANGAEA.701333