Your search keyword '"Le Bohec, Céline"' showing total 19 results

1. Polar Monitoring: Seabirds as Sentinels of Marine Ecosystems

Author

Le Bohec, Céline, Whittington, Jason D., Le Maho, Yvon, Verde, Cinzia, editor, and di Prisco, Guido, editor

Published

2013

2. Molecular surveillance for avian influenza A virus in king penguins (Aptenodytes patagonicus)

Author

Chang, Chung-Ming, Lebarbenchon, Camille, Gauthier-Clerc, Michel, Le Bohec, Céline, Beaune, David, Le Maho, Yvon, and van der Werf, Sylvie

Published

2009

3. Sex identification in King Penguins Aptenodytes patagonicus through morphological and acoustic cues.

Author

Kriesell, Hannah J., Aubin, Thierry, Planas‐bielsa, Víctor, Benoiste, Marine, Bonadonna, Francesco, Gachot‐neveu, Hélène, Le Maho, Yvon, Schull, Quentin, Vallas, Benoit, Zahn, Sandrine, and Le Bohec, Céline

Subjects

KING penguin, SEXUAL dimorphism, MORPHOLOGY, UNDERWATER acoustic telemetry, ANIMAL breeding, BIRDS

Abstract

In the context of sexual selection, animals have developed a variety of cues conveying information about the sex of an individual to conspecifics. In many colonial seabird species, where females and males are monomorphic and do not show obvious differences in external morphology, acoustic cues are an important signal for individual and sex recognition. Here, we study the vocal and morphological sex dimorphism in the King Penguin Aptenodytes patagonicus, a colonial, monomorphic seabird for which our knowledge about the role of vocalizations and morphology in mate choice is very limited. Data were collected at Possession Island, Crozet Archipelago, in a breeding colony consisting of about 16 000 breeding pairs. Using measurements of six morphological features and analysing acoustic parameters of call recordings of adult individuals, we show that King Penguins can be sexed based on a single morphological measurement of the beak with an accuracy of 79%. We found a sex‐specific syntax in adult King Penguin calls that provided a 100% accurate method to distinguish between the sexes in our study population. To confirm the method at the species level, we analysed calls recorded from King Penguin adults in Kerguelen Island, 1300 km away from our study population and found the same accuracy of the sex‐specific syntax. This sex‐specific syllable arrangement is rare in non‐passerines and is a first step in understanding the mate choice process in this species. Furthermore, it offers a cost‐effective, non‐invasive technique for researchers to sex King Penguins in the field. [ABSTRACT FROM AUTHOR]

Published

2018

4. Apparent changes in body insulation of juvenile king penguins suggest an energetic challenge during their early life at sea.

Author

Enstipp, Manfred R., Bost, Charles-André, Le Bohec, Céline, Bost, Caroline, Le Maho, Yvon, Weimerskirch, Henri, and Handrich, Yves

Subjects

KING penguin, PREDATORY animals, BIOENERGETICS, FORAGING behavior, BODY temperature regulation, PHYSIOLOGY

Abstract

Little is known about the early life at sea of marine top predators, like deep-diving king penguins (Aptenodytes patagonicus), although this dispersal phase is probably a critical phase in their life. Apart from finding favourable foraging sites, they have to develop effective prey search patterns as well as physiological capacities that enable them to capture sufficient prey to meet their energetic needs. To investigate the ontogeny of their thermoregulatory responses at sea, we implanted 30 juvenile king penguins and 8 adult breeders with a small data logger that recorded pressure and subcutaneous temperature continuously for up to 2.5 years. We found important changes in the development of peripheral temperature patterns of foraging juvenile king penguins throughout their first year at sea. Peripheral temperature during foraging bouts fell to increasingly lower levels during the first 6 months at sea, after which it stabilized. Most importantly, these changes re-occurred during their second year at sea, after birds had fasted for ~4 weeks on land during their second moult. Furthermore, similar peripheral temperature patterns were also present in adult birds during foraging trips throughout their breeding cycle. We suggest that rather than being a simple consequence of concurrent changes in dive effort or an indication of a physiological maturation process, these seasonal temperature changes mainly reflect differences in thermal insulation. Heat loss estimates for juveniles at sea were initially high but declined to approximately half after ~6 months at sea, suggesting that juvenile king penguins face a strong energetic challenge during their early oceanic existence. [ABSTRACT FROM AUTHOR]

Published

2017

5. Individual parameters shape foraging activity in breeding king penguins.

Author

Le Vaillant, Maryline, Ropert-Coudert, Yan, Le Maho, Yvon, and Le Bohec, Céline

Subjects

KING penguin, FORAGING behavior, ANIMAL sexual behavior, ANIMAL breeding research, BROOD parasitism, ANIMAL behavior, BIRDS

Abstract

The variability in individual fitness within a population is likely to be mediated through individual foraging ability and tactics, themselves linked to age- or experience-related processes, but also to differences in individual quality. Not only age, experience, and quality but also sex-related foraging strategies should particularly play an important role in long-lived central-place foragers that have to cope with strong environmental constraints. We monitored the foraging effort (foraging trip durations and number of trips) of 262 known-age micro-tagged king penguins, Aptenodytes patagonicus, at different breeding stages during one of their breeding cycles. We investigated how their age (4-11 years old), sex, past breeding experience (the number of successful breeding attempts), and breeding quality (the expected breeding success, corresponding to the residual of the linear relationship between the age and on the number of past breeding success divided by the number of breeding attempts) affected foraging over a whole breeding season. During the incubation, younger birds (4 years old) undertook longer foraging trips compared with older ones. During the brooding phase and the second period of the crèching phase, more experienced birds performed shorter foraging trip than those with a low breeding experience, whereas, during the first period of the crèching phase, individuals with better breeding quality performed shorter foraging trips at sea than low breeding quality individuals. Sex-specific foraging patterns were also observed depending on the period of the breeding cycle. Our study shows, for the first time, how foraging effort can be driven by a complex interplay of several individual parameters according to breeding stage and resource availability and abundance. [ABSTRACT FROM AUTHOR]

Published

2016

6. Telomere length reflects individual quality in free-living adult king penguins.

Author

Le Vaillant, Maryline, Viblanc, Vincent, Saraux, Claire, Le Bohec, Céline, Le Maho, Yvon, Kato, Akiko, Criscuolo, François, and Ropert-Coudert, Yan

Subjects

TELOMERES, NON-coding DNA, KING penguin, ANTIBODY formation, PENGUINS, REPRODUCTION

Abstract

Growing evidence suggests that telomeres, non-coding DNA sequences that shorten with age and stress, are related in an undefined way to individual breeding performances and survival rates in several species. Short telomeres and elevated shortening rates are typically associated with life stress and low health. As such, telomeres could serve as an integrative proxy of individual quality, describing the overall biological state of an individual at a given age. Telomere length could be associated with the decline of an array of physiological traits in age-controlled individuals. Here, we investigated the links between individuals' relative telomere length, breeding performance and various physiological (body condition, natural antibody levels) and life history (age, past breeding success) parameters in a long-lived seabird species, the king penguin Aptenodytes patagonicus. While we observed no link between relative telomere length and age, we found that birds with longer telomeres arrived earlier for breeding at the colony, and had higher breeding performances (i.e. the amount of time adults managed to maintain their chicks alive, and ultimately breeding success) than individuals with shorter telomeres. Further, we observed a positive correlation between telomere length and natural antibody levels. Taken together, our results add to the growing evidence that telomere length is likely to reflect individual quality difference in wild animal. [ABSTRACT FROM AUTHOR]

Published

2015

7. Inter-Annual Variability of Fledgling Sex Ratio in King Penguins.

Author

Bordier, Célia, Saraux, Claire, Viblanc, Vincent A., Gachot-Neveu, Hélène, Beaugey, Magali, Le Maho, Yvon, and Le Bohec, Céline

Subjects

KING penguin, MONOGAMOUS relationships in animals, SEX ratio, BIRD breeding, POPULATION dynamics, MARINE ecology

Abstract

As the number of breeding pairs depends on the adult sex ratio in a monogamous species with biparental care, investigating sex-ratio variability in natural populations is essential to understand population dynamics. Using 10 years of data (2000–2009) in a seasonally monogamous seabird, the king penguin (Aptenodytes patagonicus), we investigated the annual sex ratio at fledging, and the potential environmental causes for its variation. Over more than 4000 birds, the annual sex ratio at fledging was highly variable (ranging from 44.4% to 58.3% of males), and on average slightly biased towards males (51.6%). Yearly variation in sex-ratio bias was neither related to density within the colony, nor to global or local oceanographic conditions known to affect both the productivity and accessibility of penguin foraging areas. However, rising sea surface temperature coincided with an increase in fledging sex-ratio variability. Fledging sex ratio was also correlated with difference in body condition between male and female fledglings. When more males were produced in a given year, their body condition was higher (and reciprocally), suggesting that parents might adopt a sex-biased allocation strategy depending on yearly environmental conditions and/or that the effect of environmental parameters on chick condition and survival may be sex-dependent. The initial bias in sex ratio observed at the juvenile stage tended to return to 1∶1 equilibrium upon first breeding attempts, as would be expected from Fisher’s classic theory of offspring sex-ratio variation. [ABSTRACT FROM AUTHOR]

Published

2014

8. King penguins adjust their diving behaviour with age.

Author

Le Vaillant, Maryline, Wilson, Rory P., Kato, Akiko, Saraux, Claire, Hanuise, Nicolas, Prud'Homme, Onésime, Le Maho, Yvon, Le Bohec, Céline, and Ropert-Coudert, Yan

Subjects

KING penguin, DIVING, BREEDING, ANIMAL sexual behavior, MARINE animal adaptation, BUOYANCY, FEATHERS, INFLUENCE of age on ability, ANIMAL behavior

Abstract

Increasing experience in long-lived species is fundamental to improving breeding success and ultimately individual fitness. Diving efficiency of marine animals is primarily determined by their physiological and mechanical characteristics. This efficiency may be apparent via examination of biomechanical performance (e.g. stroke frequency and amplitude, change in buoyancy or body angle, etc.), which itself may be modulated according to resource availability, particularly as a function of depth. We investigated how foraging and diving abilities vary with age in a long-lived seabird. During two breeding seasons, small accelerometers were deployed on young (5year old) and older (8/9year old) brooding king penguins (Aptenodytes patagonicus) at the Crozet Archipelago, Indian Ocean. We used partial dynamic body acceleration (PDBA) to quantify body movement during dive and estimate diving cost. During the initial part of the descent, older birds exerted more effort for a given speed but younger penguins worked harder in relation to performance at greater depths. Younger birds also worked harder per unit speed for virtually the whole of the ascent. We interpret these differences using a model that takes into account the upthrust and drag to which the birds are subjected during the dive. From this, we suggest that older birds inhale more at the surface but that an increase in the drag coefficient is the factor leading to the increased effort to swim at a given speed by the younger birds at greater depths. We propose that this higher drag may be the result of young birds adopting less hydrodynamic postures or less direct trajectories when swimming or even having a plumage in poorer condition. [ABSTRACT FROM AUTHOR]

Published

2012

9. Effects of Individual Pre-Fledging Traits and Environmental Conditions on Return Patterns in Juvenile King Penguins.

Author

Saraux, Claire, Viblanc, Vincent A., Hanuise, Nicolas, Maho, Yvon Le, and Le Bohec, Céline

Subjects

KING penguin, COLONY-stimulating factors (Physiology), CLIMATE change, GLOBAL warming, DISPERSAL (Ecology), SPECIES diversity

Abstract

Despite the importance of early life stages in individuals' life history and population dynamics, very few studies have focused on the constraints to which these juvenile traits are subjected. Based on 10 years of automatic monitoring of over 2500 individuals, we present the first study on the effects of environmental conditions and individual pre-fledging traits on the post-fledging return of non-banded king penguins to their natal colony. Juvenile king penguins returned exclusively within one of the three austral summers following their departure. A key finding is that return rates (range 68-87%) were much higher than previously assumed for this species, importantly meaning that juvenile survival is very close to that of adults. Such high figures suggest little juvenile dispersal, and selection occurring mostly prior to fledging in king penguins. Pre-fledging conditions had a strong quadratic impact on juvenile return rates. As expected, cohorts reared under very unfavourable years (as inferred by the breeding success of the colony) exhibited low return rates but surprisingly, so did those fledged under very favourable conditions. Juvenile sojourns away from the colony were shorter under warm conditions and subsequent return rates higher, suggesting a positive effect of climate warming. The longer the postfledging trip (1, 2 or 3 years), the earlier in the summer birds returned to their natal colony and the longer they stayed before leaving for the winter journey. The presence of juveniles in the colony was more than twice the duration required for moulting purposes, yet none attempted breeding in the year of their first return. Juvenile presence in the colony may be important for acquiring knowledge on the social and physical colonial environment and may play an important part in the learning process of mating behaviour. Further studies are required to investigate its potential implications on other lifehistory traits such as recruitment age [ABSTRACT FROM AUTHOR]

Published

2011

10. Do penguins dare to walk at night? Visual cues influence king penguin colony arrivals and departures.

Author

Nesterova, Anna P., Le Bohec, Céline, Beaune, David, Pettex, Emeline, Le Maho, Yvon, and Bonadonna, Francesco

Subjects

KING penguin, BIRD watching, APTENODYTES, GLOBAL Positioning System, DATA analysis

Abstract

Orientation based on visual cues can be extremely difficult in crowded bird colonies due to the presence of many individuals. We studied king penguins ( Aptenodytes patagonicus) that live in dense colonies and are constantly faced with such problems. Our aims were to describe adult penguin homing paths on land and to test whether visual cues are important for their orientation in the colony. We also tested the hypothesis that older penguins should be better able to cope with limited visual cues due to their greater experience. We collected and examined GPS paths of homing penguins. In addition, we analyzed 8 months of penguin arrivals to and departures from the colony using data from an automatic identification system. We found that birds rearing chicks did not minimize their traveling time on land and did not proceed to their young (located in crèches) along straight paths. Moreover, breeding birds' arrivals and departures were affected by the time of day and luminosity levels. Our data suggest that king penguins prefer to move in and out of the colony when visual cues are available. Still, they are capable of navigating even in complete darkness, and this ability seems to develop over the years, with older breeding birds more likely to move through the colony at nighttime luminosity levels. This study is the first step in unveiling the mysteries of king penguin orientation on land. [ABSTRACT FROM AUTHOR]

Published

2010

11. Stomach stones in king penguin chicks.

Author

Beaune, David, Le Bohec, Céline, Lucas, Fabrice, Gauthier-Clerc, Michel, and Le Maho, Yvon

Subjects

*GASTROLITHS, *KING penguin, *GIZZARD, *BIRD adaptation, *CHICKS, *PHYSIOLOGY

Abstract

Many animals that possess a gizzard swallow stones or sandy grit, supposedly to aid in the mechanical breakdown of food. While this has been well documented in the literature, our study is the first to report the presence of stones in the gizzard of king penguin chicks. We found stones, so called ‘gastroliths’, in the pyloric region of the gizzard, the part of the digestive tract that is specialised for the mechanical breakdown of food. Stones were already present in the gizzard of chicks and, hence, during the first year of the life of king penguins, which is spent on land. Some chicks were found to have more than 130 stones (0.5–22 mm in size) in their gizzard. The gastroliths we found in king penguins are of the same geological origin as rocks present at the colony, which suggests that birds swallowed them there. The functional role of gastroliths in penguin chicks and adults is still unknown. We discuss the potential roles that these gastroliths might play in king penguins (i.e. aid in digestion, buoyancy control during foraging at sea, adaptation to fasting). [ABSTRACT FROM AUTHOR]

Published

2009

12. King penguin population threatened by Southern Ocean warming.

Author

Le Bohec, Céline, Durant, Joël M., Gauthier-Clerc, Michel, Stenseth, Nils C., Park, Young-Hyang, Pradel, Roger, Grémillet, David, Gendner, Jean-Paul, and Le Maho, Yvon

Subjects

*KING penguin, *BIRD populations, *GLOBAL warming, *OCEAN-atmosphere interaction, *SOUTHERN oscillation, *BIOTIC communities

Abstract

Seabirds are sensitive indicators of changes in marine ecosystems and might integrate and/or amplify the effects of climate forcing on lower levels in food chains. Current knowledge on the impact of climate changes on penguins is primarily based on Antarctic birds identified by using flipper bands. Although flipper bands have helped to answer many questions about penguin biology, they were shown in some penguin species to have a detrimental effect. Here, we present for a Subantarctic species, king penguin (Aptenodytes patagonicus), reliable results on the effect of climate on survival and breeding based on unbanded birds but instead marked by subcutaneous electronic tags. We show that warm events negatively affect both breeding success and adult survival of this seabird. However, the observed effect is complex because it affects penguins at several spatio/temporal levels. Breeding reveals an immediate response to forcing during warm phases of El Niño Southern Oscillation affecting food availability close to the colony. Conversely, adult survival decreases with a remote sea-surface temperature forcing (i.e., a 2-year lag warming taking place at the northern boundary of pack ice, their winter foraging place). We suggest that this time lag may be explained by the delay between the recruitment and abundance of their prey, adjusted to the particular 1-year breeding cycle of the king penguin. The derived population dynamic model suggests a 9% decline in adult survival for a 0.26°C warming. Our findings suggest that king penguin populations are at heavy extinction risk under the current global warming predictions. [ABSTRACT FROM AUTHOR]

Published

2008

13. Impact of predation on king penguinAptenodytes patagonicusin Crozet Archipelago.

Author

Descamps, Sébastien, Gauthier-Clerc, Michel, Le Bohec, Céline, Gendner, Jean-Paul, and Le Maho, Yvon

Subjects

KING penguin, APTENODYTES, PENGUINS, PREDATORY animals

Abstract

Predation can have major effects on population dynamics, but predator-prey interactions in marine ecosystems have rarely been studied. While the king penguin is one of the most studied seabirds, little is known about the impact of predation on its population dynamics. Here, we determine the impact of the main predators (giant petrels and skuas) on king penguin breeding success taking into account the nocturnal predation of petrels. We found that predation is the most important source of breeding failure for king penguins. The smallest chicks within crèches are the most hunted. The periphery of the colony suffers the highest risk of predation during summer. Our study shows the unequal quality of some areas inside the colony in terms of predation risk and breeding success, and points out the importance of timing in successful breeding. [ABSTRACT FROM AUTHOR]

Published

2005

14. MERCURY CONCENTRATIONS IN KING PENGUIN (APTENODYTES PATAGONICUS) FEATHERS AT CROZET ISLANDS (SUB-ANTARCTIC): TEMPORAL TREND BETWEEN 1966-1974 AND 2000-2001.

Author

Scheifler, Renaud, Gauthier-Clerc, Michel, Le Bohec, Céline, Crini, Nadia, Cæurdassier, Michaël, Badot, Pierre-Marie, Giraudoux, Patrick, and Le Maho, Yvon

Subjects

MERCURY (Element), FEATHERS, KING penguin, BIOTIC communities

Abstract

Remote sub-Antarctic islands and their wildlife may be contaminated by mercury via atmospheric and oceanic currents. Because of mercury's high toxicity and its capacity to be biomagnified in marine food chains, top predators like seabirds may be threatened by secondary poisoning. The present study provides data regarding mercury concentrations in breast feathers sampled in 2000 and 2001 on king penguins (Aptenodytes patagonicus) living at Crozet Islands. These contemporary concentrations were compared to those measured in feathers of king penguins sampled in the same colony between 1966 and 1974 and preserved in a museum (1970s sample). The average concentration of the contemporary sample is 1.98 µg g-1 (dry mass) and is significantly different than the concentrations reported in some other penguin species. The concentration of the contemporary sample is significantly lower than the concentration of the 1970s sample (2.66 µg g-1). This suggests that mercury concentrations in southern hemisphere seabirds do not increase, which conflicts with the trends observed in the northern hemisphere. This difference in temporal trends between the northern and southern hemispheres usually is attributed mainly to a higher degree of pollutant emission in the northern hemisphere. Parameters that may explain the interspecies differences in mercury concentrations are discussed. These first results may constitute a basis for further ecotoxicological and/or biomonitoring studies of king penguins in these remote ecosystems. [ABSTRACT FROM AUTHOR]

Published

2005

15. Nocturnal predation of king penguins by giant petrels on the Crozet Islands.

Author

Le Bohec, Céline, Gauthier-Clerc, Michel, Gendner, Jean-Paul, Chatelain, Nicolas, and Le Maho, Yvon

Subjects

*KING penguin, *MACRONECTES, *PREDATION, *FORAGING behavior, *NOCTURNAL birds

Abstract

Dietary segregation of sympatric seabirds in the Southern Ocean is partly linked to differences in their foraging techniques. We have investigated the activity of giant petrels (Macronectes spp.) in a king penguin (Aptenodytes patagonicus) colony day and night during the austral winter of 2001 on the Crozet Islands. Using an automatic identification system and an infrared video camera, we followed 15 petrels tagged with micro transponders. Our data show that giant petrels predate king penguin chicks during the night. The activity of giant petrels is even slightly higher during nighttime than during the day. In addition, our data show a higher nocturnal activity by northern giant petrels (M. halli) than by southern giant petrels (M. giganteus). These unexpected results raise questions concerning visual adaptations to nocturnal foraging in giant petrels and their potential impact on the sleep, vigilance and crèching behavior of penguin chicks. [ABSTRACT FROM AUTHOR]

Published

2003

16. Comparison of behaviour, body mass, haematocrit level, site fidelity and survival between infested and non-infested king penguin Aptenodytes patagonicus by ticks Ixodes uriae.

Author

Gauthier-Clerc, Michel, Mangin, Stephan, Le Bohec, Céline, Gendner, Jean-Paul, and Le Maho, Yvon

Subjects

TICKS, ERYTHROCYTES, PENGUINS, KING penguin, BIRD breeding, ZOOLOGY

Abstract

The tick Ixodes uriae is widespread in subantarctic areas. This tick species parasitises a large number of seabird species and may affect their population dynamics. Adult king penguins are significant hosts for I. uriae in Crozet Archipelago. We compared the body mass, haematocrit level and behaviour during incubation according to tick infestation. Tick infestation had no effect on the body mass, haematocrit or behaviour of incubating penguins. Contrary to what might have been expected, birds breeding in the infested area did not show a lower fidelity to that area the next breeding season in comparison to birds breeding in the non-infested area. Survival was not different between the two groups over the following 32 months. [ABSTRACT FROM AUTHOR]

Published

2003

17. King penguin demography since the last glaciation inferred from genome-wide data.

Author

Trucchi, Emiliano, Gratton, Paolo, Whittington, Jason D., Cristofari, Robin, Le Maho, Yvon, Stenseth, Nils Chr, and Le Bohec, Céline

Subjects

GLACIAL climates, INTERGLACIALS, SPECIES distribution, KING penguin, NUCLEOTIDE sequencing, GENE frequency

Abstract

How natural climate cycles, such as past glacial/interglacial patterns, have shaped species distributions at the high-latitude regions of the Southern Hemisphere is still largely unclear. Here, we show how the post-glacial warming following the Last Glacial Maximum (ca 18 000 years ago), allowed the (re)colonization of the fragmented sub-Antarctic habitat by an upper-level marine predator, the king penguin Aptenodytes patagonicus. Using restriction site-associated DNA sequencing and standard mitochondrial data, we tested the behaviour of subsets of anonymous nuclear loci in inferring past demography through coalescent-based and allele frequency spectrum analyses. Our results show that the king penguin population breeding on Crozet archipelago steeply increased in size, closely following the Holocene warming recorded in the Epica Dome C ice core. The following population growth can be explained by a threshold model in which the ecological requirements of this species (year-round ice-free habitat for breeding and access to a major source of food such as the Antarctic Polar Front) were met on Crozet soon after the Pleistocene/Holocene climatic transition. [ABSTRACT FROM AUTHOR]

Published

2014

18. Chick-provisioning strategies used by king penguins to adapt to a multiseasonal breeding cycle

Author

Saraux, Claire, Friess, Benjamin, Le Maho, Yvon, and Le Bohec, Céline

Subjects

*KING penguin, *SEXUAL cycle, *BIRD breeding, *CLIMATE change, *BIOLOGICAL adaptation, *BIOLOGICAL variation, *SPECIES, *BIRD food, *ANIMAL behavior

Abstract

Parental provisioning strategies are central to life history theory, as one of the main components that adults can adjust to maximize their fitness. In altricial species, newly born young rely entirely on parents for food. Provisioning strategies are thus crucial for offspring survival and growth, but they may also have major consequences for parental lifetime reproductive success, especially in long-lived species. We investigated provisioning strategies in an offshore seabird, the king penguin, Aptenodytes patagonicus, through the number of times parents return to the colony to feed their chick, using a pluriannual database on more than 800 microtagged penguins. King penguin chick rearing can be divided into three periods: (1) from thermal emancipation to the onset of winter, (2) winter and (3) from the end of winter to fledging. Overall, we found that the number of feeding visits was larger for males, as well as for older and larger individuals. The timing of the winter low-provisioning period (15 May–1 September; shorter than previously described) did not vary according to sex, age or breeding timing. We found four different parental strategies during the winter period, from complete absence to regular foraging trips, which led to different breeding success rates. These four strategies were observed in the 6 study years, and in both sexes, although in different proportions. They were not explained by individuals'' age, and individuals were not consistent across years, the decision to follow a strategy probably reflecting the trade-off between the bird''s current condition and its environment. [Copyright &y& Elsevier]

Published

2012

19. Spheniscins, Avian β-Defensins in Preserved Stomach Contents of the King Penguin, Aptenodytes patagonicus.

Author

Thouzeau, Cécile, Le Maho, Yvon, Froget, Guillaume, Sabatier, Laurence, Le Bohec, Céline, Hoffmann, Jules A., and Bulet, Philippe

Subjects

*KING penguin, *AVIAN anatomy, *STOMACH, *ANTI-infective agents, *PEPTIDES, *PATHOGENIC bacteria

Abstract

During the last part of egg incubation in king penguins, the male can preserve undigested food in the stomach for several weeks. This ensures survival of the newly hatched chick, in cases where the return of the foraging female from the sea is delayed. In accordance with the characterization of stress-induced bacteria, we demonstrate the occurrence of strong antimicrobial activities in preserved stomach contents. We isolated and fully characterized two isoforms of a novel 38-residue antimicrobial peptide (AMP), sphenisein, belonging to the β-defensin subfamily. Spheniscin concentration was found to strongly increase during the period of food storage. Using a synthetic version of one of two spheniscin isoforms, we established that this peptide has a broad activity spectrum, affecting the growth of both pathogenic bacteria and fungi. Altogether, our data suggest that spheniscins and other, not yet identified, antimicrobial substances may play a role in the long term preservation of stored food in the stomach of king penguins. [ABSTRACT FROM AUTHOR]

Published

2003