Day–night pattern of energy expenditure and body temperature in cachectic tumour-bearing rats

The implication of an increase in energy expenditure in cancer cachexia, which seems to be related to the type of tumour, remains unclear. We therefore investigated the energy metabolism and body temperature in anorectic and cachectic rats bearing the Yoshida sarcoma (TB), in comparison with pair-fed (PF) and ad-libitum fed (AL) control rats. The resting energy expenditure was higher in the TB than in the two control groups when corrected for the modifications of body composition. However, the total energy expenditure did not differ between the TB and the AL, presumably because of the drop of activity in TB. There was a temporal distribution of differences in energy expenditure with higher energy expenditure in TB than in AL during the diurnal phase and a lack of difference during the nocturnal phase. The TB presented a fever, which was limited to the diurnal period. Moreover, the acrophase of the body temperature rhythm was delayed in the TB. These results highlight the circadian effects of tumour development on the energy metabolism of the host and hint to the possible implication of cytokines. © 2000 Harcourt Publishers Ltd © 2000 Cancer Research Campaig

Intestinal apoptotic changes linked to metabolic status in fasted and refed rats

Intestinal apoptosis and expression of apoptosis inducers - the cytokines TNFalpha, TGFbeta1 - and the intestinal transcription factor Cdx2, were studied according to two different metabolic and hormonal phases which characterize long-term fasting: the long period of protein sparing during which energy expenditure is derived from lipid oxidation (phase II), and the later phase characterized by a rise in body protein utilization and plasma corticosterone (phase III). Apoptosis was further studied in 2, 6, and 24 h refed rats. Morphological apoptotic events were observed by environmental and conventional scanning electron microscopy and a TUNEL test was used to characterize the final stages of apoptotic death. The gene and protein expressions of TNFalpha, TGFbeta1, and Cdx2 were measured. Apoptotic events and TNFalpha, TGFbeta1, and Cdx2 gene and protein expressions did not vary significantly during phase II as compared to the normally fed animals. However, a phase III fasting induced a delay in intestinal epithelial apoptosis, along with a 92, 58, and 25% decrease in TNFalpha, TGFbeta1, and Cdx2 mRNAs, respectively. The amounts of TNFalpha, TGFbeta1, and Cdx2 proteins decreased by 70, 36, and 25%, respectively. Apoptosis was restored rapidly after a 2 h refeeding following the phase III, accompanied by a significant increase in TNFalpha, TGFbeta1, and Cdx2 mRNA and the protein levels, compared to the phase III fasting values. The concomitant decreases in cytokines and Cdx2 and in apoptotic cells during phase III suggest the preservation of enterocytes during this critical fasting period in order to optimize nutrient absorption as soon as food is available and thus, to rapidly restore body mass

Effets du dérangement par la chasse sur les oiseaux d'eau : revue de littérature

La chasse aux oiseaux d'eau, activité humaine largement pratiquée sur les zones humides du continent eurasiatique, présente deux composantes pouvant affecter la dynamique des populations de ces espèces migratrices : le prélèvement (qui concerne la mortalité) et le dérangement. Ce dernier aspect fait l'objet d'études de plus en plus nombreuses et détaillées, ici synthétisées, incluant des protocoles expérimentaux et des approches conceptuelles. Le dérangement par la chasse est considéré comme important pour une espèce lorsque les modifications qu'il induit ont un effet sur la « fitness » des individus de cette espèce (diminution de la survie et/ou du succès reproducteur). Les études montrent que le dérangement modifie presque toujours la distribution géographique des oiseaux en favorisant leur regroupement (5 à 50 fois plus) sur des espaces non chassés, induisant une sous-exploitation des ressources trophiques présentes sur les espaces chassés. Le dérangement peut aussi provoquer un accroissement du taux de renouvellement (« turnover ») des individus sur leur étape migratoire. Ces transferts d'oiseaux, bien quantifiés localement, ont un impact encore inconnu sur la taille des populations concernées, la large distribution de ces populations sur plusieurs continents rendant cette évaluation difficile. Le dérangement provoque une modification comportementale soit en favorisant des activités plus coûteuses que celles pratiquées sans dérangement, soit en diminuant le temps passé à des activités qui permettent d'acquérir de l'énergie. Les estimations ou simulations de ces pertes peuvent atteindre 25 % de la dépense énergétique journalière. Les oiseaux dérangés développent des capacités d'adaptation physiologique face aux contraintes associées au dérangement, par exemple une augmentation de la prise alimentaire, une augmentation du rendement de l'assimilation énergétique ou une augmentation de la sécrétion de corticostérone qui stimule l'activité de recherche de nourriture. L'évaluation directe du bilan énergétique de ces adaptations n'a pas encore été réalisée et l'on peut admettre qu'elles permettent à l'oiseau de maintenir un apport énergétique analogue à celui obtenu sans dérangement; mais le coût à terme de cette acquisition est élevé. Ainsi, une étude récente sur la Grande Oie des neiges Anser caerules-cens atlantica au Canada révèle que lorsque les individus sont dérangés par la chasse sur leur étape migratoire de printemps, ils sont contraints d'exploiter des sites moins riches que s'il n'y avait pas de chasse; ils sont alors dans de moins bonnes conditions corporelles (lipidiques et protéiniques) lors du départ vers leurs lieux de reproduction et ils ont finalement un moindre succès de reproduction que les individus n'ayant pas subi le dérangement par la chasse. Certes, des lacunes et des incertitudes persistent, par exemple au niveau spécifique (peu d'études sur les limicoles), mais tous les auteurs qui les ont mises en évidence s'accordent aussi pour reconnaître que, pour contrebalancer les effets du dérangement par la chasse, des mesures de protection doivent être prises.Waterbird hunting is a widespread human activity over wetlands of the Eurasian continent. It has two components that can influence the population dynamics of migratory species : mortality and disturbance. Disturbance is the focus of an increasing number of detailed studies, using both experimental and theoretical approaches. They are synthesized herein. Disturbance is considered important when induced changes influence the fitness of the individuals of a species (decrease in survival or breeding success). Studies show that disturbance almost always change the geographical distribution of birds, conducting to an under-exploitation of food resources available in hunting areas. Disturbance can also favour an increase in the turnover rate of individuals on their migratory stopover. These changes in bird distribution, although precisely quantified at a local scale, have an unknown impact on the population size of the concerned species. The wide distribution of several of these species ranging over several continents makes the precise evaluation of this impact difficult. Disturbance changes behaviour either by increasing time spent in activities more costly than those done without disturbance or by decreasing time spent gaining energy. Estimation or simulation of these lost can reach 25% of the daily energy expenses. Facing disturbance, birds can develop several physiological adaptations, for instance an increased food intake, an increased efficiency of energy assimilation or an augmentation of corticosterone secretion stimulating food searching. The direct evaluation of the energy balance of these adaptations has not been made yet and it can be acknowledged that they allow birds to maintain energy gains similar to those obtained without disturbance. However, the long-term cost of this compensation is high. A recent study of the Greater Snow Goose Anser caerulescens atlantica on their spring stopover in Canada indicates that hunting disturbance makes geese use lower quality habitats, decreases their body condition (fat and protein) when they depart to the breeding sites and decreases their breeding success relative to individuals that have not experienced hunting. Uncertainties remain, for instance at the species level (few studies on waders), but all authors that emphasized them also agree to acknowledge that protection measures must be taken to counter-balance the effects of hunting disturbance. They recommend the increase of protected areas (hunt-free areas), the elaboration of a network of reserves and the establishment of non hunted zones around existing reserves to reduce to the minimum the negative effects of disturbance on birds that use these reserves. The implementation of these management actions must favour the widening of the distribution of these populations and facilitate the local and regional increase of their numbers. These protection measures are positive responses to the recommendations of the European Union birds and habitats directives

Emperor penguin body surfaces cool below air temperature

Emperor penguins Aptenodytes forsteri are able to survive the harsh Antarctic climate because of specialized anatomical, physiological and behavioural adaptations for minimizing heat loss. Heat transfer theory predicts that metabolic heat loss in this species will mostly depend on radiative and convective cooling. To examine this, thermal imaging of emperor penguins was undertaken at the breeding colony of Pointe Géologie in Terre Adélie (668400 S 1408 010 E), Antarctica in June 2008. During clear sky conditions, most outer surfaces of the body were colder than surrounding sub-zero air owing to radiative cooling. In these conditions, the feather surface will paradoxically gain heat by convection from surrounding air. However, owing to the low thermal conductivity of plumage any heat transfer to the skin surface will be negligible. Future thermal imaging studies are likely to yield further insights into the adaptations of this species to the Antarctic climate

Seabird species vary in behavioural response to drone census

This is the final version of the article. Available from the publisher via the DOI in this record.Unmanned aerial vehicles (UAVs) provide an opportunity to rapidly census wildlife in remote areas while removing some of the hazards. However, wildlife may respond negatively to the UAVs, thereby skewing counts. We surveyed four species of Arctic cliff-nesting seabirds (glaucous gull Larus hyperboreus, Iceland gull Larus glaucoides, common murre Uria aalge and thick-billed murre Uria lomvia) using a UAV and compared censusing techniques to ground photography. An average of 8.5% of murres flew off in response to the UAV, but >99% of those birds were non-breeders. We were unable to detect any impact of the UAV on breeding success of murres, except at a site where aerial predators were abundant and several birds lost their eggs to predators following UAV flights. Furthermore, we found little evidence for habituation by murres to the UAV. Most gulls flew off in response to the UAV, but returned to the nest within five minutes. Counts of gull nests and adults were similar between UAV and ground photography, however the UAV detected up to 52.4% more chicks because chicks were camouflaged and invisible to ground observers. UAVs provide a less hazardous and potentially more accurate method for surveying wildlife. We provide some simple recommendations for their use.We thank T. Leonard and the Seabird Ecological Reserves Advisory Committee for permission to work at Witless Bay, the Canadian Wildlife Service for permits to work at Newfoundland and Nunavut and the Government of Nunavut for permits to work in Nunavut. Newfoundland and Labrador Murre Fund, Bird Studies Canada and the Molson Foundation directly funded the work. An NSERC Discovery Grant, the Canada Research Chair in Arctic Ecology and Polar Continental Shelf Project also helped fund the project. We thank T. Burke, G. Sorenson, T. Lazarus and M. Guigueno for their help and J. Nakoolak for keeping us safe from bear

Vultures of the Seas: Hyperacidic Stomachs in Wandering Albatrosses as an Adaptation to Dispersed Food Resources, including Fishery Wastes

Animals are primarily limited by their capacity to acquire food, yet digestive performance also conditions energy acquisition, and ultimately fitness. Optimal foraging theory predicts that organisms feeding on patchy resources should maximize their food loads within each patch, and should digest these loads quickly to minimize travelling costs between food patches. We tested the prediction of high digestive performance in wandering albatrosses, which can ingest prey of up to 3 kg, and feed on highly dispersed food resources across the southern ocean. GPS-tracking of 40 wandering albatrosses from the Crozet archipelago during the incubation phase confirmed foraging movements of between 475–4705 km, which give birds access to a variety of prey, including fishery wastes. Moreover, using miniaturized, autonomous data recorders placed in the stomach of three birds, we performed the first-ever measurements of gastric pH and temperature in procellariformes. These revealed surprisingly low pH levels (average 1.50±0.13), markedly lower than in other seabirds, and comparable to those of vultures feeding on carrion. Such low stomach pH gives wandering albatrosses a strategic advantage since it allows them a rapid chemical breakdown of ingested food and therefore a rapid digestion. This is useful for feeding on patchy, natural prey, but also on fishery wastes, which might be an important additional food resource for wandering albatrosses