Environmental and neuroendocrine control of breeding activity in the dromedary camel

The dromedary camel (Camelus dromedarius), a well-adapted desert mammal, is a seasonal breeder whose sexual activity occurs during the winter and spring. These periods coincide with food resources and climate conditions are favorable for offspring’s survival. The mechanisms involved in the control of this seasonality however still need to be elucidated. The aim of this review is to describe the reproductive patterns of the dromedary camel. This includes the geographical seasonal breeding distribution of this species taking into account the role of various physical environmental parameters notably temperature, day length and the amount of rainfall. Further, various aspects of seasonal breeding in male and female camels are discussed as well as the neuroendocrine factors that may control seasonal such phenomena. Finally, the putative roles of two hypothalamic neuropeptides, kisspeptin and (Arg) (Phe) related peptide, are proposed for the control of camel’s seasonal reproduction

Environmental cues and seasonal patterns of reproduction in goats

Goats usually exhibit a seasonal sexual activity and breeding at a specific season ensures the survival of offsprings by coinciding parturition with the adequate period of nutrition and climate conditions. Photoperiod is the main modulator of this seasonality in goats within different latitudes. Other environmental cues like seasonal changes in ambient temperature cycles seem also to induce a synchronizing effect on this seasonality. Moreover, food availability was found to affect reproductive physiology. Indeed, an improved nutrition enhances sexual behavior in goats while under-nutrition and particularly a negative energy balance adversely impact this activity. On the other hand, the social interaction in this species also affects the expression of the physiology and the sexual behavior during the breeding season. Goats, generally display a good plasticity of adaptation to all weathers including hot, cold, wet and dry ones. This peculiarity seems genotype-dependent and may be crucial for an efficient anticipation of new changes in the environmental cues related to global climatic changes. In this review we outline the effect of exogenous and endogenous factors on reproduction in goats thus providing a basis for comparing previous studies on main factors controlling the breeding seasonality in this species. Keywords: Goats, seasonal breeding, photoperiod, ambient temperature, food availability, social cues, genotype.La chèvre présente une reproduction saisonnière. Cette saisonnalité permet de coïncider la parturition avec la période adéquate de la nutrition et les conditions climatiques pour la survie de la progéniture. La présente revue analyse à travers les différents biotopes, les facteurs intervenants dans l'expression de cette saisonnalité de l'activité sexuelle chez cette espèce. Sous les différentes latitudes, la photopériode est le principal modulateur de cette saisonnalité chez la chèvre. D'autres facteurs environnementaux comme les changements saisonniers des cycles de la température ambiante semblent également induire un effet de synchronisation de cette saisonnalité. De plus, la disponibilité de la nourriture affecte de manière sensible la physiologie de la reproduction chez cette espèce. En effet, un état de bonne nutrition renforce le comportement sexuel chez la chèvre, alors que la sous-nutrition et en particulier un bilan énergétique négatif ont un impact négatif sur cette saisonnalité. D'autre part, l'interaction sociale chez cette espèce affecte également l'expression de la physiologie et le comportement sexuel pendant la saison de la reproduction. La chèvre présente une bonne adaptation à tous les biotopes, y compris les chauds, froids, humides et secs. Cette particularité semble dépendre du génotype et peut être cruciale pour une anticipation efficace des changements climatiques globaux. Mots clés: Chèvre, reproduction saisonnière, photopériode, température ambiante, disponibilité alimentaire, facteurs sociaux, génotype

Le contrôle environnemental et neuroendocrinien de l’activité saisonnière de la reproduction chez le dromadaire

Le dromadaire (Camelus dromedarius), qui est un mammifère bien adapté au désert est une espèce à reproduction saisonnière. Sa saison sexuelle a lieu durant l’hiver et le printemps. Ces périodes coïncident avec l’abondance des ressources alimentaires et des conditions climatiques favorables pour la survie de la progéniture. Toutefois les mécanismes impliqués dans le contrôle de cette saisonnalité restent encore mal élucidés. L’objectif de cette revue est de décrire les caractéristiques de la reproduction chez le dromadaire. Cela inclue la distribution géographique de sa saison sexuelle et son déclenchement possible par plusieurs paramètres environnementaux physiques, notamment la température ambiante, la photopériode et la quantité de précipitations. De plus, plusieurs aspects de cette saisonnalité ont été discutés chez le mâle et la femelle. Finalement, cette revue analyse les facteurs neuroendocriniens impliqués dans la saisonnalité de reproduction, notamment, le rôle putatif de deux neuropeptides hypothalamiques, le kisspeptin et le (Arg) (Phe) peptide apparenté. Mots-clés: Dromadaire, saisonnalité de reproduction, précipitations, photopériode, température ambiante, disponibilité alimentaire, kisspeptin, RFRP. The dromedary camel (Camelus dromedarius), a well-adapted desert mammal, is a seasonal breeder whose sexual activity occurs during the winter and spring. These periods coincide with food resources and climate conditions are favorable for offspring’s survival. The mechanisms involved in the control of this seasonality however still need to be elucidated. The aim of this review is to describe the reproductive patterns of the dromedary camel. This includes the geographical seasonal breeding distribution of this species taking into account the role of various physical environmental parameters notably temperature, day length and the amount of rainfall. Further, various aspects of seasonal breeding in male and female camels are discussed as well as the neuroendocrine factors that may control seasonal such phenomena. Finally, the putative roles of two hypothalamic neuropeptides, kisspeptin and (Arg) (Phe) related peptide, are proposed for the control of camel’s seasonal reproduction. Keywords: Dromedary camel, seasonal breeding, rainfall, photoperiod, ambient temperature, food availability, Kisspeptin, RFRP

Validation of locomotion scoring as a new and inexpensive technique to record circadian locomotor activity in large mammals

Background: The locomotor activity (LA) rhythm, widely studied in rodents, has not been fully investigated in large mammals. This is due to the high cost and the brittleness of the required devices. Alternatively, the locomotion scoring method (SM), consisting of attribution of a score to various levels of activity would be a consistent method to assess the circadian LA rhythm in such species. New method: To test this, a SM with a score ranging from 0 to 5 has been developed and used in two domestic large mammals, the camel and the goat. One minute interval scoring was performed using visual screening and monitoring of infra-red camera recording videos and carried out by two evaluators. Results: The SM provides a clear daily LA rhythm that has been validated using an automate device, the Actiwatch-Mini. The obtained curves and actograms were indeed highly similar to those acquired from the Actiwatch-Mini. Moreover, there were no statistical differences in the period and acrophase. The period was exactly of 24.0h and the acrophases occurred at 12h05 ± 00h03 and 12h14 ± 00h07 for the camel and at 13h13 ± 00h09 and 12h57 ± 00h09 for the goat using SM and Actiwatch-Mini respectively. Comparison with existing methods: Compared to the automatic system, the SM is inexpensive and has the advantage of describing all types of performed movements. Conclusions: The new developed SM is highly reliable and sufficiently accurate to assess conveniently the LA rhythm and specific behaviors in large mammals. This opens new perspectives to study chronobiology in animal models of desert, tropical and equatorial zones