C. Calenge scite author profile

Summary1. Timing and synchrony of reproduction are regarded as crucially important factors for fitness in seasonal environments. Natural selection has probably favoured temperate and arctic female herbivores that match reproduction with onset of plant growth in spring. However, breeding synchrony may also be affected by variation in phenotypic quality of females in a population, because females in poor body condition have been found to delay ovulation and subsequent calving. 2. We compared breeding phenology, i.e. the timing and synchrony of rutting (roaring, sexual aggregation) and calving of red deer ( Cervus elaphus L.) in France (latitude: 49 ° N) and Norway (latitude: 63 ° N). We hypothesized (H 1 ) that calving and rutting were later at the site with latest onset of plant growth. 3. We further quantified overall environmental predictability as the sum of annual constancy and seasonality and tested three different (not mutually exclusive) hypotheses about breeding synchrony: (H 2a ) the population experiencing most seasonal plant phenology should show the highest breeding synchrony; (H 2b ) overall predictability of plant phenology should determine breeding synchrony; and (H 2c ) breeding should be more synchronized in the population with lowest female body weight variation within age classes because they ovulate more synchronously. 4. Calving and rutting, as well as onset of plant phenology, were later in Norway than in France, complying with the first hypothesis. Plant growth in spring was overall more predictable and also more seasonal in Norway than France. Hence we expected higher breeding synchrony in Norway than in France according to H 2a and H 2b . Variance in female body weight was slightly higher in France than in Norway, which should also cause more synchronized breeding in Norway than in France (H 2c ). Contrary to all predictions, variance in rutting and calving dates was around two times higher in Norway than in France. 5. We suggest two alternative explanations of breeding synchrony. A more variable topography in Norway can make optimal birth date more variable on a local scale than in France, thereby maintaining a higher genetic variance for calving date in Norwegian red deer. Further, population age structure may play a role, as ovulation varies according to female age. Clearly, processes of breeding synchrony are far more complex than previously realized.

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The Kilometric Index as a monitoring tool for populations of large terrestrial animals: a feasibility test in Zakouma National Park, Chad

Maillard

Calenge

Jacobs³

et al. 2001

African Journal of Ecology

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Reintroduction of roe deer Capreolus capreolus into a Mediterranean habitat: female mortality and dispersion

et al. 2005

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Should I stay or should I go? Determinants of immediate and delayed movement responses of female red deer (Cervus elaphus) to drive hunts

Chassagneux

Calenge²,

Marchand

et al. 2020

PLoS ONE

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Hunting can be used as a tool for wildlife management, through limitation of population densities and dissuading game from using sensitive areas. The success of these approaches requires in depth knowledge of prey movement. Indeed, movement decisions of game during hunting may affect the killing success of hunters as well as the subsequent location of surviving animals. We thus investigated red deer movement responses to drive hunts and their causal factors. We studied 34 hunting events in the National Estate of Chambord (France) and thereby provided a fine-scale characterization of the immediate and delayed movement responses of red deer to drive hunts. Red deer responded to drive hunts either by immediately fleeing the hunted area, or by initially remaining before ultimately fleeing after the hunters had departed. A few hours after the hunt, all individuals were located in distant areas (> 2 kilometres) from the hunted area. Immediate flight responses were less common when drive hunts occurred in areas with dense understorey. However, neither beater/ dog densities nor site familiarity influenced the immediate flight decision. Following a drive hunt, red deer remained outside the hunted areas for periods twice as long compared to periods when no hunting occurred (34 hours vs. 17 hours). Such knowledge of game movement rates in response to drive hunts may help the development of informed management policy for hunted red deer populations.

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C. Calenge

Climate predictability and breeding phenology in red deer: timing and synchrony of rutting and calving in Norway and France

The Kilometric Index as a monitoring tool for populations of large terrestrial animals: a feasibility test in Zakouma National Park, Chad

Reintroduction of roe deer Capreolus capreolus into a Mediterranean habitat: female mortality and dispersion

Should I stay or should I go? Determinants of immediate and delayed movement responses of female red deer (Cervus elaphus) to drive hunts

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