With 15 figures in the text)Data from the longest running capture-mark-recapture study of Eurasian badgers, in an undisturbed wild population at Woodchester Park in Gloucestershire, were used to investigate population dynamics. Twenty-one social groups of badgers occupying an area of 7.3km2 were studied from 1978-1993. The density increased steadily over the study period, reaching the highest published density known anywhere at 25.3 adults per km' in 1993, and the average social group size increased to 8.8 adults (S.E. ? 0.85) in 1993. By 1993, 97% of the population trapped was of known age and overall the population consisted of 27% cubs and 73% adults. In addition, the results supported previous studies in that the population had an equal sex ratio as cubs, but became increasingly femalebiased with age. There was high juvenile mortality, nearly 50% dying in their first year. Between 58 and 90.2% of adult females did not breed each year.
Bait‐marking is a widely used technique for determining the territorial configuration of social groups of the European Badger (Meles meles). Applications include ecological research and applied wildlife management problems. Bait laced with indigestible plastic pellets is fed to Badger social groups, and the markers are identified in subsequent defecations. Feeding a unique colour and/or shape of pellet to each social group allows the origin of droppings to be assigned. This method is particularly suited to Badgers because they mark their territorial boundaries with communal latrines. In this paper the technique is described in detail for the first time in the scientific literature. Data from sequential visits to latrines during the survey period showed significant short‐term variation in the number of marked droppings counted at individual latrines. This suggests that counting marked droppings may be of limited value in quantifying defecation rates and latrine use. However, counts of droppings at latrines could be useful if repeated over time and/or grouped into broad categories. Bait marking does provide reliable data for the estimation of territorial boundaries between Badger groups, although it is labour intensive and time‐consuming, with the best results obtained by experienced fieldworkers.
The dispersal and other movement patterns in two Badger populations, one in rural Gloucestershire and the other in suburban Bristol, are described and categorized into nine different types of movement. Movements were less common in the high density Badger population in Gloucestershire, but disturbance increased the likelihood of movements occurring. In the lower density Bristol population, where the social structure was more fluid, movements were more common. However, in both populations truly itinerant Badgers appeared to be rare. More male than female Badgers moved, but for each type of movement there was no difference in the distance moved by males and females. Movements were rare in animals less than a year old; most movements occurred in sexually mature animals, i.e. those more than 2 years old.
T h e dynamics of bovine tuberculosis infection in a wild Badger population have been studied since 1981. Faeces are sampled regularly to determine the distribution of infection in the study area. Badgers in known infected social groups, plus the neighbouring groups, are periodically caught and subjected to full clinical and bacteriological examination to monitor the progression of infection within and between groups of Badgers. The interim results of this study are presented and discussed. During 5 years (1981)(1982)(1983)(1984)(1985), the temporal spread of infection between social groups in the study area was slow and restricted. Some clinically affected Badgers have survived for long periods. Evidence of infection in individual Badgers indicates that pseudo-vertical (mother to cub) transmission may be important in the maintenance of infection in the Badger population. There is also evidence of horizontal transmission by bite wounding and aerosol infection. Badger mortality due to Mycobacterium bovis infection was low, and the prevalence of infection in male Badgers is greater than in females. T h e data accumulated so far show no apparent relationship between Badger population density and the prevalence of M . bovis infection, nor is there any evidence to support the hypothesis that M . bovis infection acts to depress Badger population density significantly below diseasefree levels. Cattle and infected Badgers can co-exist for long periods without the disease necessarily being transmitted to cattle.
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