Mark Struch scite author profile

Mark Struch

2Publications

37Citation Statements Received

71Citation Statements Given

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World Wide Fund for Nature

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Climate effects on demographic parameters in an unhunted population of Alpine chamois (Rupicapra rupicapra)

Willisch

Bieri²,

Struch

et al. 2013

Journal of Mammalogy

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Because of a rapidly changing climate, the need to understand how populations respond to varying climatic conditions has become increasingly important. Using long-term data from an unhunted population of Alpine chamois (Rupicapra rupicapra) and autoregressive time series models we investigated the extent to which the population demography was affected by local climate. Because density and weather are likely to operate differently on various sex-age categories, anticipated effects were assumed to vary among categories. Generally, elevated densities in 1 year negatively influenced the subsequent change in population size. Severe snow conditions during late winter negatively affected total population growth, and growth of the male, yearling, and juvenile segments of the population. A lagged effect of early winter snow on the change in animal numbers was demonstrated for females. Winter temperatures positively affected the growth rate of juveniles, whereas they appeared to have negative consequences for male and yearling growth rates. The juvenile-female ratio was negatively affected by the current female density, but did not respond to the various climate variables. Winter survival of juveniles was negatively influenced by the juvenile number during the preceding summer and harsh snow conditions during early winter. Our results indicate that winter climate shapes the demography of Alpine chamois. Particularly, winters with a lot of snow might have long-lasting consequences for the population. Considering the juveniles, lagged effects apparently operate through the body condition of their mothers. The conflicting effects of temperature on the different sex-age categories make the direction of expected population response to global warming difficult to predict.

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Wald, Wild und Luchs - gemeinsam in die Zukunft! Ein Beispiel aus dem Berner Oberland | Forest, Game and Lynx - a Future Together! The Bernese Oberland as an Example

Rüegg¹,

Baumann²,

Struch³

et al. 1999

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In an investigation area in the Bernese Oberland, in which due to the influence of wild animals essential problems of forest regeneration have been predominant for about 30 years, hunting and the influence of the lynx have mutually contributed to a decrease in the deer and chamois populations to a level that allows all tree species in the forest to again regenerate naturally. It seems that the regulation through the intervention of planned hunting and the lynx can be sensibly complemented and thus has led to a dynamic within the stand of wild animals which is especially necessary for the habitat in general and the mountain forest in particular. The further distribution of lynxes within the whole alpine bow is, therefore, to be supported not only in order to protect the species but also to conserve mountain forests.

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Mark Struch

Climate effects on demographic parameters in an unhunted population of Alpine chamois (Rupicapra rupicapra)

Wald, Wild und Luchs - gemeinsam in die Zukunft! Ein Beispiel aus dem Berner Oberland | Forest, Game and Lynx - a Future Together! The Bernese Oberland as an Example

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