We find that claw marks are an important source of data on intera

We find that claw marks are an important source of data on interactions between lions and giraffes. The lion Panthera leo is the most important TAM Receptor inhibitor predator of the giraffe Giraffa camelopardalis (Berry, 1973; Dagg & Foster, 1982), yet the relationship between these species has been rarely studied. Lions may be the primary cause of death for giraffe calves (Dagg & Foster, 1982), which suffer an estimated 58–73% mortality in the first of year of life (Foster & Dagg, 1972; Leuthold & Leuthold, 1978; Pellew, 1983a). Although giraffe mortality drops off substantially after 1 year of age (Pellew, 1983a), lion predation remains a significant mortality factor for subadults and even

for adults (e.g. Hirst, 1969; Pienaar, 1969), which weigh 800–1200 kg (Owen-Smith, 1988) and reach heights of up to 4.5–5.5 m for females and males, respectively (Dagg & Foster, 1982; Pellew, 1983a). Direct observations of lion attacks on giraffes are rare. click here In a 3-year study of Serengeti lions, Schaller (1972) observed only 10 such attacks, none of which led to a kill. Consequently, little is known about the effects of lions on giraffe

mortality and behavior. What is known is largely anecdotal or inferred from short-term studies of giraffe demography or from carcass records. If the majority of attacks are occurring in conditions not conducive to direct observation, such as at night or in dense vegetation, then alternative sources of data will be required. In this paper, we examine lion predation on giraffes by applying a novel methodology that has been used primarily in marine biology: predation marks on live animals. Underwater predation is difficult to observe directly (Bertilsson-Friedman, 2006); thus, predation marks visible on surfacing animals are an important

source of data on predator–prey interactions. While predation marks cannot be used alone to estimate predation rates, they can be used to identify predatory species (e.g. Corkeron, Morris & Bryden, 1987; Cockcroft, Cliff & Ross, 1989), to elucidate attack behavior, to infer which age–sex classes of prey are better able to evade predation (e.g. Corkeron et al., 1987; Heithaus, selleck chemicals 2001) and to examine variation in predation risk over space and time (Heithaus, 2001; Bertilsson-Friedman, 2006). Similarly, the predation-mark method can increase the sample size of lion predation events on giraffes. Only a portion of lion attacks are fatal (Schaller, 1972; Funston, Mills & Biggs, 2001) and surviving prey may incur bite wounds or claw marks. Lion claw marks are distinctive and can be differentiated from marks inflicted by other predators (Figs 1 and 2). Claw marks are observed on giraffe carcasses (Schaller, 1972) and on live giraffes (Fig. 2). Interpretation of claw marks, however, requires caution. For example, an absence of claw marks in an age–sex class could indicate that all attacked individuals die, that no individuals are attacked or that too few individuals were sampled.

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