Laura Härkönen scite author profile

21Animals, including fish, display individually consistent behavioral differences that may affect 22 an individual's vulnerability not only to predation, but also to fishing. Compared to complex 23 natural environments, plain hatchery environments might induce development of behaviors 24 that increase vulnerability to fishing, which would in turn have major implications for the 25 management of stocks by supportive releases. We studied whether the vulnerability of 26 hatchery-reared brown trout Salmo trutta to angling could be predicted by rearing method 27 (standard vs. enriched) or behavioral variation that was assessed using long-term observations 28 of moving activity in groups. High moving activity in the beginning of the behavioral tests, 29i.e. exploration behavior, predicted increased vulnerability to angling independently of fish 30 body size. Standard rearing promoted high exploration rate among fish, whereas enriched 31 rearing promoted improvement in body condition in (semi-)natural conditions. However, the 32 driving influence of hunger on vulnerability could not be ruled out, as the most explorative 33 standard-reared fish appeared unable to maintain their body condition during the experiments. 34This study provides direct evidence that standard hatchery rearing method promotes 35 behaviors that directly predict vulnerability to angling. 36 37

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Geographical variation in host use of a blood-feeding ectoparasitic fly: implications for population invasiveness

Välimäki

Kaitala

Madslien³

et al. 2011

Oecologia

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Invasive generalist ectoparasites provide a tool to study factors affecting expansion rates. An increase in the number of host species may facilitate geographic range expansion by increasing the number of suitable habitats and by affecting local extinction and colonization rates. A geographic perspective on parasite host specificity and its implications on range expansion are, however, insufficiently understood. We conducted a field study to explore if divergent host specificity could explain the observed variation in expansion rates between Fennoscandian populations of the deer ked (Lipoptena cervi), which is a blood-feeding ectoparasitic fly of cervids. We found that the rapidly expanding eastern population in Finland appears to specialize on moose, whereas the slowly expanding western population in Norway breeds successfully on both moose and roe deer. The eastern population was also found to utilize the wild forest reindeer as an auxiliary host, but this species is apparently of low value for L. cervi in terms of adult maintenance, reproductive output and offspring quality. Abundant numbers of roe deer and white-tailed deer were observed to be apparently uninfected in Finland, suggesting that host use is not a plastic response to host availability, but rather a consequence of population-level evolutionary changes. Locally compatible hosts were found to be the ones sharing a long history with the deer ked in the area. Cervids that sustained adult deer keds also allowed successful reproduction. Thus, host use is probably determined by the ability of the adult to exploit particular host species. We conclude that a wide host range alone does not account for the high expansion rate or wide geographic distribution of the deer ked, although loose ecological requirements would increase habitat availability.

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Fennoscandian distribution of an important parasite of cervids, the deer ked (Lipoptena cervi), revisited

et al. 2010

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The deer ked [Lipoptena cervi (L. 1758) (Dipt., Hippoboscidae)] is a blood-sucking ectoparasite of cervids. The species has been resident in Sweden for more than two centuries, whereas in Finland ( approximately 50 years) and Norway ( approximately 30 years), it has established itself relatively recently. L. cervi may cause serious health problems in its natural hosts, act as a vector for zoonotic diseases, and pose a socioeconomic threat to forest-based activity. In this paper, we review the distribution and former expansion of the species in Fennoscandia. The current distribution of L. cervi appears bimodal, and the geographical range expansion of the species shows notable differences across Fennoscandia. The western population in Norway and Sweden has its northern edge of range at respective latitudes of 61 degrees N and 62 degrees N, whereas the eastern population in Finland reaches 65 degrees N. The future expansion of L. cervi is dependent on several interdependent extrinsic and intrinsic factors. International multidisciplinary collaboration is needed to achieve a synthesis on the factors affecting expansion rates and to understand the effects of L. cervi on wildlife, human health, and the rural societies of Fennoscandia.

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Predicting range expansion of an ectoparasite – the effect of spring and summer temperatures on deer kedLipoptena cervi(Diptera: Hippoboscidae) performance along a latitudinal gradient

Härkönen¹,

Härkönen²,

Kaitala³

et al. 2010

Ecography

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The range expansion of organisms towards higher latitudes and altitudes is often limited by colder temperatures and the shorter growth season. In parasites, survival outside the host is most likely to affect their potential establishment in novel environments. We conducted a large scale transplant experiment to predict the potential spread of the deer ked Lipoptena cervi (Diptera: Hippoboscidae), a blood‐feeding ectoparasite of boreal cervids. We studied the off‐host survival and pupal development of deer ked in five sites along a latitudinal gradient reaching from its current range in central Finland to northernmost Fennoscandia. We showed that the deer ked is able to survive and complete its development even in arctic environments, 500 km northwards beyond the current range. Performance deteriorated steadily towards north, where lower summer temperatures prolonged the developmental period and shortened the suitable host search time by several weeks. The relevance of the experiments for estimating the spread of deer ked to the north is discussed.

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