Nina Holmengen scite author profile

Variation in life history is a central key to understanding population dynamics, and density dependence and climate are important factors in shaping life-history variation in ungulates. Early growth is often sensitive to adverse conditions and this may in turn affect juvenile survival and age at first reproduction. We report variation in body weight of 5079 reindeer Rangifer tarandus from North Ottadalen, a very productive reindeer area in Norway, sampled over 14 years in the period 1967-1989. The North Ottadalen reindeer herd was established in 1964 from a winter herd of some 500 semi-domestic reindeer, and allowed to grow to a peak of over 3300 reindeer in 1974, after which increased harvest decreased the population size. The proportion of lactating yearling females varied between 0% and 50%. Lactating females had lower autumn body weights than non-lactating females. A decline in body weight with age, i.e. senescence, was evident in both males and females from around 7 to 9 years of age. Body weights of all age and sex groups as well as the proportion of yearling females lactating decreased over time, and more so in younger than older males, although the population size declined markedly after the population peak in 1974. We found no effect of the North Atlantic Oscillation or local weather on body weight. The possible causes of the marked decline in performance with time in the North Ottadalen reindeer herd are discussed, and it is suggested that this may be related to the transition from being managed as semi-domestic to wild (i.e. hunted).

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Predator–prey coupling: interaction between mink Mustela vison and muskrat Ondatra zibethicus across Canada

Holmengen¹,

Seip²,

Boyce³

et al. 2009

Oikos

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In this paper we explore variation in the predator-prey interaction between mink Mustela vison and muskrat Ondatra zibethicus across Canada based on 25 years of mink (predator) and muskrat (prey) data from the Hudson's Bay Company. We show that predatorÁprey interactions have stronger signatures in the west of Canada than in the east. In particular, we show that the observed phase plot trajectories of mink and muskrat rotate significantly clock-wise, consistent with predatorÁprey theory. We also investigate four phases of the mink muskrat interaction sequence (predator crash phase, prey recovery phase, etc.) and show that they are all consistent with a strong coupling in the west, whereas the presence of generalist predators and alternative preys can explain deviations from this pattern in the east.

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Cycle lengths and phase portrait characteristics as probes for predator–prey interactions: comparing simulations and observed data

Holmengen

Seip

2009

Can. J. Zool.

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In this paper we explore the cyclic interactions of prey-predator systems by examining the relationship between cycle lengths of both species and the strength of their interaction. As a probe of interaction strength, we use the degree of counter-clockwise rotation in phase plots with the prey on the x axis and the predator on the y axis. We compare the results from a 25-year time series from the Hudson's Bay Company data on American mink (Neovison vison (Schreber, 1777)) and muskrat (Ondatra zibethicus (L., 1766)) with results from three simulation models. We found that the strength of interaction (rotation range: -0.4 to 1.1 rad/year) was strongest when the two cycle lengths were similar and that it increased with the amplitude of the cycles (cycle range: 4-10 years). The time difference between prey and predator cycles that corresponded to the highest interaction strength was 2-3 years. Similar results were obtained with simulation models; the most complex Hanski model showing the overall best fit with observations. However, none of the models were able to reproduce long ranges of stable cycles by only changing one of their parameters at a time (ranges 2-4 years), whereas the observed range of stable cycles was 4-10 years.

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The effect of energy reserves on interspecific competition in cladocerans

Holmengen¹,

Seip²

2009

SIL Proceedings, 1922-2010

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Changes in interaction dynamics among functional species groups: the case of Lake Washington

Seip¹,

Holmengen²

2009

SIL Proceedings, 1922-2010

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Nina Holmengen

Life‐history variation of wild reindeer (Rangifer tarandus) in the highly productive North Ottadalen region, Norway

Predator–prey coupling: interaction between mink Mustela vison and muskrat Ondatra zibethicus across Canada

Cycle lengths and phase portrait characteristics as probes for predator–prey interactions: comparing simulations and observed data

The effect of energy reserves on interspecific competition in cladocerans

Changes in interaction dynamics among functional species groups: the case of Lake Washington

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