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Literature DB >> 9821362

Phase- and density-dependent population dynamics in Norwegian lemmings: interaction between deterministic and stochastic processes.

N C Stenseth¹, K S Chan, E Framstad, H Tong.

Abstract

We analysed two 26-year long (1970-1995) time-series on annual population growth rates of Norwegian lemmings (Lemmus lemmus) from Finse, south Norway, using a threshold autoregressive (TAR) approach. We demonstrate that the population dynamics is both phase- and density-dependent. The phase-dependence accounts for the observed nonlinearity. We used the deduced stochastic model structure as a basis for evaluating the dynamic properties of this system. The dynamics is characterized either by limit cycles or chaos (the latter with a strong semi-periodic component). Stochasticity is seen to play an important role in the determination of the periodicity. The ecological implications of these statistical and mathematical results are discussed.

Entities: Species

Mesh：

Year: 1998 PMID： 9821362 PMCID： PMC1689487 DOI： 10.1098/rspb.1998.0526

Source DB: PubMed Journal: Proc Biol Sci ISSN： 0962-8452 Impact factor: 5.349

10 in total

1. Chaotic stochasticity: a ubiquitous source of unpredictability in epidemics.

Authors: D A Rand; H B Wilson
Journal: Proc Biol Sci Date: 1991-11-22 Impact factor: 5.349

2. Limit cycles in predator-prey communities.

Authors: R M May
Journal: Science Date: 1972-09-08 Impact factor: 47.728

3. A gradient from stable to cyclic populations of Clethrionomys rufocanus in Hokkaido, Japan.

Authors: N C Stenseth; O N Bjørnstad; T Saitoh
Journal: Proc Biol Sci Date: 1996-09-22 Impact factor: 5.349

4. Is spacing behaviour coupled with predation causing the microtine density cycle? A synthesis of current process-oriented and pattern-oriented studies.

Authors: N C Stenseth; O N Bjørnstad; W Falck
Journal: Proc Biol Sci Date: 1996-11-22 Impact factor: 5.349

5. Seasonal differences in habitats of the Norwegian lemming, Lemmus lemmus (L.), in 1959 and 1960 at Kilpisjärvi, Finnish Lapland.

Authors: O Kalela; L Kilpeläinen; T Koponen; J Tast
Journal: Ann Acad Sci Fenn Biol Date: 1971

6. Bootstrap estimated uncertainty of the dominant Lyapunov exponent for Holarctic microtine rodents.

Authors: W Falck; O N Bjørnstad; N C Stenseth
Journal: Proc Biol Sci Date: 1995-08-22 Impact factor: 5.349

7. Delayed density-dependence in a small-rodent population.

Authors: J Agrell; S Erlinge; J Nelson; C Nilsson; I Persson
Journal: Proc Biol Sci Date: 1995-10-23 Impact factor: 5.349

Review 8. Population cycles in northern small mammals.

Authors: K Norrdahl
Journal: Biol Rev Camb Philos Soc Date: 1995-11

9. Stochastic resonance and the benefits of noise: from ice ages to crayfish and SQUIDs.

Authors: K Wiesenfeld; F Moss
Journal: Nature Date: 1995-01-05 Impact factor: 49.962

10. Population oscillations of boreal rodents: regulation by mustelid predators leads to chaos.

Authors: I Hanski; P Turchin; E Korpimäki; H Henttonen
Journal: Nature Date: 1993-07-15 Impact factor: 49.962

10 in total

6 in total

Phase- and density-dependent population dynamics in Norwegian lemmings: interaction between deterministic and stochastic processes.

1. Chaotic stochasticity: a ubiquitous source of unpredictability in epidemics.

2. Limit cycles in predator-prey communities.

3. A gradient from stable to cyclic populations of Clethrionomys rufocanus in Hokkaido, Japan.

4. Is spacing behaviour coupled with predation causing the microtine density cycle? A synthesis of current process-oriented and pattern-oriented studies.

5. Seasonal differences in habitats of the Norwegian lemming, Lemmus lemmus (L.), in 1959 and 1960 at Kilpisjärvi, Finnish Lapland.

6. Bootstrap estimated uncertainty of the dominant Lyapunov exponent for Holarctic microtine rodents.

7. Delayed density-dependence in a small-rodent population.

Review 8. Population cycles in northern small mammals.

9. Stochastic resonance and the benefits of noise: from ice ages to crayfish and SQUIDs.

10. Population oscillations of boreal rodents: regulation by mustelid predators leads to chaos.

1. Common structure in panels of short ecological time-series.

2. Modelling non-additive and nonlinear signals from climatic noise in ecological time series: Soay sheep as an example.

3. Specific non-monotonous interactions increase persistence of ecological networks.

4. Cycles, stochasticity and density dependence in pink salmon population dynamics.

5. Supplementary fed Ural owls increase their reproductive output with a one year time lag.

6. Graph-facilitated resonant mode counting in stochastic interaction networks.