Summary
Patterns of above-ground activity were recorded in two free-ranging populations of Microtus agrestis (L.) and one population of M. arvalis (Pall.) over several years by means of passage counters. Long-term variations of the circadian patterns were observed, but did not repeat themselves in a 12-month cycle. Variations in all three populations could be described by a sinusoidal function of an 18-month period. Maxima and minima of the sine-function were connected to distinct photoperiods (equinoxes and solstices). In a cyclic North Swedish population, the sine-function was superimposed by a second function which shows saturation behaviour. The relevance of these findings is discussed with respect to vole population cycles.
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References
Bäumler W (1975) Activity of some small mammals in the field. Acta theriol 20:365–377
Chitty D (1952) Mortality among voles (Microtus agrestis) at Lake Vyrnwy, Montgomeryshire in 1936–9. Phil Trans R Soc Lond, Ser B 236:505–552
Daan S, Aschoff J (1981) Short term rhythms in activity. In: J. Aschoff (ed.) Handbook of Behavioural Neurobiology, Vol 4: Biological Rhythms, Plenum Press, New York and London, pp 491–498
Daan S, Slopsema S (1978) Short-term rhythms in foraging behaviour of the common vole, Microtus arvalis. J Comp Physiol 127:215–227
Davis DHS (1933) Rhythmic activity in the short-tailed vole, Microtus. J Anim Ecol 2:232–238
Erkinaro E (1961) The seasonal change of the activity of Microtus agrestis. Oikos 12:157–163
Erkinaro E (1969) Der Phasenwechsel der lokomotorischen Aktivität bei Microtus agrestis (L), M. arvalis (Pall) and M. oeconomus (Pall). Aquilo (Ser Zool) 8:1–31
Godfrey GK (1955) Observations of the nature of the decline in numbers of two Microtus populations. J Mamm 36:209–214
Halle S (1984) Zusammenbruch einer Population der Erdmaus (Microtus agrestis L): Dynamik, Populationsstruktur, Aktivitätsverhalten. Diplomarbeit Universität Köln
Halle S (1985) Manifestation of the Västerbotten field vole cycle 1981–1984 in a small area. Fauna Norrlandica 1:1–20
Hansson L (1971) Habitat, food and population dynamics of the field vole Microtus agrestis (L) in South Sweden. Viltrevy 8:267–378
Hörnfeldt B (1986) Basinventering Gnagare (BIG). Rapport 20. Inst Ekol Zool., Universitet Umeå
Hoogenboom I, Daan S, Dallinga JH, Schoenmakers M (1984) Seasonal change in the daily timing of behaviour of the common vole, Microtus arvalis. Oecologia (Berlin) 61:13–31
Lehmann U (1976) Short-term and circadian rhythms in the behaviour of the vole, Microtus agrestis (L). Oecologia (Berlin) 23:185–199
Lehmann U, Sommersberg CW (1980) Activity patterns of the common vole, Microtus arvalis-automatic recording of behaviour in an enclosure. Oecologia (Berlin) 47:61–75
Mossing T (1975) Measuring small mammal locomotory activity by passage counters. Oikos 26:237–239
Myllymäki A (1977) Outbreaks and damage by the field vole, Microtus agrestis (L) since world war II in Europe. EPPO Bull 7:177–207
Ostermann K (1956) Zur Aktivität heimischer Muriden und Gliriden. Zool Jb (Physiol) 66:355–388
Rowsemitt CN, Pettersborg LJ, Claypool LE, Hoppensteadt FC, Negus NC, Berger PJ (1982) Photoperiodic induction of diurnal locomotor activity in Microtus montanus, the montane vole. Can J Zool 60:2798–2803
Sachs L (1969) Statistische Auswertungsmethoden. Springer Berlin, Heidelberg New York
Szymanski JS (1920) Aktivität und Ruhe bei Tieren und Menschen. Z Allg Physiol 18:105–162
Viswanathan N, Chandrashekaran MK (1985) Cycles of presence and absence of mother mouse entrain the circadian clock of pups. Nature 317:530–531
Wigger F (1983) Untersuchungen zum tages-und jahresperiodischen Aktivitätsverhalten freilebender und gekäfigter Arvicolidae (Microtus arvalis und Clethrinonomys glareolus). Diplomarbeit Universität Köln
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Halle, S., Lehmann, U. Circadian activity patterns, photoperiodic responses and population cycles in voles. Oecologia 71, 568–572 (1987). https://doi.org/10.1007/BF00379299
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DOI: https://doi.org/10.1007/BF00379299