Cm. King et al., POPULATION BIOLOGY OF SMALL MAMMALS IN PUREORA FOREST PARK .2. THE FERAL HOUSE MOUSE (MUS-MUSCULUS), New Zealand journal of ecology, 20(2), 1996, pp. 253-269
Over five years from November 1982 to November 1987, we examined 395 m
ice collected from unlogged and logged native forest and from exotic f
orest at Pureora Forest Park, in the central North Island of New Zeala
nd. Sex ratio, litter size, and breeding effort (pregnancy rate in fem
ales, proportion of males with visible tubules) were similar in all sa
mples. By contrast, both density (captures per 100 trap-nights = C/ 10
0TN) and recruitment (proportion of young mice of age classes 1-3) wer
e higher in densely vegetated habitats (along the road edge or in a yo
ung exotic plantation) than in the forest interior, whether logged or
not. The age structures of the road edge and interior forest samples w
ere significantly different (road edge, 33-35% young; interior, 10-11%
young, means adjusted for sex, season and year by GLM). Mice of a giv
en age caught in summer were larger, especially the females, implying
that young mice grew faster in summer than at other seasons, and that
older mice, especially females, also put on extra weight in summer. Mo
st pregnant mice were found in spring and summer, but there was no win
ter quiescence in mature mice of either sex, and three of 29 pregnant
females were collected in August. In five of 29 litters of embryos, at
least one embryo was resorbing, totalling 12 of 161 embryos (7.4%). L
itter size (viable embryos only) ranged from 5 to 8 (average 6) in 23
spring and summer pregnancies, but only 1-5 in four autumn and winter
pregnancies. At high densities during 1984 in the young plantation (41
.1 C/100TN in May) mice were significantly smaller in autumn, though s
omewhat larger in spring, and fewer young were recruited in 1984 and 1
985. In these years we found significantly fewer males fertile, litter
s smaller and pregnancy rates lower, both in the plantation and in oth
er habitats. The population peak was much higher than most apparently
similar post-seedfall peaks in beech forest documented by the same met
hods, but it was different because (1) it developed very suddenly in a
utumn rather than building up slowly over winter and spring and peakin
g in summer; (2) it was not preceded by winter breeding; and (3) it wa
s made up mostly of mice born in the previous summer, whereas peak pop
ulations in beech forests are usually made up of mice born during the
previous winter and spring.