In domestic and wild mammals, tick infestation can be a significant fitness
cost. Grooming behaviour has been shown to be effective in removing ticks.
We studied grooming by moose, Alces alces, infested with winter ticks, Der
macentor albipictus, to determine which of two nonexclusive models for the
regulation of tick-removal grooming, programmed or stimulus driven, best fi
t this host-parasite relationship. The programmed grooming model states tha
t most grooming is driven by an internal timing mechanism which periodicall
y evokes a bout a grooming independent of peripheral stimulation from tick
bites. Because programmed grooming is preventive, the model predicts that t
hose animals that groom the most will carry the fewest ticks, and a baselin
e level of programmed grooming is predicted even in a tick-sparse or tick-f
ree environment. The stimulus-driven grooming model, on the other hand, sta
tes that grooming is a direct response to cutaneous irritation caused by ti
ck bites and other sources of irritation. This stimulus-driven model predic
ts that (1) animals showing the highest rate of grooming will carry the mos
t ticks and (2) animals will groom little when tick challenge is low. Both
predictions of the stimulus-driven model were supported for moose: (1) calv
es oral-groomed three times more than cows, and tick densities on calves we
re three times higher than on cows; and (2) although all moose carried high
densities of immature winter ticks (larvae, nymphs) from October through t
o February, grooming rate was very low until adult ticks started feeding in
March-April. Peak grooming rates occurred during adult tick engorgement in
March-April. Because an engorging adult female tick produces far more irri
tation than an engorging nymphal or larval tick, moose appeared to groom in
direct proportion to the degree of cutaneous irritation and did not show a
baseline level of grooming. The predominance of stimulus-driven grooming a
nd apparent absence of programmed grooming may be the result of relaxed sel
ection pressure for grooming in the evolutionary history of moose. Because
the winter tick appears to have been introduced to moose from deer relative
ly recently, moose may not have had the time to adapt to winter ticks. The
coevolutionary relationship between moose and winter ticks may be of insuff
icient duration for the evolution and/or maintenance of programmed grooming
. (C) 1998 The Association for the Study of Animal Behaviour.