Horak_255-261.qxd


INTRODUCTION

A large number of surveys have focused on the role
of small mammals as hosts of the immature stages
of ixodid ticks in South Africa. The accent has been
mainly on murid rodents (Rechav 1982; Howell,
Petney & Horak 1989; Horak, Fourie, Novellie &
Williams 1991; Fourie, Horak & Van Den Heever
1992; Braack, Horak, Jordaan, Segerman & Louw
1996; Horak & Boomker 1998; Horak & Cohen
2001; Petney, Horak, Howell & Meyer 2004), but

elephant shrews (Stampa 1959; Fourie et al. 1992;
Fourie, Horak, Kok & Van Zyl 2002), hares and rab-
bits (Stampa 1959; Horak, Sheppey, Knight &
Beuthin 1986; Horak & Fourie 1991; Horak et al.
1991; Horak, Spickett, Braack & Penzhorn 1993;
Horak, Spickett, Braack, Penzhorn, Bagnall & Uys
1995; MacIvor & Horak 2003), rock dassies (Horak
& Fourie 1986; Horak et al. 1991), and small carni-
vores (Horak, Chaparro, Beaucournu & Louw 1999;
Horak, Braack, Fourie & Walker 2000) have also
been examined. 

The adults of some of the tick species that infest
these small animals as larvae or nymphs are impor-
tant vectors of disease or toxins to domestic live-
stock, whereas others are of little or no economic
consequence. Thus murid rodents are among the
preferred hosts of the immature stages of Haema-
physalis leachi, whose adults parasitize and trans-
mit canine babesiosis to domestic dogs (Lewis,
Penzhorn, Lopez-Rebollar & De Waal 1996), and of

255

Onderstepoort Journal of Veterinary Research, 72:255–261 (2005)

Small mammals as hosts of immature ixodid ticks

I.G. HORAK1, 2, L.J. FOURIE2 and L.E.O. BRAACK3

ABSTRACT

HORAK, I.G., FOURIE, L.J. & BRAACK, L.E.O. 2005. Small mammals as hosts of immature ixodid
ticks. Onderstepoort Journal of Veterinary Research, 72:255–261

Two hundred and twenty-five small mammals belonging to 16 species were examined for ticks in
Free State, Mpumalanga and Limpopo Provinces, South Africa, and 18 ixodid tick species, of which
two could only be identified to genus level, were recovered. Scrub hares, Lepus saxatilis, and Cape
hares, Lepus capensis, harboured the largest number of tick species. In Free State Province Namaqua
rock mice, Aethomys namaquensis, and four-striped grass mice, Rhabdomys pumilio, were good
hosts of the immature stages of Haemaphysalis leachi and Rhipicephalus gertrudae, while in Mpu-
malanga and Limpopo Provinces red veld rats, Aethomys chrysophilus, Namaqua rock mice and
Natal multimammate mice, Mastomys natalensis were good hosts of H. leachi and Rhipicephalus
simus. Haemaphysalis leachi was the only tick recovered from animals in all three provinces.

Keywords: Immature ixodid ticks, Haemaphysalis leachi, Rhipicephalus gertrudae, Rhipicephalus
simus, small mammals, South Africa

1 Department of Veterinary Tropical Diseases, Faculty of Vet-
erinary Science, University of Pretoria, Onderstepoort, 0110
South Africa. E-mail: ivan.horak@up.ac.za

2 Department of Zoology and Entomology, University of the
Free State, Bloemfontein, 9301 South Africa

3 Scientific Services, South African National Parks, Kruger
National Park, Skukuza, 1350 South Africa. Present address:
P.O. Box 2550, Brooklyn Square, 0075 South Africa

Accepted for publication 14 June 2005—Editor



Rhipicephalus simus, whose adults parasitize cat-
tle, horses and domestic dogs and transmit ana-
plasmosis to cattle and produce a toxin causing
paralysis in calves and lambs (Walker, Keirans &
Horak 2000). Rock elephant shrews, Elephantulus
myurus, are the hosts most favoured by the imma-
ture stages of Ixodes rubicundus and Rhipicephalus
warburtoni, whose adults cause paralysis in sheep
and goats (Stampa 1959; Walker et al. 2000), and
scrub hares, Lepus saxatilis, by the immature stages
of Hyalomma marginatum rufipes and Hyalomma
truncatum, whose adults are parasites of domestic
cattle, sheep and goats. The former tick transmits
anaplasmosis and Babesia occultans to cattle, and
the latter secretes a toxin that is the cause of sweat-
ing sickness in these animals (Walker, Bouattour,
Camicas, Estrada-Peña, Horak, Latif, Pegram &
Preston 2003). The objective of the present paper
is to present recent data on the ixodid ticks that
infest small mammals in three of the nine provinces
of South Africa, and to supply the geographic coor-
dinates of the localities at which the ticks were col-
lected for future mapping purposes.

MATERIALS AND METHODS

Two hundred and twenty-five small mammals,
belonging to 16 species, were collected in Free
State, Mpumalanga and Limpopo Provinces, South
Africa and processed for tick recovery as described
by Horak et al. (1986). One hundred and sixty-three
of these animals belonging to 10 species were
examined in Free State Province and 62 belonging
to 11 species were examined in Mpumalanga and
Limpopo Provinces (Table 1).

RESULTS AND DISCUSSION

The ticks collected in Free State Province are sum-
marized in Tables 2 and 3, and those from animals
in the north-eastern regions of Mpumalanga and
Limpopo Provinces in Tables 4 and 5.

Twelve tick species, of which two could be identified
only to genus level, were recovered in Free State
Province and nine in Mpumalanga and Limpopo
Provinces. Only H. leachi was collected in all three
provinces, while H. truncatum and Rhipicephalus
evertsi evertsi were collected in two, namely Free
State and Mpumalanga Provinces.

Scrub hares, L. saxatilis, and Cape hares, Lepus
capensis, were infested with the largest number of
tick species. In Free State Province Namaqua rock
mice, Aethomys namaquensis, and four-striped

grass mice, Rhabdomys pumilio, were good hosts
of the immature stages of H. leachi and Rhipiceph-
alus gertrudae, while in Mpumalanga and Limpopo
Provinces red veld rats, Aethomys chrysophilus,
Namaqua rock mice and Natal multimammate mice,
Mastomys natalensis, were good hosts of H. leachi
and R. simus, a tick anagolous to R. gertrudae. 

Dermacentor rhinocerinus

The hosts of the immature stages of this tick were
unknown until Horak & Cohen (2001) collected lar-
vae and nymphs from rodents in Mpumalanga
Province. For the sake of completeness we have
repeated their findings here because other tick spe-
cies, recovered from the same hosts, were not listed
in the earlier publication. Dermacentor rhinocerinus
is a host-specific parasite of rhinoceroses (Keirans
1993), of which there are several in the Mthetho-
musha Reserve, Mpumalanga Province. These ani-
mals must have been the source of infestation
reflected in the burdens of immature ticks of five of
the 38 rodents examined in the reserve (Table 4).
There are rhinoceroses in the Willem Pretorius
Nature Reserve in Free State Province, but it is not
known whether D. rhinocerinus is also present. 

Haemaphysalis leachi

Domestic dogs and the larger wild felids are the
preferred hosts of adult H. leachi, while its immature
stages occur mainly on murid rodents (Norval 1984;
Braack et al. 1996; Horak et al. 2000). Its widespread
distribution in the present survey confirms Norval’s
(1984) assertion that provided hosts for its adults
and immature stages are present, almost any local-
ity in southern Africa can be regarded as suitable.
Furthermore the large range of carnivore and rodent
species parasitized by its adult and immature stages,
respectively (Norval 1984; Horak et al. 2000; Tables
2 and 4) and their widespread distribution, ensure
that should H. leachi be introduced into a region it
would readily become established. This assumption
is corroborated by its extensive but discontinuous
distribution in South Africa (Howell, Walker & Nevill
1978).

Haemaphysalis leachi transmits Babesia canis, the
cause of canine babesiosis in domestic dogs in
South Africa (Lewis et al. 1996). Judging by the host
preferences of the adult and immature stages of the
tick it would seem that transmission mostly takes
place via the adults with infection passing trans-
ovarially from adult ticks of the previous generation
without it being lost when the immature stages feed
on rodents.

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257

I.G. HORAK, L.J. FOURIE & L.E.O. BRAACK

TABLE 1 Small mammals and the localities at which they were examined for ixodid ticks

Small mammal species

Province, locality and coordinatesCommon name Scientific name No. 
examined

Tree squirrel Paraxerus cepapi 2 Limpopo, Pafuri (23°27´S, 31°19´E) (KNP)

Short-tailed pouched Saccostomys 1 Free State, Tussen-die-Riviere NR (30°29´S, 26°15´E)
mouse campestris 3 Limpopo, Pafuri (23°27´S, 31°19´E) (KNP)

Bushveld gerbil Tatera leucogaster 5 Free State, Sandveld NR (27°38´S 25°42´E)
4 Mpumalanga, Mtethomusha NR (25°29´S, 31°17´E)
1 Mpumalanga, Pretoriuskop (25°10´S, 31°16´E) (KNP)

Red veld rat Aethomys 10 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)
chrysophilus 1 Mpumalanga, Berg-en-Dal (25°25´S, 31°27´E) (KNP)

8 Limpopo, Pafuri (23°27´S, 31°19´E) (KNP)

Namaqua rock mouse Aethomys 17 Free State, “Preezfontein” (29°50´S, 25°23´E)
namaquensis 21 Free State, Tussen-die-Riviere NR (30°29´S, 26°15´E)

34 Free State, Welbedacht Dam (29°51´S, 26°53´E)
5 Free State, Zandbult (locality unknown)
5 Free State, Wolhuterskop (28°14´S, 28°18´E)

15 Free State, Willem Pretorius NR (28°19´S, 27°15´E)
6 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)
1 Limpopo, Tshalungwa (22°33´S, 31°05´E) (KNP)
3 Limpopo, Pafuri (23°27´S, 31°19´E) (KNP)

Single-striped mouse Lemniscomys rosalia 1 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)

Multimammate mouse Mastomys coucha 10 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)

Natal multimammate Mastomys natalensis 6 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)
mouse 1 Limpopo, Dube Station (KNP)

1 Limpopo, Mashikiri (22°35´S, 31°11´E) (KNP)
1 Limpopo, Pafuri KNP (23°27´S, 31°19´E)

Pigmy mouse Mus minutoides 2 Free State, Welbedacht Dam (29°51´S, 26°53´E)

Black rat Rattus rattus 1 Free State, Sandveld NR (27°38´S 25°42´E)
1 Mpumalanga, Skukuza (24°58´S, 31°36´E) (KNP)

Four-striped grass Rhabdomys pumilio 7 Free State, Tussen-die-Riviere NR (30°29´S, 26°15´E)
mouse 5 Free State, Platberg (28°16´S, 29°10´E)

4 Free State, Welbedacht Dam (29°51´S, 26°53´E)
7 Free State, Zandbult (locality unknown)
9 Free State, Wolhuterskop (28°14´S, 28°18´E)
4 Free State, Golden Gate NP (28°31´S, 28°37´E)

Angoni swamp rat Otomys angoniensis 1 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)

Swamp rat Otomys irroratus 1 Free State, Golden Gate NP (28°31´S, 28°37´E)

Spring hare Pedetes capensis 14 Free State, Sandveld NR (29°51´S, 26°53´E)

Cape hare Lepus capensis 1 Free State, Tussen-die-Riviere NR (30°29´S, 26°15´E)
2 Free State, Willem Pretorius NR (28°19´S, 27°15´E)

Scrub hare Lepus saxatilis 1 Free State, Tussen-die-Riviere NR (30°29´S, 26°15´E)
2 Free State, Willem Pretorius NR (28°19´S, 27°15´E)
1 Mpumalanga, Mthethomusha NR (25°29´S, 31°17´E)

KNP= Kruger National Park
NP = National Park
NR = Nature Reserve



258

Small mammals as hosts of immature ixodid ticks

TABLE 2 Ticks, other than Rhipicephalus species, on small mammals in Free State Province

No. examined Number of ticks recovered
Tick and host species

(No. infested) Larvae Nymphs Total

Amblyomma marmoreum
Lepus saxatilis 3 (1) 4 17 21

Haemaphysalis leachi
Aethomys namaquensis 97 (38) 63 35 98
Rhabdomys pumilio 36 (9) 72 5 77

Hyalomma marginatum
Rhabdomys pumilio 36 (1) 1 0 1
Lepus capensis 3 (1) 12 6 18
Lepus saxatilis 3 (2) 4 9 13

Hyalomma truncatum
Aethomys namaquensis 97 (2) 2 0 2
Rhabdomys pumilio 36 (1) 1 0 1
Tatera leucogaster 5 (1) 4 0 4
Lepus capensis 3 (2) 4 7 11
Lepus saxatilis 3 (2) 33 39 72

Ixodes rubicundus
Aethomys namaquensis 97 (6) 16 2 18
Lepus saxatilis 3 (1) 0 1 1

Ixodes sp.
Aethomys namaquensis 97 (8) 2 7 9
Rhabdomys pumilio 36 (2) 1 1 2

Margaropus winthemi
Rhabdomys pumilio 36 (1) 1 0 1
Lepus saxatilis 3 (1) 4 1 5

TABLE 3 Rhipicephalus species on small mammals in Free State Province

No. examined Number of ticks recovered
Tick and host species

(No. infested) Larvae Nymphs Total

Rhipicephalus evertsi evertsi
Aethomys namaquensis 97 (2) 2 0 2
Tatera leucogaster 5 (1) 1 0 1
Lepus capensis 3 (2) 6 17 23
Lepus saxatilis 3 (2) 31 61 92

Rhipicephalus gertrudae
Aethomys namaquensis 97 (29) 99 48 147
Rhabdomys pumilio 36 (11) 50 6 56

Rhipicephalus lounsburyi
Rhabdomys pumilio 36 (1) 1 1 2

Rhipicephalus warburtoni
Aethomys namaquensis 97 (11) 39 0 39
Pedetes capensis 14 (14) 0 34 34
Lepus capensis 3 (1) 6 0 6 + 3 %%
Lepus saxatilis 3 (3) 22 1 23 + 7 %%

Rhipicephalus sp.
Aethomys namaquensis 97 (2) 1 1 2
Rhabdomys pumilio 36 (1) 1 0 1
Tatera leucogaster 5 (3) 2 12 14



TABLE 4 Ticks, other than Rhipicephalus species, on small mammals in north-eastern Mpumalanga and Limpopo Provinces

No. examined Number of ticks recovered
Tick and host species

(No. infested) Larvae Nymphs Total

Amblyomma hebraeum
Mastomys natalensis 9 (1) 1 0 1

Dermacentor rhinocerinus
Aethomys chrysophilus 19 (1) 1 0 1
Mastomys natalensis 9 (1) 0 1 1
Tatera leucogaster 5 (3) 3 2 5

Haemaphysalis leachi
Aethomys chrysophilus 19 (11) 17 29 46
Aethomys namaquensis 10 (6) 17 7 24
Mastomys natalensis 9 (2) 0 8 8
Mastomys coucha 10 (2) 3 1 4
Saccostomys campestris 3 (3) 1 4 5
Paraxerus cepapi 2 (1) 2 0 2

Hyalomma truncatum
Lepus saxatilis 1 (1) 0 14 14

Rhipicephalus (Boophilus) decoloratus
Aethomys chrysophilus 19 (1) 1 0 1

Hyalomma species

The immature stages of H. marginatum rufipes and
H. marginatum turanicum infest Cape hares, scrub
hares and ground frequenting birds, and those of H.
truncatum hares, gerbils and murid rodents (Rechav,

Zeederberg & Zeller 1987; Horak & Fourie 1991;
Horak et al. 1991; Braack et al. 1996). The distribu-
tions of H. marginatum rufipes and H. marginatum
turanicum overlap in the southern Free State (Howell
et al. 1978), and as we are unable to differentiate
between their immature stages we have assigned

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I.G. HORAK, L.J. FOURIE & L.E.O. BRAACK

TABLE 5 Rhipicephalus species on small mammals in north-eastern Mpumalanga and Limpopo Provinces

No. examined Number of ticks recovered
Tick and host species

(No. infested) Larvae Nymphs Total

Rhipicephalus appendiculatus
Mastomys natalensis 9 (1) 1 0 1
Lepus saxatilis 1 (1) 0 6 6

Rhipicephalus evertsi evertsi
Lepus saxatilis 1 (1) 0 5 5

Rhipicephalus simus
Aethomys chrysophilus 19 (15) 106 48 154
Aethomys namaquensis 10 (10) 112 15 127
Mastomys natalensis 9 (5) 101 9 110
Mastomys coucha 10 (1) 1 0 1
Otomys angoniensis 1 (1) 11 10 21
Lemniscomys rosalia 1 (1) 9 3 12
Saccostomys campestris 3 (1) 1 0 1
Rattus rattus 1 (1) 1 0 1
Tatera leucogaster 5 (2) 2 1 3
Paraxerus cepapi 2 (2) 11 1 12

Rhipicephalus zambeziensis
Paraxerus cepapi 2 (2) 11 18 29



only the specific epithet marginatum to the ticks col-
lected from hares and a four-striped grass mouse
examined in this region. Both hare species were
infested with the larvae and nymphs of H. truncatum
and three rodent species with only the larvae of this
tick. The immature stages of the three Hyalomma
ticks are present on their preferred hosts from early
autumn to early summer (Horak et al. 1991; 1993;
Horak & Fourie 1991), and their presence in any
study would thus be influenced by the season in
which host animals are examined.

Rhipicephalus evertsi evertsi

The small number of rodents infested, and then only
with larvae of this two-host tick, indicates that in
contrast to hares, on which both larvae and nymphs
were present, they are not good hosts. Although a
large variety of domestic and wild ruminants are
infested with R. evertsi evertsi, the preferred hosts
of all stages of development are domestic and wild
equids (Walker et al. 2000).

Rhipicephalus gertrudae

This tick replaces R. simus in the winter rainfall
regions of south-western Western Cape Province
and in the more arid regions of this province and
Northern Cape Province as well as in the central
and western regions of Free State Province (Walker
et al. 2000). Its adult and immature stages have
much the same host preference as R. simus, but in
addition, the adults seem to favour primates, includ-
ing humans (Brain & Bohrmann 1992; Walker et al.
2000; Horak, Fourie, Heyne, Walker & Needham
2002). The recovery of its larvae and nymphs only
from A. namaquensis and R. pumilio and not from
other small mammals within its distribution range
does not necessarily reflect a host preference for
these species, but may be influenced by the locali-
ties and seasons in which the mice were examined.

Rhipicephalus lounsburyi

The higher mountainous regions of the Eastern
Cape Province are one of the preferred habitats of
this tick (Walker et al. 2000). It has not previously
been recorded in Free State Province, but Platberg,
the locality at which it was collected from a four-
striped grass mouse, forms part of the same moun-
tain range in which it has been collected in the
Eastern Cape Province. The adults attach around
the feet of their antelope and sheep hosts, while the
only known host of its immature stages is a four-
striped grass mouse, from which a single nymph
was collected (Walker et al. 2000).

Rhipicephalus simus

Of all species collected in the two northern prov-
inces, the immature stages of R. simus has the
largest host range, and judging by the numbers of
larvae and the fact that nymphs also were recov-
ered, most of the small mammal species examined
could be considered as suitable hosts. Although cat-
tle are frequently infested, the adults are parasites
of the larger carnivore species, including domestic
dogs, and of large monogastric animals such as
zebras, rhinoceroses and warthogs (Horak et al.
2000; Walker et al. 2000).

Rhipicephalus warburtoni

The distribution of R. warburtoni is virtually confined
to Free State Province (Walker et al. 2000). All
stages of development prefer hares as hosts, while
the adults are found on domestic and wild ruminants
and the immature stages on rock elephant shrews
(Walker et al. 2000). Its presence on all the spring
hares, Pedetes capensis, and on some of the Nam-
aqua rock mice examined indicates that these ani-
mals may also be suitable hosts. The adults, that at
the time were identified as belonging to a species
similar to Rhipicephalus pravus, produce a toxin
causing paralysis in goat kids in the spring and
early summer (Fourie, Horak & Marais 1988).

Other species

With the possible exception of those on scrub hares,
we consider the remaining species to be accidental
parasites or “stragglers” on the small mammals. The
immature stages of Amblyomma hebraeum and Am-
blyomma marmoreum parasitize scrub hares and
small carnivores (Horak et al. 1995; Horak et al.
2000), but are hardly ever found on rodents (Howell
et al. 1989; Horak et al. 1991; Braack et al. 1996;
Petney et al. 2004). The immature stages of I. rubi-
cundus prefer rock elephant shrews and Smith’s red
rock rabbits, Pronolagus rupestris (Stampa 1959;
Fourie et al. 1992), and the one-host ticks, Marga-
ropus winthemi and Rhipicephalus (Boophilus) de-
coloratus, are parasites of large herbivores (Howell
et al. 1978).

ACKNOWLEDGEMENTS

We are most grateful to the farmers, landowners and
nature reserve managers for permission to collect
small mammals on the properties under their juris-
diction. The assistance of Mr E.J. Williams, Ms M.
Cohen and Mr J. Sithole with the collection of ticks
from many of the animals is greatly appreciated.

260

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