INTRODUCTION
Studies on rodent parasites of medical and veterinary importance have been performed to prevent transmission of diseases to humans and domestic animals. A variety of rodent species were investigated in various regions of the world [
1,
2,
3]. The striped field mouse,
Apodemus agrarius, is the most dominant species and the agricultural scourge in the Republic of Korea (=Korea). This mouse species is widely distributed in rural areas, agricultural fields, and forest in small mountains. It causes a great deal of economic loss in agricultural products and also acts as the natural transmitter for zoonotic parasites as well as pathogens like tularemia, leptospirosis, and hemorrhagic fever [
4].
Rodent parasites have been investigated by many workers in Korea. In the 1930's,
Cysticercus fasciolaris,
Capillaria hepatica,
Hymenolepis diminuta,
Hymenolepis nana, and
Echinostoma hortense were reported [
5,
6,
7]. Subsequently, a variety of helminth species were detected and described from various species of rodents in the 1960's [
8,
9,
10]. Later, Seo et al. [
11] found 6 trematode species in 170 house rats collected from 13 localities in Korea. In the 1990's, several species of helminths were also detected in rodent hosts from some localities including Gangwon-do through 3 additional surveys [
12,
13,
14].
Recently, Chai et al. [
15,
16] reported the infection status of
Plagiorchis muris and echinostomes in the striped field mice from the northern Gyeonggi-do near the demilitarized zone (DMZ). It was also reported that the striped field mouse is a new definitive host for
Neodiplostomum seoulense [
17]. Lee et al. [
18] surveyed 56 wild rodents from northern Gangwon-do to examine the infection status of intestinal helminths. Most of these surveys on rodent parasites were done in the northern regions of Korea, and little data are available on the helminth diversity among rodents in southern regions of Korea. Therefore, the present study was performed to provide preliminary data on the intestinal helminth fauna in striped field mice inhabiting 2 southern regions, Hapcheon-gun, Gyeongsangnam-do and Gurye-gun, Jeollanam-do, Korea.
MATERIALS AND METHODS
From July 2005 to June 2006, we collected the striped field mice, A. agrarius, once every month in the 2 southern regions, Hapcheon-gun and Gurye-gun. Sherman's rodent live traps were set at 11 outdoor places in the 2 southern regions afternoon and were collected at the early morning of the next day. The collected mice were anesthetized and killed after taking samples for preventive studies of febrile diseases in 2 laboratories of Gyeongsangnam-do and Jeollanam-do Institutes of Health and Environment, in Changwon-si and Gwangju-si, respectively, Korea. Intestines of each mouse were extracted from the abdominal cavity after dissection, preserved in a specimen bottle with 0.85% saline, and then transported to the laboratory in the Department of Parasitology and Tropical Medicine, Gyeongsang National University School of Medicine, Jinju, Korea.
The small intestine of each mouse was longitudinally opened with a pair of scissors. The intestinal contents were washed with 0.85% saline until the supernatant became clear. The helminthic worms were collected with naked eyes or under a stereomicroscope from the sediment of the intestinal content. After applying specific clearing and staining techniques, the collected helminths were identified using appropriate systematic keys, and each of them was counted to get hold of the infection rates and densities per mouse.
DISCUSSION
In the present study, more than 11 species of helminths were recovered from 236 striped field mice examined. Among these, heligmosomid nematodes were most prevalent. Total 230 (97.5%) mice were infected with 77.6 heligmosomids in average. The prevalence rates were more or less similar in mice from 2 regions, but worm burdens were higher in mice from Hapcheon-gun, Gyeongsangnam-do. Unfortunately, we could not taxonomically define their generic and species names. On the other hand, Seo et al. [
10] detected
Heligmosomum sp. in the intestines of 7 wild rodent species and
Heligmosomoides sp. in 3 specie from 4 northern regions, Cheolwon, Geumwha, Pocheon, and Paju, in Gangwon-do and Gyeonggi-do respectively [
10]. They also described brief morphological characteristics of 2 heligmosomids,
Heligmosomum sp. and
Heligmosomoides sp., for the first time in Korea [
10].
Seo et al. [
10] recorded 7 rodent species, i.e.,
A. agrarius,
Rattus norvegicus,
Rattus alexandrinus,
Mus musculus yamashinai,
Crocidura russula,
Microtus fortis, and
Cricetulus triton nester, as the hosts of
Heligmosomum sp. and they also listed 3 species, i.e.,
A. agrarius,
R. norvegicus and
M. fortis, as the hosts of
Heligmosomoides sp. in Korea. Out of 300 rodents in 7 species examined, the striped field mouse,
A. agrarius, was the dominant species (73.0%) and revealed 14.6% and 13.2% prevalence rates of
Heligmosomum sp. and
Heligmosomoides sp., respectively. The prevalence rate (97.5%) of heligmosomids in this study was much higher than that of Seo et al. [
10]. The difference of infection rates with these nematodes may be closely related to the inhabitation environment of rodent hosts. Survey areas in this study were 2 southern regions, Hapcheon-gun and Gurye-gun, whereas those in Seo et al. [
10] were 5 northern regions, Cheolwon, Geumwha, Cheongpyeong, Pocheon, and Paju in Gangwon-do and Gyeonggi-do.
Seo et al. [
10] found 8 species of nematodes, i.e.,
Nippostrongylus muris
Syphacia obvelata,
Heterakis spumosa,
Protospirura muris,
Heligmosomum sp.,
Heligmosomoides sp.,
Rictularia sp., and
Gongylonema sp., in 219
A. agrarius from 5 northern regions of Korea [
10]. Yong et al. [
13] detected 3 species of nematodes, i.e.,
N. muris,
S. obvelata, and
Gongylonema sp., in 85
A. agrarius from Goyang-gun, Gyeonggi-do and Iri-si and Iksan-gun, Jeollabuk-do [
13]. In aforementioned 2 studies,
N. muris was the dominant species. However, in the present study, more than 4 nematode species, i.e., heligmosomids,
S. obvelata, ascarids, and hookworms, were detected from 236
A. agrarius, and heligmosomids was the dominant one. Collectively, it is confirmed that various species of nematodes are inhabited in the gastrointestinal tract of striped field mice in Korea, and their infection rates and worm burdens are much higher than those of trematodes and cestodes.
As the trematodes inhabit in rodents, about 10 species, i.e.,
E. hortense,
E. cinetorchis,
Echinostoma revolutum,
Echinoparyphium recurvatum,
Echinochasmus japonicus,
Euparyphium murinum,
P. muris,
N. seoulense,
Clonorchis sinensis, and
Metagonimus yokogawai, were reported in Korea [
7,
8,
9,
11,
12,
13,
15,
16,
17,
18]. Since
E. hortense was reported for the first time in 1938 [
7],
E. cinetorchis,
E. murinum,
P. muris, and
N. seoulense were added in the list of rodent trematodes by Seo et al. [
8,
9]. Seo et al. [
11] detected 6 trematode species, i.e.,
E. hortense,
E. cinetorchis,
P. muris,
N. seoulense,
C. sinensis, and
M. yokogawai, from 170 house rats. Lee et al. [
12] also found 6 trematode species, i.e.,
E. hortense,
E. cinetorchis,
E. revolutum,
E. recurvatum,
P. muris, and
N. seoulense in 2 house rats from Yangyang-gun, Gangwon-do [
12]. Yong et al. [
13] detected only 1 specimen of
E. japonicus from a striped field mouse [
13]. Recently, Chai et al. [
15,
16,
17] reported the infection status of
P. muris,
N. seoulense, and echinostomes in 1,366 striped field mice from northern Gyeonggi-do near the demilitarized zone. When we analyzed the infection status of rodent trematodes reported previously, 4 species, i.e.,
E. hortense,
E. cinetorchis,
P. muris, and
N. seoulense, are known to be widely distributed in Korea. However,
Brachylaima sp. had not been reported in Korea before this study. Therefore, we will try to record this as a new trematode fauna of Korea in the near future.
Total 5 species of rodent tapeworms, i.e.,
C. fasciolaris,
H. diminuta,
H. nana,
Raillietina coreensis, and
Paranoplocephala sp., have been reported in Korea [
5,
6,
10,
13,
14]. Since
C. fasciolaris was reported for the first time as the rodent tapeworm by Nakamura and Kobayashi in Korea [
5],
H. diminuta and H. nana were listed by Ogura [
6], and
R. coreensis and
Paranoplocephala sp., were added by Seo et al. [
10]. Among 5 tapeworm species,
C. fasciolaris was most frequently found from the rodent hosts [
5,
9,
10,
13,
14]. However, this larval tapeworm was not detected in the present study, because we examined only the small intestines. If we examined the liver of mice as well,
C. fasciolaris may have been recovered together with
H. diminuta and
H. nana in the present study.
Trematodes and cestodes inhabited in the rodent hosts can be, unlike nematodes, zoonotic pathogens. Especially,
E. hortense,
P. muris,
N. seoulense,
H. diminuta, and
H. nana, widely prevalent among wild rodents in Korea, are commonly infected in humans also, and they are able to act as the reservoir host for human infections. However, among the nematodes,
Capillaria hepatica is potentially a zoonotic pathogen to humans. Seo et al. [
9] detected this nematode from 286 (88.0%) house rats, and a human (child) case by this zoonotic nematode infection was already reported in Korea [
19]. Accordingly, we should pay attention to wild rodents acting as the reservoir host of trematode and cestode infections as well as hepatic capillariasis.
Conclusively, the fauna and infection status of helminths in the striped field mouse, A. agrarius, from 2 southern regions of Korea were partly revealed by the present study. The most prevalent (dominant) species, heligmosomoid nematodes, should be clarified in generic and species levels, and Brachylaima sp., newly added in the list of intestinal fluke, should also be named in the near future.