Infection status of dragonflies with Plagiorchis muris metacercariae in Korea

Article information

Korean J Parasitol. 1999;37(2):65-70
Publication date (electronic) : 1999 June 30
doi : https://doi.org/10.3347/kjp.1999.37.2.65
1Department of Parasitology, Chung-Ang University Faculty of Medicine, Seoul 156-756, Korea.
2Department of Parasitology, College of Veterinary Medicine, Cheju National University, Cheju 690-756, Korea.
3Department of Parasitology, College of Medicine, Hallym University, Chunchon, Kangwon-do 200-702, Korea.
Corresponding author (hongsj@cau.ac.kr)
Received 1998 November 20; Accepted 1999 May 18.

Abstract

Plagiorchis muris has been found in both house and field rats as well as in humans. The infection status of the second intermediate hosts of P. muris is prerequisite in understanding their biological features in an ecosystem. Six species of dragonflies were caught in a wide range of areas in Korea; and they were Sympetrum darwinianum, S. eroticum, S. pedomontanum, S. infuscatum, Pantala flavoscens, Calopteryx atrata, and Orthetrum albistylum speciosum. The occurrence of P. muris metacercariae in dragonflies was nationwide with various infection rates. The metacercarial burden of P. muris in the surveyed areas was the highest in S. eroticum followed by S. darwinianum, S. pedomontanum, and C. atrata. The highest infection rate by P. muris metacercariae was found in S. darwinianum followed by S. eroticum. The metacercarial burden was particularly heavy in the dragonflies found in Hamyang-gun and Kosong-gun, Kyongsangnam-do. It is, therefore, likely that dragonflies play a significant role as the second intermediate host in the life cycle of P. muris in Korea.

INTRODUCTION

Flukes of the genus Plagiorchis have been found in the small intestine of mammals, including humans, birds, reptiles, amphibians, and fish (Radomyos et al., 1989). The second intermediate hosts of the flukes are aquatic insects, such as mosquito larvae, insect naiads, freshwater snails, and freshwater fishes (Tanabe, 1922; Asada et al., 1962; Komiya, 1965; Hong et al., 1996).

In Korea, of the genus Plagiorchis, P. koreanus, P. orientalis, P. corpulentus, P. magnacotylus, P. vespertilionis, P. rhinolophi, and P. kyushuensis were reported from bats (Park, 1939a, 1939b; Sogandares-Bernal, 1956; Kifune et al., 1983). Plagiorchis muris was collected from wild or house rats captured in Yongin-gun and Pochon-gun, Kyonggi-do, and in Chorwon-gun and Yangyang-gun, Kangwon-do, and from house rats in Hadong-gun, Kyongsangnam-do, and in Seoul (Seo et al., 1964, 1981; Lee et al., 1990). Moreover, human infection by P. muris was reported in Hamyang-gun, Kyongsangnam-do (Hong et al., 1996). From these reports, the distribution of P. muris is considered to be nationwide in Korea. The second intermediate hosts, such as dragonflies and freshwater fishes were found to be infected by the metacercariae of P. muris (Hong et al., 1998). In albino rats, the metacercaria of P. muris grew rapidly to an ovigerous adult on day 4 post-infection (Hong et al., 1998).

The dragonfly is one of the most predominant insects found in Korea during summer. Dragonflies, naiads, and chironomids, all with the metacercariae of P. muris, are easy targets of prey for fish, birds, and other mammals (Tanabe, 1922; Komiya, 1965). In this context, it is likely that dragonflies play a role in the life cycle of P. muris in Korea. There have not been any studies regarding the second intermediate host of the genus Plagiorchis. This survey was, therefore, conducted to elucidate the infection status of the dragonflies with P. muris metacercariae in Korea.

MATERIALS AND METHODS

Dragonflies were caught near ricepaddies, canals, streams, and/or villages in 20 local areas in Korea from May 1993 to August 1994 (Table 1). Captured dragonflies were identified according to Shin's method (1993) and examined individually or as a whole for the metacercariae of P. muris by artificial digestion method. As a way of estimating the metacercarial burden in the dragonflies in a given area, dragonflies of the same species were digested as a whole. On the other hand, in order to get an information on the infection rates of the dragonflies with P. muris metacercariae, a dominant species was subjected to the individual examination. The dragonflies were digested for 1 hr in artificial digestion juice (pepsin 5-6 g (Sigma, St. Louis, USA), 10 ml HCl in 1 L H2O) at 37℃. The digest was washed and sedimented in physiological saline several times to clarity. The metacercariae of P. muris were collected from the sediment of digest under the dissecting microscope and identified under the light microscope (Hong et al., 1998). The data of individual examination was not included to those of the whole examination. The metacercariae collected were grouped into 50 to 100 in number and fed to albino rats with a gastric needle. The flukes were recovered from the small intestine of albino rats up to 28 days after the metacercarial infection. All of the flukes recovered were stained with Semichon's acetocarmine and identified microscopically to P. muris (Hong et al., 1998).

Table 1

Infection status of Plagiorchis muris metacercariae in dragonflies captured from 20 areas in Korea

RESULTS

The metacercaria

The metacercaria of P. muris, 0.169 (0.165-0.174) mm by 0.158 (0.148-0.170) mm, was elliptical to spherical in shape with a hyaline thin wall (Fig. 1). The oral sucker was subterminal and armed with a short flame-shape stylet. The acetabulum was round, smaller than the oral sucker and was located in the middle of the body. The excretory bladder was Y-shape and filled with refractile granules. No primordium of genital organs was found in the metacercaria.

Fig. 1

A Plagiorchis muris metacercaria collected from a dragonfly, Sympetrum darwinianum. A stylet (arrowhead) is in the oral sucker which is larger than the acetabulum (Ab). Bar=50 µm.

Infection status of the dragonflies

A total of 4,172 dragonflies was caught from 20 different areas through this survey. The species of captured dragonflies consisted of Sympetrum darwinianum, S. eroticum, S. pedomontanum, S. infuscatum, Pantala flavoscens, Calopteryx atrata, and Orthetrum albistylum speciosum. Of the species, S. darwinianum caught from 18 local areas was the most predominating species followed by S. eroticum, S. pedomontanum, and P. flavoscens in descending order (Table 1).

When estimated as a whole, the burden of the dragonflies with P. muris metacercariae was the highest in S. eroticum by 0.8 per head followed by C. atrata, S. darwinianum, S. pedomontanum, and S. infuscatum. Geographically, the metacercarial burden in the dragonflies was very heavy in two areas, Hamyang-gun and Kosong-gun, Kyongsangnam-do; moderate in seven areas, Yongin-gun, Taebaek-shi, Inje-gun, Muju-gun, Yonggwang-gun, Koryong-gun and Mun-gyong-gun; and very low in the rest of the surveyed areas (Table 1).

The infection rate with the metacercaria was 44.0% and the mean metacercarial burden was 3.2 for 90 individually examined S. darwinianum. The highest value of the metacercarial infection rate was found from those collected in Hamyang-up, Hamyang-gun, Kyongsangnam-do (Table 2). The metacercaria, however, was not found in S. darwinianum caught from six areas.

Table 2

Infection rates of dragonflies with Plagiorchis muris metacercariae by individual examination

Sympetrum eroticum, the second frequent species, was caught from 13 areas and was the dominant species in four areas. Through the individual examination, the highest infection rate was found in S. eroticum from Yongo-myon, Kosong-gun, but the the heaviest metacercarial burden was detected from Yongin-up, Yongin-gun (Table 2). On the other hand, through the whole examination, the metacercarial burden of the species was the heaviest from Yongo-myon, Kosong-gun (Table 1). The metacercaria was not detected from S. eroticum caught from four areas.

Sympetrum pedomontanum and S. infuscatum were caught from six areas, and their metacercarial burden was 0.3 each. Sympetrum pedomontanum was more abund-ant in numbers than S. infuscatum in the surveyed areas. The metacercaria of P. muris was found only from 2 out of 235 P. flavoscens dragonflies caught from six areas (Table 1).

Calopteryx atrata were caught along the canals and/or streams in three areas. The infection rate of C. atrata was 30.0%. The mean metacercarial burden was 1.5 for C. atrata captured from Yongo-myon, Kosong-gun (Table 2). The dragonfly, O. albistylum speciosum, was very rare and was captured from only three areas. The metacercaria was not detected in this dragonfly (Table 1).

DISCUSSION

The dragonflies, Sympetrum spp., were caught at ricepaddies where they emerge from pupae and mature into adults. It was easy to catch dragonflies in the early morning or on rainy days. Calopteryx atrata were abundant along canals and streams, and it seemed that they preferred such places. Pantala flavoscens were caught from a swarm of dragonflies flying in the air (Shin, 1993).

The size and shape of the cyst and the features of somatic organs of the metacercaria agreed well with the characters of P. muris metacercaria (Komiya, 1965; Hong et al., 1998).

The adult P. muris was collected from field rats captured from Chorwon-gun and Pochon-gun (Seo et al., 1964), and from house rats found in Yongin-gun and Hadong-gun (Seo et al., 1981). The metacercarial burden in the dragonflies in these areas appeared not to be closely related to the occurrence of the adult flukes in the rat, even though there was a big difference between the two surveys. In Yongin-gun, it was suggested that the occurrence of adult P. muris in house rats could be related to the metacercariae in dragonflies, because field rats could feed on dead dragonflies.

Seven species of Plagiorchis have been recorded from Korean bats (Park, 1939a, 1939b; Sogandares-Bernal, 1956; Kifune et al., 1983). Bats are nocturnal animals with a precision ultrasonar system. It is likely that bats feed on the insects such as dragonflies, mosquitos, and chironomids which are known to be the second intermediate host of P. muris (Tanabe, 1922; Komiya, 1965).

The aquatic insect larvae have been suggested to be a source of human infection of P. muris in Japan (Asada et al., 1962). The surface water of springs, wells, ponds, streams and rivers contain a wide variety of aquatic insects and/or insect larvae which might be infected with P. muris metacercariae as shown in the present survey. By drinking the surface water without a proper treatment, human could be infected by P. muris in Korea as was in Japan. In this respect, it is likely that the larvae, unlikely the adults, of dragonflies are a possible source of human plagiorchiasis.

As far as the metacercarial burden in the dragonflies is considered, the insectivorous diurnal birds can be treated as the final hosts of P. muris in Korea. To broaden our knowledge on P. muris, further researches must be done on the metacercarial infection rate in mosquitos and chironomids. Furthermore, adult flukes found in the birds deserve further investigation.

References

1. Asada JI, Otagaki H, Morita M, Takeuchi T, Sakai Y, Konishi T, Okahashi K. A case report on the human infection with Plagiorchis muris Tanabe, 1922 in Japan. Jpn J Parasitol 1962;11:512–516.
2. Hong SJ, Ahn JH, Woo HC. Plagiorchis muris: Recovery, growth and development in albino rats. J Helminthol 1998;72:251–256. 9765378.
3. Hong SJ, Woo HC, Chai JY. A human case of Plagiorchis muris (Tanabe, 1922: Digenea) in the Republic of Korea: Freshwater fish as a possible source of infection. J Parasitol 1996;82:647–649. 8691378.
4. Kifune T, Sawada I, Lee WC. Trematode parasites of two Korean bats. Med Bull Fukuoka Univ 1983;10:3–8.
5. Komiya Y. Metecercariae in Japan and adjacent territories. Progress of Medical Parasitology in Japan 1965. Vol. IITokyo, Japan: Meguro Parasitological Museum. p. 225–233.
6. Lee SH, Sohn WM, Chai JY. Echinostoma revolutum and Echinoparyphium recuvatum recovered from house rats in Yangyang-gun, Kangwon-do. Korean J Parasitol 1990;28:235–240.
7. Park JT. Trematodes of mammals and aves. II. Two new trematodes of Plagiorchidae: Plagiorchoides rhinolophi n. sp. and Plagiorchis orientalis n. sp. from Korea. Keijo J Med 1939a;10:1–6.
8. Park JT. Trematodes of mammals and aves from Korea. III. A new trematode of the family Plagiorchidae Ward, 1917, Plagiorchis magnacotylus n. sp. Keijo J Med 1939b;10:43–45.
9. Radomyos P, Bunnag D, Harinasuta T. A new intestinal fluke, Plagiorchis harinasutai n. sp. Southeast Asian J Trop Med Public Health 1989;20:101–107. 2772695.
10. Seo BS, Cho SY, Hong ST, Hong SJ, Lee SH. Studies on parasitic helminths of Korea. V. Survey on intestinal trematodes of house rats. Korean J Parasitol 1981;19:131–136.
11. Seo BS, Rim HJ, Lee CW. Studies on parasitic helminths of Korea. I. Trematodes of rodents. Korean J Parasitol 1964;2:20–26.
12. Shin YH. Coloured insects of Korea 1993. Seoul, Korea: Academy Publishing Co.. p. 12–36.
13. Sogandares-Bernal F. Four trematodes from Korean bats with descriptions of three new species. J Parasitol 1956;42:200–206. 13320262.
14. Tanabe H. A contribution to the study of the life cycle of digenetic trematodes. A study of a new species Lepoderma muris n. sp. Okayama Igakkai Zasshi 1922;385:47–58.

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Fig. 1

A Plagiorchis muris metacercaria collected from a dragonfly, Sympetrum darwinianum. A stylet (arrowhead) is in the oral sucker which is larger than the acetabulum (Ab). Bar=50 µm.

Table 1

Infection status of Plagiorchis muris metacercariae in dragonflies captured from 20 areas in Korea

Table 1

a)Dragonflies caught in a designated area were examined as a whole rather than by individual by the artificial digestion method. b)For full names, see the text of Results.

Table 2

Infection rates of dragonflies with Plagiorchis muris metacercariae by individual examination

Table 2

a)For full names, see the text of Results.