First Report of Clavinema mariae (Nematoda: Philometridae) in Cultured Rockfish, Sebastes schlegeli, in Cheonsuman (Bay), the Republic of Korea

Article information

Korean J Parasitol. 2017;55(2):219-224
Publication date (electronic) : 2017 April 30
doi : https://doi.org/10.3347/kjp.2017.55.2.219
1Pathology Division, National Fisheries Research and Development Institute, Busan 46083, Korea
2Department of Aquatic Life Medical Sciences, Sunmoon University, Asan 31460, Korea
*Corresponding author (srkwon@sunmoon.ac.kr)
Received 2016 August 26; Revised 2017 February 7; Accepted 2017 February 26.

Abstract

In July 2012, philometrid nematodes were discovered in cultured rockfish (Sebastes schlegeli) in Cheonsuman (Bay), the Republic of Korea. The nematodes were detected in the epithelial tissues of the rockfish and were identified as Clavinema mariae based on morphological studies using light and scanning electron microscopy. They revealed the characteristics same as previously identified C. mariae, notably having a long body with narrow posterior half, no caudal projection, a cylindrical-shaped esophagus, a well-developed anterior bulbous part of the esophagus, cephalic papillae, and a dorsal esophageal gland. This is the first confirmation of C. mariae infection in rockfish in Korea.

Sebastes schlegeli, commonly known as the rockfish, is an important aquaculture species in the Republic of Korea (=Korea). Commercial production of rockfish increased in the late 1990s and reached a maximum of 35,564 tons in 2007 [1]. Presently, the rockfish and olive flounder (Paralichthys olivaceus) are the predominant aquaculture fish species in Korea. In July 2012, nematode parasites were found for the first time in the epithelial tissue of the rockfish from Cheonsuman (Bay), located on the Yellow Sea coast of Korea. Seo et al. [2] reported some nematode infections (species not determined) from rockfish in Cheonsuman throughout the year (examined monthly from May 2013 to April 2014, with the exception of October 2013). Those nematodes made skin wounds as they emerged from their rockfish hosts, which led to bacterial infections, including those caused by Photobacterium damselae, Vibrio spp., and Streptococcus iniae. In August 2013, accumulated mortalities of 1.4–22.4% were recorded in the infected rockfish.

Approximately 150 of the 166 nematode species belonging to the superfamily Dracunculoidea are known to parasitize approximately 300 fish species [3]. Philometrid nematodes (family Philometridae) are pathogenic parasites of commercially important wild or cultured fish hosts. Among these parasitic species, 26 have been detected in marine and freshwater fishes in Japan, most of which belonged to 3 genera, Clavinema Yamaguti, 1935, Philometra Costa, 1845, and Philometroides Yamaguti, 1935 [4]. However, at present, there have been no confirmed cases of these parasitic nematodes in cultured rockfish. To date, Huffinanela spp. [5] and Huffinanela canadensis [6] have been isolated from the skin of rockfish (Sebastes spp.) from the Pacific Ocean near the coast of Vancouver Island, British Columbia, Canada. In addition, anisakid nematode infections have been reported in the muscular and visceral organs of several species of the genus Sebastes [710].

The present study was performed to identify a philometrid nematode (identified as Clavinema mariae) discovered in the epithelial tissue of cultured rockfish in Cheonsuman, Korea using light and scanning electron microscopic observations. The results provided morphological information on this worm, which may be associated with rockfish mortalities in Cheonsuman Bay.

During the period April 2014 to June 2016, nematode worm samples were collected every other month from the epithelial tissues of cultured rockfish, S. schlegeli, in Cheonsuman, which is located on the Yellow Sea coast of Korea (126.42°N, 36.60°E). The fish were initially examined macroscopically to inspect for infection with female nematodes. Having detected infection, scalpels, dissection scissors, and forceps were then used to cut or tear host tissue away from the parasites so that they could be collected gently with forceps. The nematodes were fixed in 70% ethanol and then cleared with glycerin for light microscopic examinations. Specimens used for scanning electron microscopy were transferred to 2.5% glutaraldehyde solution and then post-fixed in 1% osmium tetroxide, dehydrated through a graded ethanol series, critical point dried, and sputter-coated with gold. The specimens were examined using a JEOL JSM-6400 scanning electron microscope (Tokyo, Japan) at an accelerating voltage of 20 kV. For histopathology, infected tissues were fixed in 10% buffered formalin and embedded in paraffin, sectioned at 5 μm, stained with hematoxylin and eosin, and examined by a light microscope.

Nematodes were mainly found in the operculum, pectoral fin, dorsal fin, and oral cavity of the fish. Worms isolated from the fish were red in color (Fig. 1). In a histopathologic specimen of pectoral fin connective tissues, we observed gravid nematode females containing numerous eggs within their uteri (Fig. 2).

Fig. 1

Body locations of rockfish, Sebastes schlegeli, infected with Clavinema mariae, showing the operculum (A), pectoral fin (B), oral cavity wall (C), and isolated nematodes (D).

Fig. 2

Histological findings of encapsulated C. mariae in the connective tissue of the pectoral fin of S. schlegeli (A) and its basal muscle (B). Numerous eggs are observed in the uterus of gravid females (hematoxylin and eosin stained).

A total of 30 specimens collected in June 2016 were used for observation and measurement (Table 1). The body of sub-gravid females was distinctly narrower in its posterior half. Body length ranged from 22.0 to 31.0 mm, and the maximum width ranged from 0.59 to 0.70 mm. The cephalic end was rounded, with an elevated esophageal bulb region. The mouth was slightly depressed, and small cephalic papillae were observed (Fig. 3D). The anterior end of the esophagus formed a conspicuous, strongly muscular bulb that was well separated from the cylindrical portion of the esophagus (Fig. 4A). Bulb length and width were 0.09–0.30 mm and 0.10–0.34 mm, respectively. The esophagus opened into the intestine via distinct valves. The length of the entire esophagus, including the anterior bulb, was 0.40–1.07 mm. A nerve ring encircled the anterior end of the cylindrical portion of the esophagus. The duct of the dorsal esophageal gland was also observed. The intestine was wide throughout its length and attached by a short translucent ligament to the ventral body wall near the posterior aspect of the body (Fig. 4C). The intestinal width was 0.26–0.50 mm. The uterus extended anteriorly to the midpoint of the esophagus and did not contain eggs or embryos. The posterior ovary was directed anteriorly. The posterior end of the body was rounded without any projections or papillae. Variations in morphometric data of C. mariae are shown in Table 1.

Morphometric data of Clavinema mariae (unit, mm)

Fig. 3

Scanning electron micrograph of C. mariae. Lateral view (A) and apical view (C) of the cephalic end of a female. Lateral view of the posterior end of a female (B) and oral aperture and cephalic papillae (arrow) (D). Scale bars: A, B, and C=50 μm; D=10 μm.

Fig. 4

Light microscopic observations of C. mariae, anterior part (A, B) and posterior part (C). The arrow indicates the esophageal gland. abo, anterior bulbous part of esophagus; i, intestine; nr, nerve ring; og, esophageal gland; pco, posterior cylindrical part of esophagus; po, posterior ovary; u, uterus. Scale bar=50 μm.

Differential keys used in the taxonomy of the family Philometridae are based on the structure of the esophagus, the number, arrangement, and character of the cephalic papillae in females, the structure of cuticular ornamentations on the body, and the shape of the tail [11]. Species of the genus Clavinema have a well-developed anterior esophageal bulb, which is distinctly separated from the cylindrical portion of the esophagus, and a very small esophageal gland at the mid-length of the cylindrical portion of the esophagus [12]. In this study, the female philometrid nematodes were morphologically identical to those previously isolated from the benthic fishes Rhinogobius pflaumi and Chaeturichys sciistius [13], the right-eyed flounder, Limanda yokohamae [14], and the prickly sculpin, Cottus asper, in Canada [12]. The parasite discovered in this study was identified as C. mariae based on a number of characters, including the body shape, absence of a caudal projection, presence of a cylindrical-shaped esophagus, and a well-developed anterior bulbous part of the esophagus. Although Moravec [3] described C. mariae as having 14 small cephalic papillae, not all of them were observed in the present specimens. To date, there have been no published scanning electron micrographs showing 14 cephalic papillae in C. mariae. Sokolov et al. [15], however, presented the putative papillae of C. mariae isolated from Pacific saffron cod. The specimens examined in the present study were smaller than those isolated from R. pflaumi, C. sciistius, and C. asper, which could be attributable to the fact that the sub-gravid females were taken from fish sampled in June. Unfortunately, it is difficult to obtain sufficient numbers of gravid females for identification because they emerge from their hosts from July to August.

C. mariae was first reported in 1930 by Layman as Philometra mariae, found on the fins of Protopsetta herzensteini and Limanda schrenki in Peter the Great Bay, Sea of Japan [16]. In 1970, Machida [14] characterized encapsulated nematodes isolated from the fin and operculum of a right-eyed flounder, Limanda yokohamae, as P. mariae. He insisted that the genus Clavinema is valid and that P. mariae should be transferred to the genus Clavinema. Margolis and Moravec [12] advocated that Clavinema should be accepted as a valid genus and thus C. mariae is conspecific with P. mariae Layman, 1930, Philometra americana Kuitunen-Ekbaum, 1933, and Philometra zebrini Yamaguti, 1961.

The life cycle of philometrids involves a copepod as an intermediate host [3]. The development of C. mariae was studied by Sakaguchi and Fukuhara [17], who reported that after the larvae are ingested by copepods, such as Tigriopus japonicus, they penetrate through the gut wall and into the hemocoel, where they develop into third-stage larvae. Previous studies have suggested that C. mariae infects mainly benthic fish with exception of the pelagic Pacific saffron cod [1216] (Table 1). In Korea, infection by C. mariae was detected only in Cheonsuman Bay, where the water depth is typically shallow (5 m or less). Areas for future study include examining the route of infection of C. mariae in Korea and determining how to control this parasite, while taking the local environment of Cheonsuman into account.

In conclusion, the nematode discovered in rockfish is morphologically similar to C. mariae in terms of the body shape, absence of a caudal projection, presence of a cylindrical-shaped esophagus, and a well-developed anterior bulbous part of the esophagus. In addition, this study presents scanning electron micrographs of the cephalic papillae and light microscope images of the esophageal gland. To the best of our knowledge, this study is the first to report the identification of C. mariae from cultured rockfish in Korea.

ACKNOWLEDGMENT

This work was supported by the National Institute of Fisheries Science (no. R2017064).

Notes

CONFLICT OF INTEREST

We have no conflict of interest related to this work.

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Fig. 1

Body locations of rockfish, Sebastes schlegeli, infected with Clavinema mariae, showing the operculum (A), pectoral fin (B), oral cavity wall (C), and isolated nematodes (D).

Fig. 2

Histological findings of encapsulated C. mariae in the connective tissue of the pectoral fin of S. schlegeli (A) and its basal muscle (B). Numerous eggs are observed in the uterus of gravid females (hematoxylin and eosin stained).

Fig. 3

Scanning electron micrograph of C. mariae. Lateral view (A) and apical view (C) of the cephalic end of a female. Lateral view of the posterior end of a female (B) and oral aperture and cephalic papillae (arrow) (D). Scale bars: A, B, and C=50 μm; D=10 μm.

Fig. 4

Light microscopic observations of C. mariae, anterior part (A, B) and posterior part (C). The arrow indicates the esophageal gland. abo, anterior bulbous part of esophagus; i, intestine; nr, nerve ring; og, esophageal gland; pco, posterior cylindrical part of esophagus; po, posterior ovary; u, uterus. Scale bar=50 μm.

Table 1

Morphometric data of Clavinema mariae (unit, mm)

Body length Body width Length of entire esophagus Length of bulb Width of bulb Length of cylindrical part of esophagus Hosts Distribution
Clavinema mariae (present material) 22–31 0.59–0.70 0.40–1.07 0.09–0.30 0.10–0.34 0.20–0.96 Sebastes schelgeli Cheonsuman of Korea
Clavenema mariae (Layman [16]) 16–32 0.73–0.81 0.95 0.22 0.24 0.73 Protopsetta herzensteini
Limanda schrenki
Peter the Great bay
Clavinema mariae (Yamaguchi et al. [13]) 4.9–18.3 0.9–1.4 - 0.34–0.44 0.26–0.39 0.76–1.21 Rhinogobius pflaumi
Chaeturichys sciistius
Hiroshima bay of Japan
Clavinema mariae (Machida [14]) 32–42 1.55–2.00 1.39–1.80 0.314–0.453 0.354–0.436 1.08–1.35 Limanda yokohamae Otsuchi bay of Japan
Clavinema mariae (Margolis & Moravec [12]) 24–48 0.74–1.96 0.96–1.44 0.202–0.326 0.235–0.398 0.74–1.18 Cottus asper Vancouver Island, B.C., Canada