Metazoan Parasites of Clariid Fishes, Lake Victoria: Reflection of the Original Fauna in the Lake? ()
1. Introduction
Lake Victoria is famous for its diverse fish fauna―the cichlids and non-cichlids abound [1] . The fish fauna of the lake includes some species introduced between the 1950s and early 1960s namely, the Nile tilapia, Oreochromis niloticus and Nile perch, Lates niloticus [2] . Following the boom in the Nile perch abundance, fishing activities in
Lake Victoria
became commercialised. Nowadays the
Nile
perch is exploited for the external market and this has stimulated the establishment of fish processing factories along the shores of the lake. Other indigenous fish species are exploited for local consumption.
Despite the great interest in commercial exploitation of the fish fauna in the lake, their parasites have received very little attention. Until recently, the works of [3] - [5] [6] - [8] were the only studies on the parasites of fish from Lake Victoria. As well, the majority of the studies are of taxonomical nature. Only a few dealt with parasites as a cause of mortality in wild fish [4] [5] . Studies have shown that when new fish species were introduced in the lake, no attempts were made to remove parasites from fish prior to introduction into the lake [3] . As such, since the original parasite fauna of fishes in the lake were not known prior to the introduction of the new fish species, the current status (indigenous or introduced) of the parasite fauna in
Lake Victoria
is not well known.
The objective of the present study was to document the parasite fauna of the fishes of the Lake Victoria basin. The clariid fishes are suited for this purpose because most species in this family are indigenous to the lake, and as such they are likely to express the original parasite fauna prior to the introduction of new fish species. The ecology of the clariids that allows them to inhabit diverse habitats, move across great distances, and their omnivorous feeding nature predispose them to a diverse parasite fauna, and further vindicating their suitability for the present study.
2. Materials and Methods
2.1. Study Area
Lake Victoria, the largest tropical lake in the world, is shared between Tanzania, Uganda and Kenya. The lake lies in shallow continental sag between the two arms of the
Great Rift Valley
, 1170 m above sea level. The lake has a maximum depth of 84 m, a volume of 2750 km3, and a surface area of 68,800 km2. Primary inflows to the basin include rivers such as the Kagera in the west and the Mara in the east. All outflows are to the north along the Nile through
Lake Kyoga
. The mean surface temperature is about 25˚C while the temperature of deeper layers is about 1 to 2 degrees lower [2] . The present study therefore, covered the surroundings of Bukoba town, the Mwanza Gulf, Speke Gulf, parts of Ukerewe Island and the delta of Mara River (Figure 1).
2.2. Collection and Examination of Fish for Parasites
Fish were collected from six localities in Lake Victoria (Figure 1); live fish intended for examination of ectoparasites were transported separately each in a plastic bag to the laboratory in TAFIRI Mwanza centre. Fish were examined immediately for parasites; live fish not examined were kept in an aquarium (TAFIRI Mwanza centre) for no longer than 72 hours before examination. Dead fish not examined the same day were frozen. Handling and general preparations of parasites for microscopy followed standard techniques as by [9] [10] and Shigini (1976) as quoted in [11] . The parasites encountered were identified using keys and descriptions from the literature such as [3] [12] - [20] .
3. Results
3.1. Clariid Hosts
Clariid fishes examined consisted of 319 females and 337 males and the distribution was such that C. gariepinus was found from all the localities surveyed, C. liocephalus from three localities namely Mara bay,
Mwanza
Gulf
and Kagera. Clarias werneri and C. alluaudi were obtained from the Mara bay and
Mwanza
Gulf
. In addition, two specimens of Clariallabes petricola were obtained from the
Mwanza
Gulf
, a specimen of Heterobranchus longifilis, from the
Malagarasi
River
and nineteen specimens of Bagrus docmac were obtained from the
Mwanza
Gulf
and Kagera. The majority of parasites recovered occurred in fish of between 120 mm to 200 mm standard length.
3.2. The Parasite Fauna
Thirty two parasite species were found from 656 fish examined. Table 1 shows the prevalence and mean number of parasites infecting the seven species of fish examined. Among the 32 parasite species, ten were considered core and predictable namely Paracamallanus cyathopharynx, Procamallanus laevionchus, Contracaecum larvae, Neogoezia sp., Diplostomum mashonense, Allocredium mazoensis, Eumasenia bangweulensis,
Figure 1. Map of Tanzania showing the sampling points.
Phylodistomum folium, Polyonchobothrium clarias and Monobothrioides woodlandi. The trematodes, Diplostomum mashonense and Tylodelphys species were recovered from the cranial cavity of C. gariepinus only. The crustaceans were recovered from the oral cavity of C. gariepinus, B. docmac and H. longifilis, Gyrodactylus sp. and Clinostomum sp. infected the gills, leeches (Hirudinea: Piscolidae) were recovered from the skin, Eustrongyloides and Contracaecum larvae, and Euclinostomum heterostomum were recovered from the musculature and the rest of the parasites were isolated from the gut.
4. Discussion
Most parasites recovered in the present study were also reported by [7] and [21] , and have also been reported in fish in Africa [3] [22] [23] , and five of the parasites were recorded for the first time in Lake Victoria, Tanzania. Nematodes with 13 representative species were the predominant group of parasites isolated, 11 species were digeneans, 3 cestode species, 2 crustaceans, and the Monogenea, Acanthocephala and Hirudinea were each represented by one species. Of the 32 parasite species recovered, 16 were identified to species level and these included 6 nematodes, 6 trematode, 2 cestode and 2 crustaceans. 12 species were identified to genus level while four were not identified, a nematode from C. alluaudi and C. werneri, a Trematode from C. gariepinus, C. alluaudi and C. werneri, an acanthocephalan from C. alluaudi and a leech from C. gariepinus, C. alluaudi and B. docmac.
Table 1. Prevalence and mean number of parasites (Parenthesis) infecting the seven species of fish examined.
Paracamallanus cyathopharynx is a common nematode of clariid fishes [7] [22] [24] [25] . This nematode has been reported and re-described by a number of authors [24] [26] [27] . Apart from morphometric measurements, P. cyathopharynx is differentiated based on the features of the buccal capsule. The buccal capsule has two- chambers, the second being a rentation of the characteristic of the larval buccal capsule [28] . On the dorsum, the anterior chamber has a tooth-like valve that projects longitudinally into the chamber. The posterior prostomium is smooth with chitinous plates on each side. The ventrad side is characterised by a hanging trident that is characteristic of the species. The present material has all these features hence were justifiably identified as Paracamallanus cyathopharynx Baylis, 1923.
Procamallanus laevionchus like Neogoezia species has a smooth buccal capsule the lips of which bear flat expanded chitinous plates. Spinitectus petterae has a retractable funnel-shaped prostomium not supported by chitinous plates. In both P. laevionchus and Neogoezia sp. there is a rudimentary basal ring representing the primitive posterior chamber of P. cyathopharynx buccal capsule. This feature is not present in the funnel-shaped buccal capsule of S. petterae. The integument of P. laevionchus is smooth unlike that of Neogoezia sp. in which the transverse striations are raised into rings with no spines in the posterior border. In S. petterae however, the posterior border of the rings are provided with spines. P. laevionchus and S. petterae have been recorded from C. gariepinus from the Lake Victoria basin [7] , and are known to infect several fish species [18] [24] . However, this is the first record of Neogoezia species in Tanzania. The camallanids are typical parasites of the clariids, as they have not been recorded in any other species of fish in Africa.
Rhabdochona congolensis and Comephoronema species recorded in the present study have similar external body morphology. Both have a smooth cuticle and funnel-shaped buccal capsule. These features place the two parasites in the family Rhabdochonidae Skrjabin, 1946 [13] . Unlike Comephoronema species, the buccal capsule in R. congolensis has longitudinal thickenings ending in tooth-like projections anteriorly. In Come- phoronema species the buccal capsule is simple, smooth and elongate. There is no record of Comephoronema sp. in fish from Tanzania; hence Lake Victoria forms a new geographical distribution for this parasite. R. congolensis was identified to species level on the basis of the shape of the buccal capsule. Rhabdochona congolensis differs from R. versterae, as the female does not have the finger-like processes on the tip of its tail [5] . Rhabdochona versterae was described by [29] from the intestine of the spot-tailed robber, Alestes imberi Peters 1852 in South Africa. Rhabdochona congolensis was recovered from the intestine of Clarias gariepinus.
The larvae of Contracaecum species were recovered from the tissues of all clariid fishes examined. This nematode is characterised by traverse striations on the anterior region. Contracaecum species are whitish in colour, small to large in size, inhabiting the abdominal cavity and muscle tissues of a number of fish species. Previous records of this parasite in the Lake Victoria basin exist [5] - [7] .
It is the first time that a Travnema species is reported from a fish in Lake Victoria. This nematode has simple lips and a flask-shaped oesophagus. The present material was only identified to the genus level. Another nematode that was recorded for the first time in Lake Victoria, thus a new geographical distribution, was Gendria tilapiae identified based on its simple buccal capsule, the tip of which is surrounded by papillae. The oesophagus is single i.e., not divided into parts.
Quimperia species were identified by the presence of lateral alae extending from the base of the lips to the cervical region and a club-shaped muscular oesophagus. These nematodes were recovered from the intestine of C. liocephalus and H. longifilis and Lake Victoria and the Malagarasi River, form new geographical distributions.
Among the 11 species of digeneans recorded in the present study, 6 were identified to species level based on morphological appearance. Eumasenia bangweulensis Beverley-Burton, 1962 for instance, was identified by its funnel-shaped oral sucker surrounded by a double row of alternating spines. The spines on the integument become sparse towards the posterior extremity. This trematode has a prominent cirrus sac containing an armed ejaculatory duct. E. bangweulensis was first described by [15] from Clarias mellandi in Southern Africa, and several species of this genus have been reported to infect freshwater siluroids in many parts of Africa [3] .
Astiotrema reniferum unlike Allocredium mazoensis has a subterminal oral sucker, spined integument, with spines becoming sparse towards the posterior extremity. The major features of this trematode are the tandem arrangement of the gonads and sparse distribution of the eggs in utero starting just behind the acetabulum. The vitellaria are located to the lateral sides of the body. A. reniferum has been recorded from the intestine of several species of fish in Africa [3] [7] [15] . A. mazoensis on the other hand has a terminal oral sucker and an unarmed integument. The gonads are located just behind the ventral sucker obscured by an egg-filled uterus extending to cover the whole of the posterior body. A. mazoensis infects only freshwater fish and has been reported from all the continents of the world [3] .
The family Clinostomidae has four genera namely Euclinostomum identified by its numerous coeccal branches, Clinostomoides and Nephrocephalus with a posteriorly positioned genital system, and the genus Clinostomum with a medially located genital complex and a V-shaped excretory vesicle [5] [12] . In view of the above features two genera were represented in the present study, namely Euclinostomum and Clinostomum. Euclinostomum heterostomum was distinguished based on its similarity to the material presented in [5] . E. heterostomum was recovered from the muscular tissues just behind the eye socket on Clarias liocephalus. It occurred as a yellowish encapsulated worm. Clinostomum species was recovered as a whitish cyst on the gills of Clarias gariepinus. The trematode was identified based on its simple intestinal caeca ending into a V-shaped structure. Clinostomid species are known to infect fish from many families in Africa [5] [7] [30] .
The metacercariae of the compound genus Diplostomum fall under two groups, Diplostomum type and Tylodelphys type according to [31] . The metacercaria of Diplostomum mashonense Beverley-Burton, 1963 recovered from the cranial cavity of C. gariepinus in the present study, is identified by its flat, oval body with a border between the fore and hind body. The metacercaria has a round Brandes organ with a vertical slit, oval calcareous bodies and well-developed pseudosuckers. On the other hand Tylodelphys sp 1 & 2 recovered in this study are elongate, very active when alive with the border between the fore and hind body not distinct. The longitudinal, oval Brandes organ is placed near the posterior end of the body; oval calcareous bodies, but the pseudosuckers are not evident. The two species however are distinguished by their relative body size; Tylodelphys sp 1 is twice as large as Tylodelphys sp 2. Previous records on metacercariae of the genus Diplostomum in clarias spp. from Africa include [16] [25] [32] , and those from Tanzania include [7] [8] [11] [27] . The three diplostomids have never been recorded in any other fish in Africa except C. gariepinus and thus are typical clariid parasites.
Phyllodistomum folium was recovered from the urinary bladder of Bagrus docmac and identified by its foliate hindbody and a tapering forebody. The testes were intercecal, ovaries submedian and the uterus occupies almost the whole of the posterior body just behind the ventral sucker. Phyllodistomum species has been reported in C. gariepinus in southern Africa [23] , and from various siluroids and Mastercembelus species elsewhere in Africa [5] .
Astiotrema sp. was recovered from the intestine of B. docmac. The trematode has an elongate body and a cup-shaped oral sucker with circumoral spine. The gonads are positioned at the posterior end. The uterus fills all of the body between the ventral sucker and the anterior testis. The oral sucker differs from the funnel-shaped oral sucker of Eumasenia bangweulensis.
Among the three cestodes recorded in the present study, two were identified based on their similarities to cestodes previously recovered from C. gariepinus in Lake Victoria by [7] . These include Polyonchobothrium clarias characterised by a scolex bearing two rows of hooklets. P. clarias inhabits part of the duodenum, bile duct and the gall bladder and is widely distributed in African freshwater fishes [5] [33] . The other, Monobothrioides woodlandi was identified due to its longitudinal furrows or grooves on the scolex. M. woodlandi was first described from the intestine of Clarias mellandi in Zambia [34] . The present material resembles those reported by the above authors and by [7] , and hence assigned to the same group. Of the three cestodes, Proteocephalus species could not be identified to species level. This cestode has four rounded suckers; immature proglotids were wider than longer while the mature ones were longer than wider. Proteocephalus species recovered in the present study resembles the material reported by [7] and efforts are underway to identify it to species level.
The final group of parasites encountered in the present study were ectoparasites such as crustaceans, Hirudinea, monogeneans and an unidentified intestinal acanthocephalan. The crustaceans recovered were identified as Dolops ranarum similar to the material reported by [7] , hence assigned to the same group. The second was identified as Argulus monodi due to its similarity to the material reported by [5] . Argulus monodi was recovered from the posterior part of the oral cavity of Heterobranchus longifilis from the Malagarasi River.
The Hirudinea, Piscolid leeches and the Monogenea, Gyrodactylus species infect the skin and gills of many siluroid fishes. Materials recorded in the present study are similar to those described from C. gariepinus in Lake Victoria [7] . These parasites have also been reported from a wide range of fishes [5] [30] [35] .
In summary, 32 parasites species were documented from the nematodes, cestodes, trematodes, crustaceans, monogeneans, acanthocephalans and hirudeneans. With such a wide representation, the study concludes that these parasites were possibly the original fauna in Lake Victoria prior to its drying and subsequent introduction of the alien species.
Acknowledgements
Thanks are extended to Lake Victoria Management Project (LVEMP I) and Lake Victoria research initiative (VicRes) for financial support and TAFIRI Mwanza centre for technical staffs and laboratory space and the University of Dar Es Salaam for availing time to conduct this study.