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Memórias do Instituto Oswaldo Cruz
Fundação Oswaldo Cruz, Fiocruz
ISSN: 1678-8060 EISSN: 1678-8060
Vol. 93, Num. 4, 1998, pp. 477-478
Mem Inst Oswaldo Cruz, Rio de Janeiro, Vol. 93 (4), July/August 1998, pp. 477-478

RESEARCH NOTE

Distribution Patterns of Microcotyle nemadactylus (Monogenea) on Gill Filaments of Cheilodactylus variegatus (Teleostei)

Marcelo E Oliva/^+, Jose L Luque*

Instituto de Investigaciones Oceanologicas, FAREMAR, Universidad de Antofagasta, Casilla Postal 170, Antofagasta, Chile
*Departamento de Parasitologia Animal, Universidade Federal Rural do Rio de Janeiro, Caixa Postal 74508, 23851-970 Seropedica, RJ, Brasil
^+Corresponding author. Fax: +56-55-247542. E-mail: MEOLIVA@REUNA.CL

Received 11 September 1997; Accepted 8 April 1998

Code Number:OC98092
Sizes of Files:
      Text: 5.8K
      Graphics: Line drawings and photographs (jpg) - 25K
                 Tables (jpg) - 35.3K

Key words: monogenea - marine fishes - ecology - habitat segregation

RESEARCH NOTE

Preference by restricted habitat in the gills of fishes is a well-known phenomenon among ectoparasites, especially copepods and monogenea (K Rohde 1977 Zool Anz 199: 164-172). Factors that could explain this preference are not yet clear. An approach to the solution of this problem has been proposed by J Paling (1968 J Exp Biol 48: 533-544), who showed that the spatial distribution of glochidia is determined by the differential action of water flow through gill arch. A similar conclusion was reached by J Davey (1980 J mar Biol Ass U K 60: 1061-1067). When microhabitat preference is studied in species with similar ecological requirements, ecological instead of mechanical phenomenon are apparent. The presence of a single species of Monogenea in the gill filaments of the teleost Cheilodactylus variegatus Valenciennes, 1833 allows us to test the hypothesis of habitat restriction caused by ecological processes.

The analysis of 100 specimens of C. variegatus obtained during November 1989 to March 1990, from the fish market of Chorrillos - Peru (12 degrees 30'S 76 degrees 50'W) shows that Microcotyle nemadactylus Dillon & Hargis, 1965 was the only parasite of the gills filaments, with a prevalence of infection of 75%. No other metazoan parasite was found on their gill filaments. The exact position of each one of the 566 specimens of M. nemadactylus collected was registered. Four sectors were defined in each gill filaments (Fig.). The monogenean Encotyllabe sp., a parasite of pharyngeal plates, the copepods Clavellotis dilatata, (Kroyer, 1863) parasite in the gill arches, and Caligus cheilodactylus (Kroyer, 1863), parasite of the skin, were also found, with prevalence of 3%, 35% and 60%, respectively. An ANOVA, previous rank transformation of intensity data (W Conover & R Iman 1981 Amer Stat 5: 124-133) shows that distribution of worms, along the four gill filaments, was not homogeneous (F = 3.71, 0.05 > P > 0.02, df = 3, 71) ( Table I), an a -posteriori SNK test shows preference to the first gill arch, suggesting an horizontal partition (K Rohde 1993 Ecology of Marine Parasites, 2nd ed., CAB International, 298 pp.). Additionally, the same analysis was done on sectors of the gills, showing a similar pattern: no uniform distribution (F= 4.04, 0.01 > P > 0.005, df = 3, 67), and a preference by the sector 4 (transverse partition). Similarly, the log-likelihood G test (JH Zar 1984 Biostatistical Analysis, 2nd ed., Prentice Hall, 718 pp.) shows that the proportion of worms in each arch and sector is not uniform. A preference for the first gill arch ( G= 37.9, df =3, P < 0.001) is evident (Table II). Microhabitat segregation is a common process observed when more than one parasitic species are found in the same microhabitat (i.e. gill filament). K Rohde (1977 Z Parasitenk 53: 171-182) postulate that habitat segregation in species with similar requirements are due mainly to competition, reinforcement of reproductive barrier (in congeneric species) to avoid production of hybrids and/or the need for ensure mate. These processes are critical to ensure survival at population levels in species with low or no motility. Additionally, it has been shown that temporal segregation can occur in congeneric species (M Oliva et al. 1989 Rev Iber Parasitol 49: 209-214). M. nemadactylus occurs in the four gill arches and in each of the defined sectors, but distribution is not uniform and clear preferences by a gill arch and a sector of the gill is evident, suggesting a longitudinal and transverse partition of habitat (Rohde 1993 loc. cit.). M. nemadactylus is the only ectoparasite of C. variegatus (at least in the central Peruvian coast) that use the gill filament as habitat. Due to the absence of closely related species, process of competition, reinforcement of reproductive barrier and/or temporal segregation can not be responsible of habitat preference. In absence of further evidence, the observed preference for an habitat, appears to ensure contact between mating partners.

    Fig.: free hand sketch of a gill showing the four defined sectors.

Copyright 1998 Fundacao Oswaldo Cruz - Fiocruz


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