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Memórias do Instituto Oswaldo Cruz
Fundação Oswaldo Cruz, Fiocruz
ISSN: 1678-8060 EISSN: 1678-8060
Vol. 97, Num. 5, 2002, pp. 743-745
Untitled Document

Mem Inst Oswaldo Cruz, Rio de Janeiro, Vol. 97(5) July 2002, pp. 743-745

The Molluscicidal Activity of Niclosamide (Bayluscide WP70®) on Melanoides tuberculata (Thiaridae), a Snail Associated with Habitats of Biomphalaria glabrata (Planorbidae)

Alexandre Giovanelli, Cesar Luiz Pinto Ayres Coelho da Silva/+, Luisa Medeiros*, Maurício Carvalho de Vasconcellos

Departamento de Biologia, Instituto Oswaldo Cruz-Fiocruz, Av. Brasil 4365, 21045-900 Rio de Janeiro, RJ Brasil *Escola Politécnica de Saúde Joaquim Venâncio-Fiocruz , Rio de Janeiro, RJ, Brasil, +Corresponding author. Fax: +55-21-2560.6474. E-mail: cesarcs@ioc.fiocruz.br

Received 10 September 2001
Accepted 17 April 2002

Code Number: oc02141

The aim of this study was to determine the toxicity of niclosamide (Bayluscide ®) on Melanoides tuberculata and Biomphalaria glabrata under laboratory conditions. The latter species is the intermediate host of Schistosoma mansoni (Sambon 1917). M. tuberculata was successfully used as competitor of B. glabrata in biological control programs in French West Indies. Both molluscicide and biological control using M. tuberculata have proved to be successful in reducing the population density of B. glabrata. The associated use of molluscicide in this area would be an effective measure if M. tuberculata were less susceptibility to the molluscicide than B. glabrata. Three hundreds individuals each of B. glabrata and of M. tuberculata, collected in Sumidouro, State of Rio de Janeiro, were used in the experiment. The molluscs were exposed to 14 different concentrations of niclosamide as recommended by the World Health Organization. Probit analysis was used to determine the LC 50 and LC 90. The LC 50 and LC 90 values for B. glabrata were 0.077 mg/l and 0.175 mg/l, respectively and the LC 50 and LC 90 values for M. tuberculata were 0.082 mg/l and 0.221 mg/l respectively. As the lethal concentrations of niclosamide were approximately the same to both species, this could be a disadvantage when controlling B. glabrata with niclosamide in an area of M. tuberculata occurrence. It migth therefore be preferable to utilize the latex extracted from the Euphorbia splendens, which presented a much higher efficiency for B. glabrata than to M. tuberculata.

Key words: molluscicide - niclosamide - Melanoides tuberculata - Biomphalaria glabrata - schistosomiasis

The use of molluscicides is one of the procedures recognized by theWorld Health Organization (WHO 1998) against schistosomiasis. In Sumidouro, State of Rio de Janeiro, Brazil, this method was planned as a control measure against Biomphalaria glabrata infected by Schistosoma mansoni. However, a reduction in population density of B. glabrata occurred following the appearance of the thiarid snail, Melanoides tuberculata (Müller 1774), before the molluscicide application. This observation suggests competition between these species. Similar results were obtained in French West Indies by Pointier and McCullough (1989), Pointier et al. (1989), Pointier and Guyard (1992), and Schlegel et al. (1997). Therefore, the two measures could be used concurrently to increase the efficiency of B. glabrata control. However, this assumption could only be confirmed if M. tuberculata were more resistant to the molluscicide than the target snail B. glabrata.

Either niclosamide (Bayluscide®) and latex from Euphorbia splendens var. hislopii [Sin. Euphorbia milii Des Moul. Var. splendens (Hook) Ursh & Leandri (Carter 1994)] could be used as molluscicides. The former is already commonly used in various continents (WHO 1984). The latter, a molluscicide of plant origin has been shown to be effective against species of Biomphalaria (Vasconcellos & Schall 1986, Baptista et al. 1992, Mendes et al. 1992, 1997, Schall et al. 1998, 2001). The aim of the present study was to measure the susceptibility of M. tuberculata to niclosamide in order to evaluate the possibility of using both chemical and biological control to fight B. glabrata population.

MATERIALS AND METHODS

The niclosamide (Bayluscide WP70®, September 1993-stock) was provided by the Schistosomiasis Laboratory of Centro de Pesquisa René Rachou-Fiocruz, Belo Horizonte, State of Minas Gerais. The toxicity experiment was performed simultaneously with 8 to 20 mm diameters B. glabrata and 15 to 21 mm long M. tuberculata, both collected at Sumidouro. The test was made with B. glabrata for comparison with results obtained for M. tuberculata, in the same laboratory conditions. The treatments used the following 14 concentrations of niclosamide in 750 ml medium in 1,000 ml beakers: 0.02; 0.04; 0.06; 0.08; 0.10; 0.15; 0.20; 0.25; 0.30; 0.35; 0.40; 0.45; 0.50; 1 mg/l (WHO 1983). The medium used was dechlorinated water. Each treatment and the control (medium only) were duplicated. Ten molluscs were added to each beaker. Thus, 300 individuals of each species were used in the experiments.

The period of exposition to the molluscicide dilutions and control was 24 h. Thereafter, the snails in each replicate were placed in 750 ml dechlorinated water for another 24 h (recovery period). At the end of the first 24 h the number of molluscs withdrawn into their shells was recorded. If the snails remained inactive at the end of the recovery period (48 h), they were considered dead. Snails were deprived of food during the experiments.

The LC 50 and LC 90 values were determined by the Probit analysis (Finney 1971) using the Chi-square test to verify the fitting of the obtained mortality pattern with the estimated one.

RESULTS

Mortality was expressed on Probit probabilities and plotted against the log-transformed values of niclosamide concentrations. The regression line obtained from this data was used for LC50 and LC90 determination (Fig. 1).

The majority of B. glabrata snails, withdrawn into their shell on the first 24 h, were found to be dead at the end of the experiment. No B. glabrata survived at concentrations higher than 0.30 mg/l. The LC 50 and LC 90 values when B. glabrata were exposed to niclosamide were 0.077 and 0.175 mg/l, respectively. There was not significant differences between the observed and expected values (c2 = 8.35; DF = 13; p > 0.05). The water leaving behavior were only observed in three individuals of B. glabrata, showing a low capacity of this species to escape to niclosamide action.

In relation to M. tuberculata, it was observed that some molluscs that did not retract in the first 24 h, died at the end of the experiment. This fact occurred at concentrations higher than 0.15 mg/l. The LC 50 obtained for M. tuberculata was 0.082 mg/l while the LC 90 was 0.221 mg/l. All M. tuberculata individuals died when exposed to niclosamide concentrations higher than 0.25 mg/l, with the exception of one mollusc, which survived to the 0.4 mg/l concentration (Fig. 2). There was not significant difference between the observed and the expected values (c2 = 18.69; DF = 13; p > 0.05).

DISCUSSION

These tests aimed to verify the fitting of niclosamide application on a specific situation: the natural substitution of B. glabrata by M. tuberculata in an area of schistosomiasis transmission. But it would be important that the applied molluscicide had low toxicity to M. tuberculata, because in the contrary, the population reduction of this species could diminish the competition pressure on B. glabrata. The occurrence of this phenomenon was already suggested by Mkoji et al. (1992) in relation to M. tuberculata and B. pfeifferi in Africa.

In this study, concentrations of niclosamide higher than 0.30 mg/l caused the death of almost all M. tuberculata and B. glabrata individuals on the first 24 h. The rapid mortality, probably due to an acute toxic effect, is desirable, as it reduces the possibility of escaping behavior by the molluscs (Sarquis et al. 1998). In addition, the LC 90 was reached at small concentrations of the molluscicide for both species. These results confirmed the niclosamide efficacy against intermediate host molluscs of S. mansoni (Mc Cullough 1992, Souza 1995) and showed that this product affected M. tuberculata similarly to B. glabrata.

However the LC 50 and LC 90 values obtained on this experiment for M. tuberculata and B. glabrata were very close to each other, this contraindicates the use of niclosamide when both species were found in the same habitat. In this case, the application of the latex from E. splendens var. hislopii (crown of Christ), a molluscicide of plant origin, would be more indicated. In laboratory tests performed with E. splendens, it was observed that the required LC 90 for M. tuberculata was 13.8 times higher than the obtained for B. glabrata (Giovanelli et al. 2001). In this way, the competitive pressure of M. tuberculata, together with the molluscicide could present a synergistic effect on the reduction of B. glabrata population.

ACKNOWLEDGEMENTS

To Valdinei Valim for technical assistance and to Marisa da Silveira Soares and Daniel Forsin Buss from the Biology Department of Instituto Oswaldo Cruz, for suggestions and criticism.

REFERENCES

  • Baptista DF, Vasconcellos MC, Lopes FEF, Silva IP, Schall VT 1992. Evaluation of the molluscicidal properties of Euphorbia splendens var. hislopii (N.E.B.) (Euphorbiaceae) _ 2. Investigation in lotic habitat. Mem Inst Oswaldo Cruz 87: 549-553.
  • Finney DJ 1971. Probit Analisys, 3rd ed., Cambridge University Press, New Delhi, 333 pp.
  • Giovanelli A, Coelho da Silva CLPA, Vasconcellos MC, Medeiros L 2001. The molluscicidal activity of crown of Christ latex (Euphorbia splendens var. hislopii) on Melanoides tuberculata (Thiaridae), a snail associated to habitats of Biomphalaria glabrata (Planorbidae). Mem Inst Oswaldo Cruz 96: 123-125.
  • Mc Cullough FS 1992 The role of molusciciding in schistosomiasis control. WHO/SCHISTO/92.107, p. 34.
  • Mendes NM, Baptista DF, Vasconcellos MC, Schall VT 1992. Evaluation of the molluscicidal properties of Euphorbia splendens var. hislopii (N.E.B.) (Euphorbiaceae) _ 1. Experimental test in a lentic habitat. Mem Inst Oswaldo Cruz 87: 21-23.
  • Mendes NM, Vasconcellos MC, Baptista DF, Rocha RS, Schall VT 1997. Evaluation of the molluscicidal properties of Euphorbia splendens var. hislopii (N.E.B.) latex. Experimental test in an endemic area in the State of Minas Gerais, Brazil. Mem Inst Oswaldo Cruz 92: 719-724.
  • Mkoji GM 1992. Does the snail Melanoides tuberculata have a role in biological control of Biomphalaria pfeifferi and other medically important African pulmonates? Ann Trop Med Parasitol 86: 201-204.
  • Pointier JP, Guyard A 1992. Biological control of snail intermediate hosts of Schistosoma mansoni in Martinique, French West Indies. Trop Med Parasitol 43: 98-101.
  • Pointier JP, McCullough F 1989. Biological control of the snail hosts of Schistosoma mansoni in the Caribbean area using Thiara spp. Acta Trop 46: 147-155.
  • Pointier JP, Guyard A, Mosser A 1989. Biological control of Biomphalaria glabrata and B. straminea by the competitor snail Thiara tuberculata in a transmission site of schistosomiasis in Martinique, French West Indies. Ann Trop Med Parasitol 83: 263-269.
  • Sarquis O, Pieri O, Cunha RA, Jurberg P 1998. Effect of Bayluscide WP 70® on the kinetic behaviour of Biom-phalaria straminea in laboratory conditions. Mem Inst Oswaldo Cruz 93: 239-241.
  • Schall VT, Vasconcellos MC, Rocha RS, Souza CP, Mendes NM 2001. The control of the schistosome-transmiting snail Biomphalaria glabrata by the plant molluscicide Euphorbia splendens var. hislopii (syn milli Des. Moul). A longitudinal field study in an endemic area in Brazil. Acta Trop 79: 165-170.
  • Schall VT, Vasconcellos MC, Souza CP, Baptista DF 1998. The molluscicidal activity of crown of Christ (Euphorbia splendens var. hislopii) latex on snails acting as intermediate hosts of Schistosoma mansoni and Schistosoma hae-matobium. Am J Trop Med Hyg 58: 7-10.
  • Schlegel L, Pointier JP, Petitjean-Roget V, Nadeau Y, Blateau A, Mansuy JM 1997. Le contrôle de la schistosomose intestinale de l' île de la Martinique. Parasite 4: 217-225.
  • Souza CP 1995. Moluscicide control of snail vectors of schistosomiasis. Mem Inst Oswaldo Cruz 90: 165-168.
  • Vasconcellos MC, Schall VT 1986. Latex of "crown of Christ" (Euphorbia splendens): an effective molluscicide. Mem Inst Oswaldo Cruz 81: 475-476.
  • WHO-World Health Organization 1983. Report of a scientific working group on plant molluscicide and guidelines for
    evaluation of a plant molluscicide. Geneve TDR/SCH- SWE4/83.3.
  • WHO-World Health Organization 1984. Molluscicide screening and evaluation. Bull Wld Hlth Org 33: 567-581.
  • WHO-World Health Organization 1998. Report of the WHO informal consultation on schistosomiasis control. Geneva 2-4 December. WHO/CDS/CPC/SIP/99.2

Copyright 2002 Instituto Oswaldo Cruz - Fiocruz

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