Abstract
Fasciolosis is a water and food-borne disease caused by the liver fluke Fasciola hepatica and Fasciola gigantica. This disease is widespread in different parts of the world. Lymnaeidae and Planorbidae snails are the intermediate hosts of these flukes. Snail population management is a good tool to control fasciolosis because gastropods represent the weakest link in the life-cycle of trematodes. Chlorophyll can be extracted from any green plant. Chlorophyllin was prepared from spinach in 100% ethanol by using different types of chemicals. The chlorophyll obtained from spinach was transformed into water-soluble chlorophyllin. In the present paper, toxicity of chlorophyllin against the snail Lymnaea acuminata was time and concentration dependent. The toxicity of extracted and pure chlorophyllin at continuous 4 h exposure of sunlight was highest with lethal concentration (LC50) of 331.01 mg/L and 2.60 mg/L, respectively, than discontinuous exposure of sunlight up to 8 h with LC50 of 357.04 mg/L and 4.94 mg/L, respectively. Toxicity of extracted chlorophyllin was noted in the presence of different monochromatic visible lights. The highest toxicity was noted in yellow light (96 h, LC50 392.77 mg/L) and the lowest in green light (96 h, LC50 833.02 mg/L). Chlorophyllin in combination with solar radiation or different wavelength of monochromatic visible lights may become a latent remedy against the snail L. acuminata. It was demonstrated that chlorophyllin was more toxic in sunlight. Chlorophyllin is ecologically safe and more economical than synthetic molluscicides which have the potential to control the incidence of fasciolosis in developing countries.
Highlights
Fasciolosis is one of the most debilitating zoonotic diseases
The molluscicidal activity of extracted/pure chlorophyllin was tested at different times of exposure to various light spectra and chlorophyllin concentrations against the host snail L. acuminata (Table 1)
Toxicity experiment was conducted in laboratory condition with extracted chlorophyllin in the presence of monochromatic visible light
Summary
Fasciolosis is one of the most debilitating zoonotic diseases. Fresh water snail Lymnaea acuminata is the vector of liver flukes Fasciola gigantica, which causes endemic fasciolosis in cattle populations in Northern parts of India (Singh & Agarwal 1981; Singh & Singh 2016). Synthetic molluscicides have been widely used for the effective control of carrier snails (Singh et al 2010; Singh et al 2012). It has been reported that chlorophyllin is a potent larvicide (Wohllebe et al 2009) It has been reported by Singh and Singh (2015) that the combination of monochromatic visible light with chlorophyllin has effective larvicidal activity against F. gigantica. Kumar and Singh (2015) reported that the toxic effect of chlorophyllin against Lymnaea acuminata in the presence of red light and sunlight. The aim of this present study is to evaluate the photo-toxicodynamic activity of extracted/pure chlorophyllin
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