Novel development of Lecanicillium lecanii-based granules as a platform against malarial vector Anopheles culicifacies

Mosquitoes are infectious vectors for a wide range of pathogens and parasites thereby transmitting several diseases including malaria, dengue, Zika, Japanese encephalitis and chikungunya which pose a major public health concern. Mostly synthetic insecticides are usually applied as a primary control...

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Bibliographic Details
Published in:World journal of microbiology & biotechnology 2023-06, Vol.39 (6), p.142-142, Article 142
Main Authors: Sogan, Nisha, Kala, Smriti, Kapoor, Neera, Nagpal, B. N., Ramlal, Ayyagari, Nautiyal, Aparna
Format: Article
Language:English
Subjects:
Animals
Anopheles
Anopheles culicifacies
Applied Microbiology
Aquatic insects
Bioaccumulation
Bioactive compounds
Biochemistry
Biocompatibility
Biological control
Biological magnification
Biomedical and Life Sciences
Biomolecules
Biotechnology
Chitin
Culicidae
Encephalitis
Entomopathogenic fungi
Environmental Engineering/Biotechnology
Formulations
Fourier transforms
Granular materials
Histopathology
Infectious diseases
Infrared spectroscopy
Insecticides
Insecticides - chemistry
Insecticides - pharmacology
Larva
Larvae
Lecanicillium lecanii
Life Sciences
Malaria
Malaria - prevention & control
Microbiology
Mosquito Vectors
Mosquitoes
Nontarget organisms
Parasites
Plant Extracts - chemistry
Plant Leaves - chemistry
Public health
Scanning electron microscopy
Toxicity
Vector-borne diseases
Vectors
Zika Virus
Zika Virus Infection
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Summary:Mosquitoes are infectious vectors for a wide range of pathogens and parasites thereby transmitting several diseases including malaria, dengue, Zika, Japanese encephalitis and chikungunya which pose a major public health concern. Mostly synthetic insecticides are usually applied as a primary control strategy to manage vector-borne diseases. However excessive and non-judicious usage of such chemically derived insecticides has led to serious environmental and health issues owing to their biomagnification ability and increased toxicity towards non-target organisms. In this context, many such bioactive compounds originating from entomopathogenic microbes serve as an alternative strategy and environmentally benign tool for vector control. In the present paper, the entomopathogenic fungus, Lecanicillium lecanii (LL) was processed to make the granules. Developed 4% LL granules have been characterized using the technique of Fourier transform infrared spectroscopy (FTIR) and scanning electron microscope (SEM). The developed formulation was also subjected to an accelerated temperature study at 40 °C and was found to be stable for 3 months. Further, GCMS of the L. lecanii was also performed to screen the potential biomolecules present. The developed formulation was found to be lethal against Anopheles culicifacies with an LC 50 value of 11.836 µg/mL. The findings from SEM and histopathology also substantiated the mortality effects. Further, the SEM EDX (energy dispersive X-ray) studies revealed that the treated larvae have lower nitrogen content which is correlated to a lower level of chitin whereas the control ones has higher chitin content and healthy membranes. The developed LL granule formulation exhibited high toxicity against Anopheles mosquitoes. The granule formulations can be used as an effective biocontrol strategy against malaria-causing mosquitoes.
ISSN:0959-3993
1573-0972
DOI:10.1007/s11274-023-03570-y