Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial

This study reports curcumin as an efficient photolarvicide against Aedes aegypti larvae under natural light illumination. Larval mortality and pupal formation were monitored daily for 21 days under simulated field conditions. In a sucrose-containing formulation, a lethal time 50 ([Formula: see text]...

Descripción completa

Detalles Bibliográficos
Autores principales: Lima, Alessandra R., Silva, Cicera M., da Silva, Lucas M., Machulek, Amilcar, De Souza, Antônio P., de Oliveira, Kleber T., Souza, Larissa M., Inada, Natalia M., Bagnato, Vanderlei S., Oliveira, Samuel L., Caires, Anderson R. L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9457702/
https://www.ncbi.nlm.nih.gov/pubmed/36080466
http://dx.doi.org/10.3390/molecules27175699
_version_ 1784786120706359296
author Lima, Alessandra R.
Silva, Cicera M.
da Silva, Lucas M.
Machulek, Amilcar
De Souza, Antônio P.
de Oliveira, Kleber T.
Souza, Larissa M.
Inada, Natalia M.
Bagnato, Vanderlei S.
Oliveira, Samuel L.
Caires, Anderson R. L.
author_facet Lima, Alessandra R.
Silva, Cicera M.
da Silva, Lucas M.
Machulek, Amilcar
De Souza, Antônio P.
de Oliveira, Kleber T.
Souza, Larissa M.
Inada, Natalia M.
Bagnato, Vanderlei S.
Oliveira, Samuel L.
Caires, Anderson R. L.
author_sort Lima, Alessandra R.
collection PubMed
description This study reports curcumin as an efficient photolarvicide against Aedes aegypti larvae under natural light illumination. Larval mortality and pupal formation were monitored daily for 21 days under simulated field conditions. In a sucrose-containing formulation, a lethal time 50 ([Formula: see text]) of 3 days was found using curcumin at 4.6 mg L(−1). This formulation promoted no larval toxicity in the absence of illumination, and sucrose alone did not induce larval phototoxicity. The photodegradation byproducts (intermediates) of curcumin were determined and the photodegradation mechanisms proposed. Intermediates with m/z 194, 278, and 370 were found and characterized using LC-MS. The ecotoxicity of the byproducts on non-target organisms (Daphnia, fish, and green algae) indicates that the intermediates do not exhibit any destructive potential for aquatic organisms. The results of photodegradation and ecotoxicity suggest that curcumin is environmentally safe for non-target organisms and, therefore, can be considered for population control of Ae. aegypti.
format Online
Article
Text
id pubmed-9457702
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-94577022022-09-09 Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial Lima, Alessandra R. Silva, Cicera M. da Silva, Lucas M. Machulek, Amilcar De Souza, Antônio P. de Oliveira, Kleber T. Souza, Larissa M. Inada, Natalia M. Bagnato, Vanderlei S. Oliveira, Samuel L. Caires, Anderson R. L. Molecules Article This study reports curcumin as an efficient photolarvicide against Aedes aegypti larvae under natural light illumination. Larval mortality and pupal formation were monitored daily for 21 days under simulated field conditions. In a sucrose-containing formulation, a lethal time 50 ([Formula: see text]) of 3 days was found using curcumin at 4.6 mg L(−1). This formulation promoted no larval toxicity in the absence of illumination, and sucrose alone did not induce larval phototoxicity. The photodegradation byproducts (intermediates) of curcumin were determined and the photodegradation mechanisms proposed. Intermediates with m/z 194, 278, and 370 were found and characterized using LC-MS. The ecotoxicity of the byproducts on non-target organisms (Daphnia, fish, and green algae) indicates that the intermediates do not exhibit any destructive potential for aquatic organisms. The results of photodegradation and ecotoxicity suggest that curcumin is environmentally safe for non-target organisms and, therefore, can be considered for population control of Ae. aegypti. MDPI 2022-09-04 /pmc/articles/PMC9457702/ /pubmed/36080466 http://dx.doi.org/10.3390/molecules27175699 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Lima, Alessandra R.
Silva, Cicera M.
da Silva, Lucas M.
Machulek, Amilcar
De Souza, Antônio P.
de Oliveira, Kleber T.
Souza, Larissa M.
Inada, Natalia M.
Bagnato, Vanderlei S.
Oliveira, Samuel L.
Caires, Anderson R. L.
Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial
title Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial
title_full Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial
title_fullStr Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial
title_full_unstemmed Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial
title_short Environmentally Safe Photodynamic Control of Aedes aegypti Using Sunlight-Activated Synthetic Curcumin: Photodegradation, Aquatic Ecotoxicity, and Field Trial
title_sort environmentally safe photodynamic control of aedes aegypti using sunlight-activated synthetic curcumin: photodegradation, aquatic ecotoxicity, and field trial
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9457702/
https://www.ncbi.nlm.nih.gov/pubmed/36080466
http://dx.doi.org/10.3390/molecules27175699
work_keys_str_mv AT limaalessandrar environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT silvaciceram environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT dasilvalucasm environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT machulekamilcar environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT desouzaantoniop environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT deoliveiraklebert environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT souzalarissam environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT inadanataliam environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT bagnatovanderleis environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT oliveirasamuell environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial
AT cairesandersonrl environmentallysafephotodynamiccontrolofaedesaegyptiusingsunlightactivatedsyntheticcurcuminphotodegradationaquaticecotoxicityandfieldtrial

Ejemplares similares