Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides
The use of mushroom in biodegradation processes has been increasing in recent years. This is because they are easily cultivated and possess an interesting metabolism endowed with a powerful enzymatic system. In this work, the degradation of pesticides used for agricultural purposes is reviewed. Three compounds are taken as models: endosulfan (insecticide), chlorothalonil (fungicide) and paraquat (herbicide). They are considered as high risk hazard for health, and its indiscriminate use in agriculture can cause long-term problems. Several genera of mushrooms have been studied for biodegradation of agropesticides, among them Pleurotus is considered one of the most promising due to its ligninolytic capabilities. Strains of this genus are able to degrade endosulfan and chlorothalonil. There are few reports about paraquat degradation, however, a study for using wild strains of tropical mushrooms is under way with promising results. All the taxa studied have the ability of degrading some of these compounds and in certain cases up to 100% degradation. Because of this they are excellent candidates for bioremediation strategies.
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Subjects: | Remediación con hongos, Pleurotus, Residuos de plaguicidas, Endosulfán, Clorotalonil, Paraquat, Biodegradación de residuos peligrosos, |
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KOHA-OAI-ECOSUR:545112024-04-17T16:31:41ZBiotechnological use of fungl for the degradation of recalcitrant agro-pesticides Camacho Morales, Reyna Lucero autor/a 14465 Sánchez, José E. Doctor autor/a 5443 textengThe use of mushroom in biodegradation processes has been increasing in recent years. This is because they are easily cultivated and possess an interesting metabolism endowed with a powerful enzymatic system. In this work, the degradation of pesticides used for agricultural purposes is reviewed. Three compounds are taken as models: endosulfan (insecticide), chlorothalonil (fungicide) and paraquat (herbicide). They are considered as high risk hazard for health, and its indiscriminate use in agriculture can cause long-term problems. Several genera of mushrooms have been studied for biodegradation of agropesticides, among them Pleurotus is considered one of the most promising due to its ligninolytic capabilities. Strains of this genus are able to degrade endosulfan and chlorothalonil. There are few reports about paraquat degradation, however, a study for using wild strains of tropical mushrooms is under way with promising results. All the taxa studied have the ability of degrading some of these compounds and in certain cases up to 100% degradation. Because of this they are excellent candidates for bioremediation strategies.The use of mushroom in biodegradation processes has been increasing in recent years. This is because they are easily cultivated and possess an interesting metabolism endowed with a powerful enzymatic system. In this work, the degradation of pesticides used for agricultural purposes is reviewed. Three compounds are taken as models: endosulfan (insecticide), chlorothalonil (fungicide) and paraquat (herbicide). They are considered as high risk hazard for health, and its indiscriminate use in agriculture can cause long-term problems. Several genera of mushrooms have been studied for biodegradation of agropesticides, among them Pleurotus is considered one of the most promising due to its ligninolytic capabilities. Strains of this genus are able to degrade endosulfan and chlorothalonil. There are few reports about paraquat degradation, however, a study for using wild strains of tropical mushrooms is under way with promising results. All the taxa studied have the ability of degrading some of these compounds and in certain cases up to 100% degradation. Because of this they are excellent candidates for bioremediation strategies.Adobe Acrobat profesional 6.0 o superiorRemediación con hongosPleurotusResiduos de plaguicidasEndosulfánClorotalonilParaquatBiodegradación de residuos peligrososDisponible en líneaMushroom biotechnology: developments and applicationsDisponible para usuarios de ECOSUR con su clave de acceso |
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Remediación con hongos Pleurotus Residuos de plaguicidas Endosulfán Clorotalonil Paraquat Biodegradación de residuos peligrosos Remediación con hongos Pleurotus Residuos de plaguicidas Endosulfán Clorotalonil Paraquat Biodegradación de residuos peligrosos |
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Remediación con hongos Pleurotus Residuos de plaguicidas Endosulfán Clorotalonil Paraquat Biodegradación de residuos peligrosos Remediación con hongos Pleurotus Residuos de plaguicidas Endosulfán Clorotalonil Paraquat Biodegradación de residuos peligrosos Camacho Morales, Reyna Lucero autor/a 14465 Sánchez, José E. Doctor autor/a 5443 Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
description |
The use of mushroom in biodegradation processes has been increasing in recent years. This is because they are easily cultivated and possess an interesting metabolism endowed with a powerful enzymatic system. In this work, the degradation of pesticides used for agricultural purposes is reviewed. Three compounds are taken as models: endosulfan (insecticide), chlorothalonil (fungicide) and paraquat (herbicide). They are considered as high risk hazard for health, and its indiscriminate use in agriculture can cause long-term problems. Several genera of mushrooms have been studied for biodegradation of agropesticides, among them Pleurotus is considered one of the most promising due to its ligninolytic capabilities. Strains of this genus are able to degrade endosulfan and chlorothalonil. There are few reports about paraquat degradation, however, a study for using wild strains of tropical mushrooms is under way with promising results. All the taxa studied have the ability of degrading some of these compounds and in certain cases up to 100% degradation. Because of this they are excellent candidates for bioremediation strategies. |
format |
Texto |
topic_facet |
Remediación con hongos Pleurotus Residuos de plaguicidas Endosulfán Clorotalonil Paraquat Biodegradación de residuos peligrosos |
author |
Camacho Morales, Reyna Lucero autor/a 14465 Sánchez, José E. Doctor autor/a 5443 |
author_facet |
Camacho Morales, Reyna Lucero autor/a 14465 Sánchez, José E. Doctor autor/a 5443 |
author_sort |
Camacho Morales, Reyna Lucero autor/a 14465 |
title |
Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
title_short |
Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
title_full |
Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
title_fullStr |
Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
title_full_unstemmed |
Biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
title_sort |
biotechnological use of fungl for the degradation of recalcitrant agro-pesticides |
work_keys_str_mv |
AT camachomoralesreynaluceroautora14465 biotechnologicaluseoffunglforthedegradationofrecalcitrantagropesticides AT sanchezjoseedoctorautora5443 biotechnologicaluseoffunglforthedegradationofrecalcitrantagropesticides |
_version_ |
1798157826330198016 |