Chenyu Huang scite author profile

Carvone is a monoterpene compound that has been widely used as a pesticide for more than 10 years. However, little is known regarding the fate of carvone, or its degradation products, in the environment. We used GC-MS (gas chromatography–mass spectrometry) to study the fate of carvone and its degradation and photolysis products under different soil and light conditions. We identified and quantified three degradation products of carvone in soil and water samples: dihydrocarvone, dihydrocarveol, and carvone camphor. In soil, dihydrocarveol was produced at very low levels (≤0.067 mg/kg), while dihydrocarvone was produced at much higher levels (≤2.07 mg/kg). In water exposed to differing light conditions, carvone was degraded to carvone camphor. The photolysis rate of carvone camphor under a mercury lamp was faster, but its persistence was lower than under a xenon lamp. The results of this study provide fundamental data to better understand the fate and degradation of carvone and its metabolites in the environment.

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Analytical method for the determination of guvermectin residues in rice environment by the QuEChERS method combined with HPLC

Wang

Bian

Dong

et al. 2022

Journal of Food Composition and Analysis

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Dissipation dynamics and dietary risk assessment of prodiamine in rice by modified QuEChERS method combined with HPLC-MS

Lin¹,

Chang²,

Li³

et al. 2023

Journal of Food Composition and Analysis

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Residue analysis, dissipation dynamics, and dietary risk assessment of benzovindiflupyr in peanut field environment by LC-MS

Chang

Wang

Huang

et al. 2023

Journal of Food Composition and Analysis

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Chenyu Huang

Development and validation of a method for determining d-limonene and its oxidation products in vegetables and soil using GC–MS

Degradation and Pathways of Carvone in Soil and Water

Analytical method for the determination of guvermectin residues in rice environment by the QuEChERS method combined with HPLC

Dissipation dynamics and dietary risk assessment of prodiamine in rice by modified QuEChERS method combined with HPLC-MS

Residue analysis, dissipation dynamics, and dietary risk assessment of benzovindiflupyr in peanut field environment by LC-MS

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