Litcius/Paper detail

Deposition and dissipation of difenoconazole in pepper and soil and its reduced application to control pepper anthracnose

Jiajin Song, Zhiruo Zheng, Hua Fang, Tongxin Li, Zishan Wu, Mengting Qiu, Hongjian Shen, Jiajia Mei, Lihui Xu

2023Ecotoxicology and Environmental Safety15 citationsDOIOpen Access PDF

Abstract

The initial deposition amount, dissipation dynamics, retention rate, and field control efficacy of difenoconazole in pepper-soil system were studied with different application dosages, planting regions and patterns. The initial deposition amount of difenoconazole under the same application dosage showed the following order: fruits < cultivated soils < lower stems < upper stems < lower leaves < upper leaves, open field < greenhouse, and Changjiang < Cixi < Hefei < Langfang, respectively, which increased with increasing application dosage. The dissipation rates in leaves, stems, fruits and cultivated soils exhibited an initially fast and then slow trend, while the retention rates displayed a tendency of first increasing and then stabilizing with increasing application dosages. After 7 d of difenoconazole application, the retention rates at five concentrations were 10.3%- 39.1%, and the field efficacy mostly reached the minimum effective dose. These results suggested that difenoconazole could be reduced by 25% based on the minimum recommended dose meeting the requirements of field control efficacy for controlling pepper anthracnose.

Topics & Concepts

PepperSowingGreenhouseSoil waterHorticultureAgronomyEnvironmental scienceDeposition (geology)ChemistryBiologySoil sciencePaleontologySedimentInsect and Pesticide ResearchPlant and animal studiesPesticide Residue Analysis and Safety