Diuron Sorption, Desorption and Degradation in Anthropogenic Soils Compared to Sandy Soil

IF 0.8 Q3 Agricultural and Biological Sciences

Planta Daninha Pub Date : 2020-01-01 DOI:10.1590/s0100-83582020380100034

C. S. Almeida, K. F. Mendes, L. Junqueira, F. Alonso, G. M. Chitolina, V. L. Tornisielo

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引用次数: 6

Abstract

ABSTRACT: The aim of this study was to evaluate diuron sorption, desorption and degradation in two anthropogenic soils (Terra Preta de Índio - TPI) in contrast to a sandy soil (Quartzarenic Neosol - NQo). Sorption-desorption studies were performed by the batch equilibrium method and biodegradation in biometric bottles using radiolabeled diuron in 14C. Freundlich coefficient (Kf) values ranged from 13.50 to 50.41 µmol(1-1/n) L1/n kg-1 in TPI-2 and TPI-1, respectively, indicating very high diuron sorption in anthropogenic soils, following the order: TPI-1 ≥ TPI-2 > NQo (99.10, 98.95 and 60.8%, respectively). Diuron desorption was very low in anthropogenic soils, ranging from 1.36 (TPI-1) to 1.70% (TPI-2), and 24% to NQo. Accumulated diuron mineralization to 14C-CO2 was < 3% at 70 days after herbicide application, regardless of the assessed soil. Formation of 35 and 44% residue bound to TPI-2 and TPI-1 was observed, higher than to NQo (17%). In contrast, the residue extracted from NQo varied from 72 to 91%, ranging from 48 to 83% for TPI-1 and TPI-2 during the incubation period. The degradation half-life (DT50) of diuron in anthropogenic soils was of 66.65 and 68.63 days for TPI-1 and TPI-2, respectively, while a period of 88.86 days was observed for NQo. The formation of only one herbicide metabolite in all soils was evidenced. The application of diuron in arable areas in the presence of anthropogenic Amazonian soils may lead to inefficient chemical weed control, since these soils may reduce herbicide soil bioavailability due to high OC contents, where high sorption and low herbicide desorption are noted, as well as faster degradation compared to sandy soil.

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人工土壤与沙土对迪乌隆的吸附、解吸与降解

摘要:研究了人工土壤(Terra Preta de Índio - TPI)和砂质土壤(石英系Neosol - NQo)对双脲的吸附、解吸和降解情况。采用批平衡法进行了吸附-解吸研究，并在14C中使用放射性标记的diuron在生物识别瓶中进行了生物降解。TPI-2和TPI-1的Freundlich系数(Kf)值分别为13.50 ~ 50.41µmol(1-1/n) L1/n kg-1，表明人工土壤对diuron的吸附性非常高，其顺序为:TPI-1≥TPI-2 > NQo(分别为99.10、98.95和60.8%)。人工土壤对Diuron的解吸率很低，在1.36 (TPI-1) ~ 1.70% (TPI-2)之间，在24% ~ NQo之间。在施用除草剂70天后，无论评估的土壤如何，累积的diuron矿化到14C-CO2 < 3%。与TPI-2和TPI-1结合的残基分别为35%和44%，高于与NQo结合的残基(17%)。相反，NQo在孵育期间的残留在72% ~ 91%之间，TPI-1和TPI-2的残留在48% ~ 83%之间。人工土壤中，TPI-1和TPI-2的降解半衰期(DT50)分别为66.65和68.63 d, NQo的降解半衰期为88.86 d。所有土壤中仅形成一种除草剂代谢物。在亚马逊地区人工土壤的可耕地施用迪乌隆可能导致化学杂草控制效率低下，因为这些土壤由于OC含量高，具有高吸附性和低解吸性，并且与沙质土壤相比降解更快，可能会降低除草剂土壤的生物有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Planta Daninha Agricultural and Biological Sciences-Plant Science

自引率

0.00%

发文量

审稿时长

16 weeks

期刊介绍： Planta Daninha is a scientific journal published by the Brazilian Society of Weed Science (SBCPD - Sociedade Brasileira da Ciência das Plantas Daninhas). Papers submitted for publication must be sent through an electronic system, on http://www.scielo.br/pd. Works may be written in Portuguese, English, or Spanish, and will be accepted after being reviewed and approved by the Editorial Board. Only papers that have not been published or submitted for publication in other media will be accepted. Articles in Portuguese will be translated to English after being properly corrected and authorized by the authors. Planta Daninha has with goal to publish genuine technical-scientific papers and literature reviews from a critical perspective on Biology, weed management, and related topics.