除草剂氟磺胺草醚在不同土壤中的环境行为

生态学杂志

除草剂氟磺胺草醚在不同土壤中的环境行为

郭玉莲^1**,宋伟丰²,李明²

(¹黑龙江省农业科学院植物保护研究所，哈尔滨 150086； ²黑龙江省农业科学院农药应用研究中心，哈尔滨 150086)

出版日期:2014-02-10 发布日期:2014-02-10

Environmental behavior of herbicide fomesafen in different soil types.

GUO Yu-lian^1**, SONG Wei-feng², LI Ming^2

(¹Institute of Plant Protection, Heilongjiang Provincial Academy of Agricultural Sciences, Harbin 150086, China; ²Pesticide Research Center, Heilongjiang Provincial Academy of Agricultural Sciences, Harbin 150086, China)

Online:2014-02-10 Published:2014-02-10

摘要/Abstract

摘要： 利用液相色谱分析法，研究了氟磺胺草醚在不同类型土壤（白浆土、草甸土、黑土）中的残留和淋溶动态。结果显示，氟磺胺草醚以有效成分1350 g·hm^-2的剂量施用时，在3种类型土壤中的降解符合一级动力学反应，半衰期分别为：草甸土25.7～26.7 d，白浆土16.9～19.3 d，黑土26.7～30.1 d；在120 d内，氟磺胺草醚在不断降解代谢的同时，逐渐向深层土壤中淋溶，但多数氟磺胺草醚滞留在表层土壤中。在白浆土中，施用氟磺胺草醚30 d后淋溶深度达到30 cm，第60天10～30 cm土层的氟磺胺草醚浓度达到最大；在草甸土和黑土中，氟磺胺草醚施用后第5天的淋溶深度即达30 cm，第14天10～30 cm土层的氟磺胺草醚浓度达到最大。结果表明，氟磺胺草醚在有机质含量较高的土壤环境中不容易降解，土壤理化性质是影响氟磺胺草醚淋溶作用的主要因素之一，在草甸土和黑土中氟磺胺草醚对后茬作物的残留药害及对地下水的潜在污染大于白浆土。

关键词: 年代际变化, 带鱼, 空间自相关, 东海, 热点分析

Abstract: In this study, fomesafen residue and its leaching dynamics in three types of soil were clarified by high performance liquid chromatography (HPLC). When fomesafen was applied with the active ingredient at 1350 g·hm^-2, the halflives of degradation in the meadow, albic and black soils were 25.7-26.7, 16.9-19.3, and 26.7-30.1 days, respectively, which were consistent with the firstorder reaction kinetics model. Fomesafen leached gradually with its degradation in soil during 120 days, while most of it retained in the surface soil. In the albic soil, fomesafen leached to 30 cm after 30 days of application and the concentration of fomesafen in 10-30 cm soil reached the maximum after 60 days. In the meadow and black soils, the leaching depths were up to 30 cm after 5 days, and the concentrations of fomesafen in 10-30 cm soil reached the maximum after 14 days. These results indicate that fomesafen is hard to degrade in a soil with a high organic matter content, and the soil physical and chemical properties are main factors influencing fomesafen leaching. The residue toxicity of fomesafen on following rotation crops and its potential pollution to groundwater in the meadow soil and black soils were heavier than in the albic soil.

Key words: hotspot analysis, inter-decadal variation, spatial autocorrelation, East China Sea., Trichiurus japonicus

郭玉莲1**,宋伟丰2,李明2. 除草剂氟磺胺草醚在不同土壤中的环境行为[J]. 生态学杂志.

GUO Yu-lian1**, SONG Wei-feng2, LI Ming2. Environmental behavior of herbicide fomesafen in different soil types.[J]. cje.

[1]	乔斌, 颜玉倩, 张婷华, 李秀阳, 张睿, 李晓东, 李甫, 李素雲, 祝存兄, 周秉荣. 基于土地利用变化的西宁市景观生态风险识别及优化策略 [J]. 生态学杂志, 2023, 42(8): 2020-2031.
[2]	杨林林, 姜亚洲, 张辉, 袁兴伟, 刘尊雷. 黄海南部和东海太平洋褶柔鱼适宜栖息地的季节变化及环境驱动因素 [J]. 生态学杂志, 2023, 42(3): 685-693.
[3]	刘玉佳, 彭建, 李刚勇, 韩万强, 刘亮, 关靖云, 巨喜峰, 郑江华. 基于GEE的库鲁斯台草原生态环境评价 [J]. 生态学杂志, 2023, 42(11): 2776-2785.
[4]	何钊全, 尚雪, 张铜会, 云建英. 近20年陕北黄土丘陵区景观生态风险时空变化及其冷热点格局 [J]. 生态学杂志, 2023, 42(10): 2514-2525.
[5]	林一诚, 郑景明, 周怡宁, 关颖慧, 周金星. 基于InVEST模型的围场县小滦河流域碳储量空间分布及热点区域分析 [J]. 生态学杂志, 2023, 42(10): 2536-2544.
[6]	李红梅, 巴贺贾依娜尔·铁木尔别克, 常顺利, 张毓涛. 天山北坡植被覆盖近30年时空变化及预测分析 [J]. 生态学杂志, 2022, 41(12): 2414-2423.
[7]	沈中健, 梁晨. 闽三角城市群冷岛需求评价及空间分异 [J]. 生态学杂志, 2022, 41(10): 2017-2025.
[8]	王旭熙, 彭立, 刘守江, 魏芸云. 中国西南山区城市建设用地扩张特征及其驱动机制 [J]. 生态学杂志, 2021, 40(9): 2895-2903.
[9]	何苏玲, 邹凤琼, 王金亮. 基于AHP和MSE赋权法的龙南县生态敏感性评价 [J]. 生态学杂志, 2021, 40(9): 2927-2935.
[10]	伍娬, 王志杰. 喀斯特山地城市内山体绿地对城市热岛的减温效应——以安顺市西秀区为例 [J]. 生态学杂志, 2021, 40(3): 855-863.
[11]	杨庚, 张振佳, 曹银贵, 庄亦宁, 杨凯, 白中科. 晋北大型露天矿区景观生态风险时空异质性 [J]. 生态学杂志, 2021, 40(1): 187-198.
[12]	闫赛佳,吴志伟,付婧婧,顾先丽,张宇婧,杜林翰. 基于不同空间尺度的林火面积分布格局——以江西省为例 [J]. 生态学杂志, 2020, 39(7): 2327-2336.
[13]	沈中健,曾坚,梁晨. 闽南三市绿地景观格局与地表温度的空间关系 [J]. 生态学杂志, 2020, 39(4): 1309-1317.
[14]	孙骞,王兵,周怀平,王晓军,解文艳,杨振兴. 黄土丘陵区小流域土壤碳氮磷生态化学计量特征的空间变异性 [J]. 生态学杂志, 2020, 39(3): 766-774.
[15]	陈思明,王宁,秦艳芳,邹小兴. 河口湿地不同土层有机质的水平异质性与自相关性 [J]. 生态学杂志, 2019, 38(9): 2805-2812.