Degradation Characteristics of Three Different Pyrethroid Pesticides in Soil in Hainan

ZHENG Zhao; XU Jiabin; WANG Wei; ZOU Lijun; LIANG Xiaoyu; WANG Meng; ZHANG Yu

doi:10.15886/j.cnki.rdswxb.2019.03.007

Message Board

Respected readers, authors and reviewers, you can add comments to this page on any questions about the contribution, review, editing and publication of this journal. We will give you an answer as soon as possible. Thank you for your support!

Name

E-mail

Phone

Title

Content

Verification Code

Volume 10 Issue 3

May 2019

Turn off MathJax

Article Contents

Article Navigation > Journal of Tropical Biology > 2019 > 10(3): 243-248

ZHENG Zhao, XU Jiabin, WANG Wei, ZOU Lijun, LIANG Xiaoyu, WANG Meng, ZHANG Yu. Degradation Characteristics of Three Different Pyrethroid Pesticides in Soil in Hainan[J]. Journal of Tropical Biology, 2019, 10(3): 243-248. doi: 10.15886/j.cnki.rdswxb.2019.03.007

Citation:

ZHENG Zhao, XU Jiabin, WANG Wei, ZOU Lijun, LIANG Xiaoyu, WANG Meng, ZHANG Yu. Degradation Characteristics of Three Different Pyrethroid Pesticides in Soil in Hainan[J]. Journal of Tropical Biology, 2019, 10(3): 243-248. doi: 10.15886/j.cnki.rdswxb.2019.03.007

Degradation Characteristics of Three Different Pyrethroid Pesticides in Soil in Hainan

doi: 10.15886/j.cnki.rdswxb.2019.03.007

ZHENG Zhao¹,
XU Jiabin¹,
WANG Wei¹,
ZOU Lijun¹,
LIANG Xiaoyu^1,2,
WANG Meng^{1,2
,},
ZHANG Yu^{1,2
,}

1. College of Plant Protection, Hainan University, Haikou, Hainan 570228, China;
2. Ministry of Agriculture and Rural Affairs Agricultural Products Quality and Safety Risk Assessment Laboratory, Haikou, Hainan 570228, China

Received Date: 2019-07-03

Abstract

The degradation characteristics of three pyrethroid pesticides, cyhalothrin and beta-cypermethrin and bifenthrin, were studied in sandy soil and loam in Hainan province with indoor simulation method. The results showed that the degradation of these three pesticides in soils conformed to the first kinetic equation. Under aerobic condition, the cyhalothrin and beta-cypermethrin and bifenthrin had a respective half-life degradation of 115.52 d, 115.52 d and 99.02 d in sandy soil, and 99.02 d, 49.51 d and 99.02 d in loam. Under anaerobic condition, the half-life degradation of cyhalothrin and beta-cypermethrin and bifenthrin were 49.51 d, 49.51 d and 57.76 d in sandy soil, and 30.13 d, 34.66 d and 57.76 d in loam, respectively. These results showed that the degradation rates of cyhalothrin and beta-cypermethrin and bifenthrin were lower in sandy soil than in loam. The degradation rates of cyhalothrin and beta-cypermethrin and bifenthrin were significantly higher under anaerobic condition than under aerobic condition.
- pyrethroid,
- soil,
- degradation,
- ecological safety

References

[1]	巴特, 李学峰, 刘细平.拟除虫菊酯降解行为研究进展[C]// 北京农药学会.第二届农药与环境安全国际学术研讨会论文集.北京:农业环境科学学报, 2005.
[2]	REGUEIRO J, LLOMPART M, GARCIA-JARES C.Development of a High-throughput Method for the Determination Of Organochlorinated Compounds, Nitromusks and Pyrethroid Insecticides in Indoor Dust[J].Journal of Chromatography A, 2007, 1174 (1/2):112-124.
[3]	LU C, ADAMKIEWICZ G, ATTFIELD K R, et al.Household pesticide contamination from indoor pest control applications in urban low-income public housing dwellings:a community-based participatory research[J].Environ Sci Technol, 2013, 47 (4):2018-2025.
[4]	SODERLUND D M, CLARK J M, SHEETS L P, et al.Mechanisms of pyrethroid neurotoxicity implications for cumulative risk assessment[J].Toxicology, 2002, 171:3-59.
[5]	蒋长征, 戎江瑞, 张立军, 等.宁波市养殖水产品拟除虫菊酯类农药残留调查[J].卫生研究, 2007 (6):692-693.
[6]	李雪飞, 杨艳刚, 孙胜龙, 等.蔬菜中有机磷、拟除虫菊酯类农药残留调查[J].环境与健康杂志, 2006, 23 (5) 418-420.
[7]	RIEDERER A M, HUNTER J R E, HAYDEN S W, et al.Pyrethroid and organophosphorus pesticides in composite diet Samples from Atlanta, USA adults[J].Environmental Science & Technology, 2010, 44 (1):483-490.
[8]	胡春容, 李君.拟除虫菊酯农药的毒性研究进展[J].毒理学杂志, 2005, 19 (3):239-241.
[9]	KASAT K, GO V, POGO B G T.Effects of pyrethroid insecticides and estrogen on WNT10B Proto-oncogene expression[J].Environment International, 2002, 28 (5):429-432.
[10]	徐竞.猪肉中拟除虫菊酯类农药残留的测定[J].肉类工业, 2009 (1):30-31.
[11]	CORCELLAS C, FEO M L, TORRES J P.Pyrethroids in Human Breast Milk Occurrence and Nursing Daily Intake Estimation[J].Environment International, 2012, 47:17-22.
[12]	XIA Y, BIAN Q, XU L, et al.Genotoxic effects on human spermatozoa among pesticide factory workers exposed to fenvalerate[J].Toxicology, 2004, 203 (1):49-60.
[13]	张辉, 刘广民, 姜桂兰, 等.农药在土壤环境中迁移转化规律研究的现状与展望[J].世界地质, 2000, 19 (2):199-204.
[14]	吉哲蓉, 张健, 王萌, 等.3种拟除虫菊酯类农药在不同土壤中的吸附行为特性分析[J].农药, 2016, 55 (11):821-824.
[15]	许佳彬, 郑钊, 王璐芳, 等.三种拟除虫菊酯类农药在砂土和壤土中的淋溶行为[J].农药学学报, 2018, 20 (6):797-802.
[16]	朱忠林, 单正军, 蔡道基.溴氟菊酯的光解、水解与土壤降解[J].农村生态环境, 1996, 12 (4):5-7.
[17]	中华人民共和国农业部农药检定所.NY/T 761-2018农作物中农药残留试验准则 [S].北京:中国农业出版社, 2018.
[18]	何华, 徐存华, 孙成, 等.高效氯氰菊酯在土壤中的降解动态[J].中国环境科学, 2003, 23 (5):43-45.
[19]	王璞, 何明远, 刘勇, 等.4种拟除虫菊酯类农药在苎麻与土壤中的残留消解动态及最终残留研究[J].湖南农业科学, 2016 (3):85-89.
[20]	王彦辉, 柏连阳, 李欣, 等.高效氯氰菊酯在柑橘和土壤中的残留消解动态[J].农药, 2011, 50 (6):428-430.
[21]	朱玉杰, 董旭, 王梅, 等.三唑酰草胺在不同类型土壤中的降解特性[J].农药学学报, 2019, 21 (1):112-118.
[22]	虞云龙, 樊德方, 陈鹤鑫.农药微生物降解的研究现状与发展策略[J].环境科学进展, 1996, 4 (3):28-36.
[23]	康燕玉.联苯菊酯在土壤中残留动态以及相关降解影响因子的研究[J].农业环境与发展, 2013 (1):86-89.
[24]	佘佳荣, 杨仁斌, 杨周宁, 等.高效氯氟氰菊酯水乳剂在小白菜和土壤中的残留动态研究[J].中国农学通报, 2010, 26 (20):344-348.
[25]	赵文, 赵一杰, 王惟萍, 等.实验室条件下威百亩及异硫氰酸甲酯在土壤中的降解特性[J].农药学学报, 2013, 15 (5):567-573.
[26]	张春荣, 汤涛, 何红梅, 等.异噁唑草酮在土壤表面光解及在土壤中的降解和淋溶特性[J].农药学学报, 2019, 21 (3):352-358.
[27]	张逸飞, 刘娟娟, 孟磊, 等.农业利用对海南省天然次生林土壤微生物的影响[J].生态学报, 2015, 35 (21):6983-6992.

Proportional views

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Get Citation

PDF

XML

Article views(7) PDF downloads(0) Cited by()

Proportional views

Degradation Characteristics of Three Different Pyrethroid Pesticides in Soil in Hainan

1. College of Plant Protection, Hainan University, Haikou, Hainan 570228, China;

2. Ministry of Agriculture and Rural Affairs Agricultural Products Quality and Safety Risk Assessment Laboratory, Haikou, Hainan 570228, China

Received Date: 2019-07-03

Key words:

Abstract: The degradation characteristics of three pyrethroid pesticides, cyhalothrin and beta-cypermethrin and bifenthrin, were studied in sandy soil and loam in Hainan province with indoor simulation method. The results showed that the degradation of these three pesticides in soils conformed to the first kinetic equation. Under aerobic condition, the cyhalothrin and beta-cypermethrin and bifenthrin had a respective half-life degradation of 115.52 d, 115.52 d and 99.02 d in sandy soil, and 99.02 d, 49.51 d and 99.02 d in loam. Under anaerobic condition, the half-life degradation of cyhalothrin and beta-cypermethrin and bifenthrin were 49.51 d, 49.51 d and 57.76 d in sandy soil, and 30.13 d, 34.66 d and 57.76 d in loam, respectively. These results showed that the degradation rates of cyhalothrin and beta-cypermethrin and bifenthrin were lower in sandy soil than in loam. The degradation rates of cyhalothrin and beta-cypermethrin and bifenthrin were significantly higher under anaerobic condition than under aerobic condition.

HTML

Reference (27)

[1]	巴特, 李学峰, 刘细平.拟除虫菊酯降解行为研究进展[C]// 北京农药学会.第二届农药与环境安全国际学术研讨会论文集.北京:农业环境科学学报, 2005.
[2]	REGUEIRO J, LLOMPART M, GARCIA-JARES C.Development of a High-throughput Method for the Determination Of Organochlorinated Compounds, Nitromusks and Pyrethroid Insecticides in Indoor Dust[J].Journal of Chromatography A, 2007, 1174 (1/2):112-124.
[3]	LU C, ADAMKIEWICZ G, ATTFIELD K R, et al.Household pesticide contamination from indoor pest control applications in urban low-income public housing dwellings:a community-based participatory research[J].Environ Sci Technol, 2013, 47 (4):2018-2025.
[4]	SODERLUND D M, CLARK J M, SHEETS L P, et al.Mechanisms of pyrethroid neurotoxicity implications for cumulative risk assessment[J].Toxicology, 2002, 171:3-59.
[5]	蒋长征, 戎江瑞, 张立军, 等.宁波市养殖水产品拟除虫菊酯类农药残留调查[J].卫生研究, 2007 (6):692-693.
[6]	李雪飞, 杨艳刚, 孙胜龙, 等.蔬菜中有机磷、拟除虫菊酯类农药残留调查[J].环境与健康杂志, 2006, 23 (5) 418-420.
[7]	RIEDERER A M, HUNTER J R E, HAYDEN S W, et al.Pyrethroid and organophosphorus pesticides in composite diet Samples from Atlanta, USA adults[J].Environmental Science & Technology, 2010, 44 (1):483-490.
[8]	胡春容, 李君.拟除虫菊酯农药的毒性研究进展[J].毒理学杂志, 2005, 19 (3):239-241.
[9]	KASAT K, GO V, POGO B G T.Effects of pyrethroid insecticides and estrogen on WNT10B Proto-oncogene expression[J].Environment International, 2002, 28 (5):429-432.
[10]	徐竞.猪肉中拟除虫菊酯类农药残留的测定[J].肉类工业, 2009 (1):30-31.
[11]	CORCELLAS C, FEO M L, TORRES J P.Pyrethroids in Human Breast Milk Occurrence and Nursing Daily Intake Estimation[J].Environment International, 2012, 47:17-22.
[12]	XIA Y, BIAN Q, XU L, et al.Genotoxic effects on human spermatozoa among pesticide factory workers exposed to fenvalerate[J].Toxicology, 2004, 203 (1):49-60.
[13]	张辉, 刘广民, 姜桂兰, 等.农药在土壤环境中迁移转化规律研究的现状与展望[J].世界地质, 2000, 19 (2):199-204.
[14]	吉哲蓉, 张健, 王萌, 等.3种拟除虫菊酯类农药在不同土壤中的吸附行为特性分析[J].农药, 2016, 55 (11):821-824.
[15]	许佳彬, 郑钊, 王璐芳, 等.三种拟除虫菊酯类农药在砂土和壤土中的淋溶行为[J].农药学学报, 2018, 20 (6):797-802.
[16]	朱忠林, 单正军, 蔡道基.溴氟菊酯的光解、水解与土壤降解[J].农村生态环境, 1996, 12 (4):5-7.
[17]	中华人民共和国农业部农药检定所.NY/T 761-2018农作物中农药残留试验准则 [S].北京:中国农业出版社, 2018.
[18]	何华, 徐存华, 孙成, 等.高效氯氰菊酯在土壤中的降解动态[J].中国环境科学, 2003, 23 (5):43-45.
[19]	王璞, 何明远, 刘勇, 等.4种拟除虫菊酯类农药在苎麻与土壤中的残留消解动态及最终残留研究[J].湖南农业科学, 2016 (3):85-89.
[20]	王彦辉, 柏连阳, 李欣, 等.高效氯氰菊酯在柑橘和土壤中的残留消解动态[J].农药, 2011, 50 (6):428-430.
[21]	朱玉杰, 董旭, 王梅, 等.三唑酰草胺在不同类型土壤中的降解特性[J].农药学学报, 2019, 21 (1):112-118.
[22]	虞云龙, 樊德方, 陈鹤鑫.农药微生物降解的研究现状与发展策略[J].环境科学进展, 1996, 4 (3):28-36.
[23]	康燕玉.联苯菊酯在土壤中残留动态以及相关降解影响因子的研究[J].农业环境与发展, 2013 (1):86-89.
[24]	佘佳荣, 杨仁斌, 杨周宁, 等.高效氯氟氰菊酯水乳剂在小白菜和土壤中的残留动态研究[J].中国农学通报, 2010, 26 (20):344-348.
[25]	赵文, 赵一杰, 王惟萍, 等.实验室条件下威百亩及异硫氰酸甲酯在土壤中的降解特性[J].农药学学报, 2013, 15 (5):567-573.
[26]	张春荣, 汤涛, 何红梅, 等.异噁唑草酮在土壤表面光解及在土壤中的降解和淋溶特性[J].农药学学报, 2019, 21 (3):352-358.
[27]	张逸飞, 刘娟娟, 孟磊, 等.农业利用对海南省天然次生林土壤微生物的影响[J].生态学报, 2015, 35 (21):6983-6992.

Message Board

Degradation Characteristics of Three Different Pyrethroid Pesticides in Soil in Hainan

doi: 10.15886/j.cnki.rdswxb.2019.03.007

Abstract

References

Proportional views

通讯作者: 陈斌, bchen63@163.com

Proportional views

Related