Response of microbial community to a new fungicide fluopyram in the silty-loam agricultural soil

文献类型: 外文期刊

第一作者: Xu, Jun

作者: Xu, Jun;Dong, Fengshou;Liu, Xingang;Wu, Xiaohu;Zheng, Yongquan;Zhang, Ying

作者机构:

关键词: Fluopyram;Soil microbial activity;Soil microbial community;PLFA;Biolog

期刊名称:ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY ( 影响因子:6.291; 五年影响因子:6.393 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The impacts of fluopyram on a soil microbial community were studied at three application rates: at the recommended field rate (T1, 0.5 mg/kg soil), three-fold recommended field rate (T3, 1.5 mg/kg soil) and ten-fold recommended field rate (T10, 5 mg/kg soil). Soil samples were taken after 7, 15, 30, 45, 60 and 90 days of application to determine the fluopyram residue and microbial properties (i.e., basal respiration, substrate-induced respiration, microbial biomass carbon, microbial community function and structure). The half-lives of the fluopyram at levels of 0.5, 1.5 and 5 mg/kg in soil were calculated to be 64.2, 81.5 and 93.6 days, respectively. The results demonstrated that fluopyram treatment (T1, T3 and T10) decreased microbial biomass C but increased the basal respiration, substrate-induced respiration, and ecophysiological indices (qCO(2)). Average well color development (AWCD) represents the oxidative capacity of soil microorganisms cultivated in the BIOLOG micro-plates and usually indicates the overall microbial metabolic capacity. The BIOLOG results revealed that the AWCD in the soil treated with 1.5 and 5 mg/kg fluopyram (T3 and T10) was significantly lower than that of the control during the incubation period. A similar variation in the diversity indices (Simpson index and McIntosh index) was observed. Phospholipid fatty acid (PLFA) analysis revealed that the addition of fluopyram decreased the total amount of PLFAs, bacterial biomass (both Gram-positive (GP) bacteria and Gram-negative (GN)), fungal biomass, the ratios of the GN/GP and fungi/bacteria at all incubation times. Principal component analyses (PCA) suggested that the addition of fluopyram shifted the soil microbial community structure and function. Hence, fluopyram has a harmful effect on overall soil microbial activity, and changed soil microbial community structure and function. (C) 2014 Published by Elsevier Inc.

分类号: X`R12`R99

  • 相关文献

[1]Responses of periphyton morphology, structure, and function to extreme nutrient loading. Lu, Haiying,Feng, Yanfang,Yang, Linzhang,Lu, Haiying,Feng, Yanfang,Wu, Yonghong,Yang, Linzhang,Lu, Haiying,Shao, Hongbo,Wang, Jinhua.

[2]Microcalorimetric assessment of microbial activity in long-term fertilization experimental soils of Southern China. Ahamadou, Bocar,Huang, Qiaoyun,Chen, Wenli,Zhang, Jingyuan,Ahamadou, Bocar,Huang, Qiaoyun,Mohamed, Ibrahim,Cai, Peng,Liang, Wei,Wen, Shilin.

[3]Elevated ozone effects on soil nitrogen cycling differ among wheat cultivars. Wu, Honghui,Li, Qi,Lu, Caiyan,Zhang, Lili,Yu, Qiang,Wu, Honghui,Yu, Qiang,Zhu, Jianguo,Dijkstra, Feike A..

[4]Soil microbial activity, aggregation and nutrient responses to straw pulping liquor in corn cropping. Xiao, C.,Stevens, R.,Fauci, M.,Bolton, R.,Lewis, M.,McKean, W. T.,Bezdicek, D. F.,Pan, W. L.. 2007

[5]Microcalorimetric study of the effects of long-term fertilization on soil microbial activity in a wheat field on the Loess Plateau. Zhang, Qi,Liu, Xiaomei,Ma, Xiaojun,Wu, Fasi,An, Lizhe,Feng, Huyuan,Fang, Jian,Fan, Tinglu. 2014

[6]Soil microbial activity and a free-living nematode community in the playa and in the sandy biological crust of the Negev Desert. Pen-Mouratov, Stanislav,Hu, Cheng,Hindin, Etan,Steinberger, Yosef,Hu, Cheng.

[7]Soil Microbial Activity During Secondary Vegetation Succession in Semiarid Abandoned Lands of Loess Plateau. Jiang Jin-Ping,Xiong You-Cai,Li Feng-Min,Jiang Hong-Mei,Ye De-You,Jiang Jin-Ping,Song Ya-Jie.

[8]Genetic Diversity of Nitrogen-Fixing and Plant Growth Promoting Pseudomonas Species Isolated from Sugarcane Rhizosphere. Singh, Rajesh K.,Singh, Pratiksha,Song, Qi-Qi,Xing, Yong-Xiu,Yang, Li-Tao,Li, Yang-Rui,Li, Yang-Rui. 2017

[9]Straw Degradation Behaviors under Different Conditions of Relative Air Humidity and Ultraviolet-A Irradiation. Li, Yunlong,Huang, Hongying,Wu, Guofeng,Chang, Zhizhou,Li, Yunlong. 2016

[10]The effect of long-term reclamation on enzyme activities and microbial community structure of saline soil at Shangyu, China. Liu, Chen,Xu, JianMing,Liu, Chen,Ding, NengFei,Fu, QingLin,Guo, Bin,Lin, YiCheng,Li, Hua,Li, Ningyu. 2013

[11]Application of combined physicochemical and biological processes for enhanced treatment of avermectin fermentation wastewater. Yu, Anfeng,Huang, PengYu,Feng, Quan,Chu, Libing,Xing, Xin-Hui,Gui, Dawei,Wang, Haisheng. 2009

[12]Effects of cotton straw amendment on soil fertility and microbial communities. Huang, Wuren,Bai, Zhihui,Hu, Qing,Lv, Xin,Zhuang, Guoqiang,Xu, Shengjun,Qi, Hongyan,Zhang, Hongxun,Huang, Wuren,Hoefel, Daniel,Hoefel, Daniel. 2012

[13]The Effects of Radiation Pollution on the Population Diversities and Metabolic Characteristics of Soil Microorganisms. Gu, Meiying,Zhang, Zhidong,Wang, Wei,Tang, Qiyong,Song, Suqing,Zhu, Jing,Xie, Yuqing,Zhang, Lijuan,Gu, Meiying,Zhang, Zhidong,Wang, Wei.

[14]Distribution of soil nutrients, extracellular enzyme activities and microbial communities across particle-size fractions in a long-term fertilizer experiment. Zhang, Qian,Zhou, Wei,Liang, Guoqing,Sun, Jingwen,Wang, Xiubin,He, Ping.

[15]Impact of imazethapyr on the microbial community structure in agricultural soils. Zhang, Changpeng,Xu, Jun,Liu, Xingang,Dong, Fengshou,Kong, Zhiqiang,Sheng, Yu,Zheng, Yongquan,Zhang, Changpeng.

[16]The impacts of cypermethrin pesticide application on the non-target microbial community of the pepper plant phyllosphere. Zhang, Baoguo,Bai, Zhihui,Tang, Ling,Zhuang, Guoqiang,Hoefel, Daniel,Wang, Xiaoyi,Li, Baoju,Li, Zuming.

[17]Response of the soil microbial community to imazethapyr application in a soybean field. Guo, Liqun,Dong, Fengshou,Liu, Xingang,Wu, Xiaohu,Sheng, Yu,Zhang, Ying,Zheng, Yongquan. 2013

[18]Soil quality assessment of yellow clayey paddy soils with different productivity. Liu, Zhanjun,Zhou, Wei,Li, Shutian,Ai, Chao,Liu, Zhanjun,Shen, Jianbo. 2014

[19]Effect of tetraconazole application on the soil microbial community. Zhang, Wenwen,Xu, Jun,Dong, Fengshou,Liu, Xingang,Zhang, Ying,Wu, Xiaohu,Zheng, Yongquan,Zhang, Wenwen.

[20]Assessing soil quality of gleyed paddy soils with different productivities in subtropical China. Liu, Zhanjun,Lv, Jialong,Liu, Zhanjun,Zhou, Wei,Li, Shutian,He, Ping,Liang, Guoqing,Jin, Hui.

作者其他论文 更多>>

微信小程序