Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine

Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine

To investigate responses difference of soil potential nitrification rates (PNR) to heavy metals and antibiotics, batch toxicity experiments of Cu and sulfadiazine (SDZ) were conducted in four typical soils which were collected from different locations of China. Toxic differences of Cu and SDZ to soi...

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Main Authors: Qiang Liao, Mingzhu Li, Yuanpeng Dong, Yifei Shao, Xijuan Liu, Xinxin Hu, Menghong Li, Aiju Liu
Format: Article
Language:English
Published: Taylor & Francis Group 2019-01-01
Series:Environmental Pollutants & Bioavailability
Subjects:
heavy metal
antibiotic
soil
pnr
Online Access:http://dx.doi.org/10.1080/26395940.2019.1620132
id doaj-2ea76e827c6243aebd09af5f11de18df
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spelling doaj-2ea76e827c6243aebd09af5f11de18df2020-11-25T01:16:24ZengTaylor & Francis GroupEnvironmental Pollutants & Bioavailability2639-59402019-01-0131121922510.1080/26395940.2019.16201321620132Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazineQiang Liao0Mingzhu Li1Yuanpeng Dong2Yifei Shao3Xijuan Liu4Xinxin Hu5Menghong Li6Aiju Liu7Shandong University of TechnologyShandong University of TechnologyShandong University of TechnologyShandong University of TechnologyShandong University of TechnologyShandong University of TechnologyShandong University of TechnologyShandong University of TechnologyTo investigate responses difference of soil potential nitrification rates (PNR) to heavy metals and antibiotics, batch toxicity experiments of Cu and sulfadiazine (SDZ) were conducted in four typical soils which were collected from different locations of China. Toxic differences of Cu and SDZ to soil PNR were evaluated based on their values of EC20 and EC50 calculated with logistic model. It was found that soil nitrification was a good indicator of Cu contamination in soils except for paddy soil. For SDZ, their ECX values were significantly higher than its concentration level (0.002 ~ 0.760 mg·kg-1) in soils. Thus, it was concluded that soil nitrification might be more sensitive to Cu than SDZ in field soil. The further Pearson correlation analysis indicated that the response of soil PNR to Cu and SDZ contamination were significantly related with soil PNR0 and pH.http://dx.doi.org/10.1080/26395940.2019.1620132heavy metalantibioticsoilpnr
collection DOAJ
language English
format Article
sources DOAJ
author Qiang Liao
Mingzhu Li
Yuanpeng Dong
Yifei Shao
Xijuan Liu
Xinxin Hu
Menghong Li
Aiju Liu
spellingShingle Qiang Liao
Mingzhu Li
Yuanpeng Dong
Yifei Shao
Xijuan Liu
Xinxin Hu
Menghong Li
Aiju Liu
Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine
Environmental Pollutants & Bioavailability
heavy metal
antibiotic
soil
pnr
author_facet Qiang Liao
Mingzhu Li
Yuanpeng Dong
Yifei Shao
Xijuan Liu
Xinxin Hu
Menghong Li
Aiju Liu
author_sort Qiang Liao
title Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine
title_short Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine
title_full Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine
title_fullStr Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine
title_full_unstemmed Responses difference analysis of soil potential nitrification rates to Cu and sulfadiazine
title_sort responses difference analysis of soil potential nitrification rates to cu and sulfadiazine
publisher Taylor & Francis Group
series Environmental Pollutants & Bioavailability
issn 2639-5940
publishDate 2019-01-01
description To investigate responses difference of soil potential nitrification rates (PNR) to heavy metals and antibiotics, batch toxicity experiments of Cu and sulfadiazine (SDZ) were conducted in four typical soils which were collected from different locations of China. Toxic differences of Cu and SDZ to soil PNR were evaluated based on their values of EC20 and EC50 calculated with logistic model. It was found that soil nitrification was a good indicator of Cu contamination in soils except for paddy soil. For SDZ, their ECX values were significantly higher than its concentration level (0.002 ~ 0.760 mg·kg-1) in soils. Thus, it was concluded that soil nitrification might be more sensitive to Cu than SDZ in field soil. The further Pearson correlation analysis indicated that the response of soil PNR to Cu and SDZ contamination were significantly related with soil PNR0 and pH.
topic heavy metal
antibiotic
soil
pnr
url http://dx.doi.org/10.1080/26395940.2019.1620132
work_keys_str_mv AT qiangliao responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT mingzhuli responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT yuanpengdong responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT yifeishao responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT xijuanliu responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT xinxinhu responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT menghongli responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
AT aijuliu responsesdifferenceanalysisofsoilpotentialnitrificationratestocuandsulfadiazine
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