Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China

Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China

Graphene is the thinnest and toughest two-dimensional nanomaterial yet discovered. However, it inevitably enters the biosphere, where it may pose potential risks to ecosystems. We investigated the impact of applied graphene concentrations on bacterial community diversity, physicochemical properties,...

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Main Authors: Jinfeng Song, Chengwei Duan, Ying Sang, Shaoping Wu, Jiaxin Ru, Xiaoyang Cui
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Forests
Subjects:
graphene
Haplic Cambisols
bacterial community diversity
soil enzyme activity
Online Access:https://www.mdpi.com/1999-4907/9/11/677
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spelling doaj-df0bf6e417414d04a0cbf006654bcf352020-11-24T21:45:45ZengMDPI AGForests1999-49072018-10-0191167710.3390/f9110677f9110677Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast ChinaJinfeng Song0Chengwei Duan1Ying Sang2Shaoping Wu3Jiaxin Ru4Xiaoyang Cui5School of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, ChinaSchool of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, ChinaSchool of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, ChinaSchool of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, ChinaSchool of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, ChinaSchool of Forestry, Northeast Forestry University, 26 Hexing Road, Harbin 150040, ChinaGraphene is the thinnest and toughest two-dimensional nanomaterial yet discovered. However, it inevitably enters the biosphere, where it may pose potential risks to ecosystems. We investigated the impact of applied graphene concentrations on bacterial community diversity, physicochemical properties, and enzyme activities of Haplic Cambisols, the zonal soil of Northeastern China. Soils receiving 0, 10, 100, or 1000 mg kg<sup>&#8722;1</sup> of graphene were incubated for 7, 15, 30, 60, or 90 days. Adding graphene significantly increased the community richness and diversity index of the bacterial community in Haplic Cambisols, as well as their abundances, but this impact varied with graphene concentration and incubation time. Compared with 0 mg kg<sup>&#8722;1</sup> of graphene applied, soil bacteria abundance and diversity increased significantly during early stages of incubation (i.e., 7 and 15 days) under different concentrations of graphene, and was inhibited or remained unchanged by a longer incubation time, reaching a minima at 60 days but then following an upward trend. Graphene treatments influenced the bacterial community structure and metabolic function in Haplic Cambisols, and the bacterial community&#8217;s metabolic regulation mechanism varied with both incubation time and graphene concentration. The rank order of bacterial similarity in soils treated with graphene was 15 &gt; 7 &gt; 30 &gt; 60 &gt; 90 days. Throughout the incubation periods, except for a few unidentified bacteria, the relative abundances of Proteobacteria and Acidobacteria in the soil samples were the highest, with the number of <i>Pseudomonas</i> of Proteobacteria being particularly large. The rank order of bacterial abundance at the phylum level in Haplic Cambisols was 15 &gt; 7 &gt; 30 &gt; 90 &gt; 60 days. Graphene also influenced bacterial community diversity by affecting several key soil environmental factors, such as organic matter and hydrolytic nitrogen contents, as well as urease and catalase activities.https://www.mdpi.com/1999-4907/9/11/677grapheneHaplic Cambisolsbacterial community diversitysoil enzyme activity
collection DOAJ
language English
format Article
sources DOAJ
author Jinfeng Song
Chengwei Duan
Ying Sang
Shaoping Wu
Jiaxin Ru
Xiaoyang Cui
spellingShingle Jinfeng Song
Chengwei Duan
Ying Sang
Shaoping Wu
Jiaxin Ru
Xiaoyang Cui
Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China
Forests
graphene
Haplic Cambisols
bacterial community diversity
soil enzyme activity
author_facet Jinfeng Song
Chengwei Duan
Ying Sang
Shaoping Wu
Jiaxin Ru
Xiaoyang Cui
author_sort Jinfeng Song
title Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China
title_short Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China
title_full Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China
title_fullStr Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China
title_full_unstemmed Effects of Graphene on Bacterial Community Diversity and Soil Environments of Haplic Cambisols in Northeast China
title_sort effects of graphene on bacterial community diversity and soil environments of haplic cambisols in northeast china
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2018-10-01
description Graphene is the thinnest and toughest two-dimensional nanomaterial yet discovered. However, it inevitably enters the biosphere, where it may pose potential risks to ecosystems. We investigated the impact of applied graphene concentrations on bacterial community diversity, physicochemical properties, and enzyme activities of Haplic Cambisols, the zonal soil of Northeastern China. Soils receiving 0, 10, 100, or 1000 mg kg<sup>&#8722;1</sup> of graphene were incubated for 7, 15, 30, 60, or 90 days. Adding graphene significantly increased the community richness and diversity index of the bacterial community in Haplic Cambisols, as well as their abundances, but this impact varied with graphene concentration and incubation time. Compared with 0 mg kg<sup>&#8722;1</sup> of graphene applied, soil bacteria abundance and diversity increased significantly during early stages of incubation (i.e., 7 and 15 days) under different concentrations of graphene, and was inhibited or remained unchanged by a longer incubation time, reaching a minima at 60 days but then following an upward trend. Graphene treatments influenced the bacterial community structure and metabolic function in Haplic Cambisols, and the bacterial community&#8217;s metabolic regulation mechanism varied with both incubation time and graphene concentration. The rank order of bacterial similarity in soils treated with graphene was 15 &gt; 7 &gt; 30 &gt; 60 &gt; 90 days. Throughout the incubation periods, except for a few unidentified bacteria, the relative abundances of Proteobacteria and Acidobacteria in the soil samples were the highest, with the number of <i>Pseudomonas</i> of Proteobacteria being particularly large. The rank order of bacterial abundance at the phylum level in Haplic Cambisols was 15 &gt; 7 &gt; 30 &gt; 90 &gt; 60 days. Graphene also influenced bacterial community diversity by affecting several key soil environmental factors, such as organic matter and hydrolytic nitrogen contents, as well as urease and catalase activities.
topic graphene
Haplic Cambisols
bacterial community diversity
soil enzyme activity
url https://www.mdpi.com/1999-4907/9/11/677
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