With simulated acid rain and acidification, the soils from both Nanning and Liuzhou municipalities, Guangxi Zhuang Nationality Autonomous Region have been studied to determine the counts of azotobacter, bacteria, acti...With simulated acid rain and acidification, the soils from both Nanning and Liuzhou municipalities, Guangxi Zhuang Nationality Autonomous Region have been studied to determine the counts of azotobacter, bacteria, actinomyces and the activity of urease in soils, and the changes in respiratory intensity of soil so as to identify the toxicity of acidic substances to microbiota and enzyme in such soils. The concept of the critical pH of toxicity has been developed and used to discuss the representation of the concept, the basis on which the soil treated with simulated acid rain can be taken as an object of study, and the criteria for the identification of toxicity. Based on that as mentioned above, it was found that acid rain behaved to have toxicity to the microbiota in soils from Liuzhou other than from Nanning. The findings may be regarded as an objective basis to study the toxicity of acidic substances to microbiota and enzyme in soils in this region.展开更多
New agricultural soil model approaches based on the microbiome dynamics must be considered as they can contribute to understand microbiological soil processes directly linked to substrate metabolism and the influence ...New agricultural soil model approaches based on the microbiome dynamics must be considered as they can contribute to understand microbiological soil processes directly linked to substrate metabolism and the influence of these processes on plant growth. The present work presents an approach to the modelling of the interactions of the soil microbial functional diversity with the plant in terms of functions associated to specific processes of organic Carbon and Nitrogen metabolism. The substrates transformations arising in the organic matter that enters as a part of an agricultural scheme are the base for define this metabolism. As result, it has been possible to simulate a rhizospheric soil based on the concept of complex system dynamics and Individual Based Modeling known too as Agent-Based Modeling in an agricultural management context. The explicit definition of the microbiome functional diversity and the processing of the structural elements Carbon and Nitrogen, allowed representing the functional dynamics of this complex system composed by microorganisms, Carbon, Nitrogen and the plant. The variables that reflect the biology and the adaptation to the rhizospheric environment characterized the microorganisms and the assemblage community patterns in time. The main simulations output are system glucose and nitrate levels and an approach to plant growth, all resultant from the metabolic process of the considered Carbon and Nitrogen consortia. The results indicate that the microorganism’s diversity assemblages and its functional expression have a fundamental role in terms of plant growth.展开更多
Algal-cyanobacterial communities, soil nano- and microfauna, and mycelium of micromycetes were studied in soils of an administrative district of Moscow. To characterize the habitat conditions of microbiota in the soil...Algal-cyanobacterial communities, soil nano- and microfauna, and mycelium of micromycetes were studied in soils of an administrative district of Moscow. To characterize the habitat conditions of microbiota in the soils of different functional zones of the city, the acid-base conditions and the contents of exchangeable and water-soluble nitrogen, mobile heavy metals, and soluble salts were determined. The diversity of species of algal-cyanobacterial communities, the composition of the dominant species, the proportions of different ecological groups of diatom algae, the diversity of soil nano- and microfauna, and the abundance of colorless and colored mycelium in the urban soils were characterized. The analysis of these parameters showed that the degree of technogenic impact on soil microbiota decreases in the following sequence of functional zones of the city: industrial > traffic > residential > recreation.展开更多
The poplar increment with different cultivation models and the microbiota and enzyme activity were studied based on 7-years’ continuous observation at two stages (1992~1995 and 1996~2000). The poplar stand located ...The poplar increment with different cultivation models and the microbiota and enzyme activity were studied based on 7-years’ continuous observation at two stages (1992~1995 and 1996~2000). The poplar stand located in Minquan County of Henan Province with an area of 3.12 hectares. The results showed that the annual average increment in the second stage of all models was higher compared with that in the first stage in height and diameter breast-high (DBH) . The model A and B of the second stage were the best with an increase of 135%, 175% and 214%, 250% higher than that of the first stage, while the control was only 122% and 130%. The amount of three soil microbiota in the second stage was higher than that in the first stage. The bacterium was the most among the three microbiota, and the fungus was the least. All the enzyme activities of five models in the second stage were higher than that in the first stage (except D, E of catalase). The increase ranges from 3% to 161%. In model A and B, the phosphates and urease increased by 135%, 89% and 161%, 105% respectively.展开更多
The under-forest economy has received increased attention in China.However,little is known about the effects of co-composted biochar on soil and plant biomass in under-forest planting systems.In this study,plant bioma...The under-forest economy has received increased attention in China.However,little is known about the effects of co-composted biochar on soil and plant biomass in under-forest planting systems.In this study,plant biomass,soil nutrient levels,and bacterial communities were evaluated after application of biochar-based organic fertilizer(BOF,derived from co-composted biochar-compost)at varying rates to soils supporting Tetrastigma hemsleyanum Diels&Gilg planted under a Moso bamboo(Phyllostachys edulis)forest.BOF treatment increased the biomass of T.hemsleyanum.Compared with the control,BOF application significantly increased soil pH and organic carbon(SOC).The high-throughput sequencing results showed significant differences in the Bacteroidetes,Verrucomicrobia,Chlorofexi,and OD1 phyla among all groups.At the genus level,the control group was characterized by a preponderance of Conexibacter.Rhodanobacter was enriched in soils with a 3%BOF application and Steroidobacter and Spirochaeta were the most prominent phyla in the 5%BOF group.There was no biomarker selected in the 1%BOF group at the genus level.In conclusion,BOF application increased the biomass of T.hemsleyanum when intercropped under a Moso bamboo forest;this effect may be due to changes in the soil physicochemical properties and microbial communities after BOF application.展开更多
Background Soil microbial communities affect above-ground plant diversity and community composition by influencing plant growth performance.Several studies have tested the effect of soil bacterial microbiome on growth...Background Soil microbial communities affect above-ground plant diversity and community composition by influencing plant growth performance.Several studies have tested the effect of soil bacterial microbiome on growth performance of native and invasive plants,but the influence of specific bacterial isolates has not been investigated.Here,we investigated the effects of soil bacterial exclusion by soil sterilization and by inoculation of Streptomyces rhizobacterial isolates on the growth performance of native and invasive Prosopis congeners.Results Plant growth performance of invasive P.juliflora was significantly reduced when grown in sterilized soils,whereas native P.cineraria showed enhanced growth performance in the sterilized soils.When grown in the soil inoculated with the specific Streptomyces isolate from P.juliflora(PJ1),the growth performance of invasive P.juliflora was significantly enhanced while that of native P.cineraria seedlings was significantly reduced.However,inoculation of P.cineraria and P.juliflora seedlings with Streptomyces isolate from the rhizosphere of native P.cineraria(PC1)had no significant effect on the growth performances either of P.juliflora or P.cineraria.Conclusion Our study reveals that invasive P.juliflora experiences positive feedback from the non-native soil bacterial community,while the native P.cineraria experiences negative feedback from its soil bacterial community.Our results provide fresh experimental evidence for the enemy release hypothesis,and further our understanding of the contrasting growth-promoting effects of differentially recruited microbial species belonging to the same genus(Streptomyces)in the rhizospheres of alien invasive and native plants.展开更多
The slash-and-burn system is a subsistence agronomical practice widespread in tropical areas worldwide.This system has been extensively studied,especially for its impacts on agronomical aspects and soil physicochemica...The slash-and-burn system is a subsistence agronomical practice widespread in tropical areas worldwide.This system has been extensively studied,especially for its impacts on agronomical aspects and soil physicochemical properties;however,knowledge of soil microbial diversity under slash and bum is scarce.In this study,for the first time,soil bacterial diversity of three locations from Central Mozambique,where slash and burn has been practiced for different durations of the forest fallow period(ca.25,35,and 50 years),was elucidated through a metataxonomic approach.Bacterial communities were evaluated in the genetic horizons of soils under charcoal kilns,crop fields,and forests.The aim of this study was to examine the influence of spatial(location and land use),temporal(forest fallow period),and vertical(horizon)variations on bacterial community structure in relation to soil physicochemical properties.Metataxonomic analysis detected 25 different phyla whose distribution varied horizontally and vertically in relation to soil properties(i.e.,p H,easily oxidizable organic carbon,total nitrogen,and available phosphorus),as well as particle size distribution and mineralogical composition.Such properties were strongly affected and altered by land-use management;in particular,charcoal kilns exhibited better soil properties and greater differences in bacterial community than crop fields and forests,which were quite similar.This might suggest the inability of a forest fallow period shorter than 50 years to improve soil fertility and induce changes in bacterial community.The uncommon application of the pedological approach for microbial evaluation facilitated the detection of a clear separation in bacterial composition along the soil profile,with eutrophic bacteria mainly located in the A horizon whereas oligotrophic bacteria were found in the Bo horizon.These horizontal and vertical heterogeneities in the same study represent a novelty for bacterial metataxonomic analysis.展开更多
目的:探讨扬中地区上消化道癌前病变患者舌苔与土壤菌群的相关性。方法:收集22例上消化道癌前病变患者的舌苔和自留地土壤,采用16S r DNA高通量测序检测菌群,生物信息学分析菌群多样性、菌群结构、共生关系等。结果:舌苔菌群多样性和丰...目的:探讨扬中地区上消化道癌前病变患者舌苔与土壤菌群的相关性。方法:收集22例上消化道癌前病变患者的舌苔和自留地土壤,采用16S r DNA高通量测序检测菌群,生物信息学分析菌群多样性、菌群结构、共生关系等。结果:舌苔菌群多样性和丰富度均显著低于土壤,菌群组成显著不同。舌苔与土壤之间有17个分类单元(1门、2纲、3目、3科、4属和4种)显著相关。然而,舌苔与土壤菌群预测功能中脂质运输与代谢、翻译后修饰-蛋白翻转-蛋白伴侣、信号转导机制、防御机制等均为显著负相关,胞内运输-分泌-囊泡运输为显著正相关。结论:舌苔与土壤菌群存在相关性,土壤菌群可能是扬中地区上消化道癌地域性高发的关键因素。展开更多
文摘With simulated acid rain and acidification, the soils from both Nanning and Liuzhou municipalities, Guangxi Zhuang Nationality Autonomous Region have been studied to determine the counts of azotobacter, bacteria, actinomyces and the activity of urease in soils, and the changes in respiratory intensity of soil so as to identify the toxicity of acidic substances to microbiota and enzyme in such soils. The concept of the critical pH of toxicity has been developed and used to discuss the representation of the concept, the basis on which the soil treated with simulated acid rain can be taken as an object of study, and the criteria for the identification of toxicity. Based on that as mentioned above, it was found that acid rain behaved to have toxicity to the microbiota in soils from Liuzhou other than from Nanning. The findings may be regarded as an objective basis to study the toxicity of acidic substances to microbiota and enzyme in soils in this region.
文摘New agricultural soil model approaches based on the microbiome dynamics must be considered as they can contribute to understand microbiological soil processes directly linked to substrate metabolism and the influence of these processes on plant growth. The present work presents an approach to the modelling of the interactions of the soil microbial functional diversity with the plant in terms of functions associated to specific processes of organic Carbon and Nitrogen metabolism. The substrates transformations arising in the organic matter that enters as a part of an agricultural scheme are the base for define this metabolism. As result, it has been possible to simulate a rhizospheric soil based on the concept of complex system dynamics and Individual Based Modeling known too as Agent-Based Modeling in an agricultural management context. The explicit definition of the microbiome functional diversity and the processing of the structural elements Carbon and Nitrogen, allowed representing the functional dynamics of this complex system composed by microorganisms, Carbon, Nitrogen and the plant. The variables that reflect the biology and the adaptation to the rhizospheric environment characterized the microorganisms and the assemblage community patterns in time. The main simulations output are system glucose and nitrate levels and an approach to plant growth, all resultant from the metabolic process of the considered Carbon and Nitrogen consortia. The results indicate that the microorganism’s diversity assemblages and its functional expression have a fundamental role in terms of plant growth.
文摘Algal-cyanobacterial communities, soil nano- and microfauna, and mycelium of micromycetes were studied in soils of an administrative district of Moscow. To characterize the habitat conditions of microbiota in the soils of different functional zones of the city, the acid-base conditions and the contents of exchangeable and water-soluble nitrogen, mobile heavy metals, and soluble salts were determined. The diversity of species of algal-cyanobacterial communities, the composition of the dominant species, the proportions of different ecological groups of diatom algae, the diversity of soil nano- and microfauna, and the abundance of colorless and colored mycelium in the urban soils were characterized. The analysis of these parameters showed that the degree of technogenic impact on soil microbiota decreases in the following sequence of functional zones of the city: industrial > traffic > residential > recreation.
文摘The poplar increment with different cultivation models and the microbiota and enzyme activity were studied based on 7-years’ continuous observation at two stages (1992~1995 and 1996~2000). The poplar stand located in Minquan County of Henan Province with an area of 3.12 hectares. The results showed that the annual average increment in the second stage of all models was higher compared with that in the first stage in height and diameter breast-high (DBH) . The model A and B of the second stage were the best with an increase of 135%, 175% and 214%, 250% higher than that of the first stage, while the control was only 122% and 130%. The amount of three soil microbiota in the second stage was higher than that in the first stage. The bacterium was the most among the three microbiota, and the fungus was the least. All the enzyme activities of five models in the second stage were higher than that in the first stage (except D, E of catalase). The increase ranges from 3% to 161%. In model A and B, the phosphates and urease increased by 135%, 89% and 161%, 105% respectively.
基金The work was supported by the Cooperation Projects Between Provincial Government and Scientific Research Institutes for Forestry Science and Technology in Zhejiang Province(Grant No.2017SY02).
文摘The under-forest economy has received increased attention in China.However,little is known about the effects of co-composted biochar on soil and plant biomass in under-forest planting systems.In this study,plant biomass,soil nutrient levels,and bacterial communities were evaluated after application of biochar-based organic fertilizer(BOF,derived from co-composted biochar-compost)at varying rates to soils supporting Tetrastigma hemsleyanum Diels&Gilg planted under a Moso bamboo(Phyllostachys edulis)forest.BOF treatment increased the biomass of T.hemsleyanum.Compared with the control,BOF application significantly increased soil pH and organic carbon(SOC).The high-throughput sequencing results showed significant differences in the Bacteroidetes,Verrucomicrobia,Chlorofexi,and OD1 phyla among all groups.At the genus level,the control group was characterized by a preponderance of Conexibacter.Rhodanobacter was enriched in soils with a 3%BOF application and Steroidobacter and Spirochaeta were the most prominent phyla in the 5%BOF group.There was no biomarker selected in the 1%BOF group at the genus level.In conclusion,BOF application increased the biomass of T.hemsleyanum when intercropped under a Moso bamboo forest;this effect may be due to changes in the soil physicochemical properties and microbial communities after BOF application.
基金supported by Faculty Research Grant of the Institution of Eminence,University of Delhi provided to MKPThis work received grant specifically from Department of Biotechnology(DBT/2015/UOD/358),Government of India,provided to RK+2 种基金Financial support received from Council for Scientific and Industrial Research(CSIR)(09/045(1601)/2018/EMR-I)provided to MS is acknowledgedInfrastructure facilities funded by DST-FIST,UGC-SAP(DRS)and TEQIP and AICTE-MODROBS are acknowledgedThe financial assistance of IoE FRP Grant to MKP is gratefully acknowledged.
文摘Background Soil microbial communities affect above-ground plant diversity and community composition by influencing plant growth performance.Several studies have tested the effect of soil bacterial microbiome on growth performance of native and invasive plants,but the influence of specific bacterial isolates has not been investigated.Here,we investigated the effects of soil bacterial exclusion by soil sterilization and by inoculation of Streptomyces rhizobacterial isolates on the growth performance of native and invasive Prosopis congeners.Results Plant growth performance of invasive P.juliflora was significantly reduced when grown in sterilized soils,whereas native P.cineraria showed enhanced growth performance in the sterilized soils.When grown in the soil inoculated with the specific Streptomyces isolate from P.juliflora(PJ1),the growth performance of invasive P.juliflora was significantly enhanced while that of native P.cineraria seedlings was significantly reduced.However,inoculation of P.cineraria and P.juliflora seedlings with Streptomyces isolate from the rhizosphere of native P.cineraria(PC1)had no significant effect on the growth performances either of P.juliflora or P.cineraria.Conclusion Our study reveals that invasive P.juliflora experiences positive feedback from the non-native soil bacterial community,while the native P.cineraria experiences negative feedback from its soil bacterial community.Our results provide fresh experimental evidence for the enemy release hypothesis,and further our understanding of the contrasting growth-promoting effects of differentially recruited microbial species belonging to the same genus(Streptomyces)in the rhizospheres of alien invasive and native plants.
基金supported by funding for the project“PSA2017-Discovering‘Terra Preta’in Mozambique:A Model for Sustainable Agroforestry Systems to Preserve Soil,Forest and Wilderness Areas”from the Polytechnic University of Marche,Italy。
文摘The slash-and-burn system is a subsistence agronomical practice widespread in tropical areas worldwide.This system has been extensively studied,especially for its impacts on agronomical aspects and soil physicochemical properties;however,knowledge of soil microbial diversity under slash and bum is scarce.In this study,for the first time,soil bacterial diversity of three locations from Central Mozambique,where slash and burn has been practiced for different durations of the forest fallow period(ca.25,35,and 50 years),was elucidated through a metataxonomic approach.Bacterial communities were evaluated in the genetic horizons of soils under charcoal kilns,crop fields,and forests.The aim of this study was to examine the influence of spatial(location and land use),temporal(forest fallow period),and vertical(horizon)variations on bacterial community structure in relation to soil physicochemical properties.Metataxonomic analysis detected 25 different phyla whose distribution varied horizontally and vertically in relation to soil properties(i.e.,p H,easily oxidizable organic carbon,total nitrogen,and available phosphorus),as well as particle size distribution and mineralogical composition.Such properties were strongly affected and altered by land-use management;in particular,charcoal kilns exhibited better soil properties and greater differences in bacterial community than crop fields and forests,which were quite similar.This might suggest the inability of a forest fallow period shorter than 50 years to improve soil fertility and induce changes in bacterial community.The uncommon application of the pedological approach for microbial evaluation facilitated the detection of a clear separation in bacterial composition along the soil profile,with eutrophic bacteria mainly located in the A horizon whereas oligotrophic bacteria were found in the Bo horizon.These horizontal and vertical heterogeneities in the same study represent a novelty for bacterial metataxonomic analysis.
文摘目的:探讨扬中地区上消化道癌前病变患者舌苔与土壤菌群的相关性。方法:收集22例上消化道癌前病变患者的舌苔和自留地土壤,采用16S r DNA高通量测序检测菌群,生物信息学分析菌群多样性、菌群结构、共生关系等。结果:舌苔菌群多样性和丰富度均显著低于土壤,菌群组成显著不同。舌苔与土壤之间有17个分类单元(1门、2纲、3目、3科、4属和4种)显著相关。然而,舌苔与土壤菌群预测功能中脂质运输与代谢、翻译后修饰-蛋白翻转-蛋白伴侣、信号转导机制、防御机制等均为显著负相关,胞内运输-分泌-囊泡运输为显著正相关。结论:舌苔与土壤菌群存在相关性,土壤菌群可能是扬中地区上消化道癌地域性高发的关键因素。