scholarly journals Development of an Environmental Functional Gene Microarray for Soil Microbial Communities

2010 ◽  
Vol 76 (21) ◽  
pp. 7161-7170 ◽  
Author(s):  
Ken C. McGrath ◽  
Rhiannon Mondav ◽  
Regina Sintrajaya ◽  
Bill Slattery ◽  
Susanne Schmidt ◽  
...  
Keyword(s):  
Microbial Communities ◽  
Environmental Samples ◽  
Agricultural Soils ◽  
Soil Microbial Communities ◽  
Functional Gene ◽  
Gene Microarray ◽  
Independent Manner ◽  
Soil Microbial ◽  
Functional Attributes ◽  
Culture Independent

ABSTRACT Functional attributes of microbial communities are difficult to study, and most current techniques rely on DNA- and rRNA-based profiling of taxa and genes, including microarrays containing sequences of known microorganisms. To quantify gene expression in environmental samples in a culture-independent manner, we constructed an environmental functional gene microarray (E-FGA) consisting of 13,056 mRNA-enriched anonymous microbial clones from diverse microbial communities to profile microbial gene transcripts. A new normalization method using internal spot standards was devised to overcome spotting and hybridization bias, enabling direct comparisons of microarrays. To evaluate potential applications of this metatranscriptomic approach for studying microbes in environmental samples, we tested the E-FGA by profiling the microbial activity of agricultural soils with a low or high flux of N2O. A total of 109 genes displayed expression that differed significantly between soils with low and high N2O emissions. We conclude that mRNA-based approaches such as the one presented here may complement existing techniques for assessing functional attributes of microbial communities.

scholarly journals Effects of Monoculture, Crop Rotation, and Soil Moisture Content on Selected Soil Physicochemical and Microbial Parameters in Wheat Fields

2012 ◽  
Vol 2012 ◽  
pp. 1-13 ◽  
Author(s):  
A. Marais ◽  
M. Hardy ◽  
M. Booyse ◽  
A. Botha
Keyword(s):  
Soil Moisture ◽  
Microbial Communities ◽  
Crop Rotation ◽  
Management Practices ◽  
Agricultural Soils ◽  
Soil Microbial Communities ◽  
Soil Microbial Activity ◽  
Most Probable Number ◽  
Probable Number ◽  
Soil Microbial

Different plants are known to have different soil microbial communities associated with them. Agricultural management practices such as fertiliser and pesticide addition, crop rotation, and grazing animals can lead to different microbial communities in the associated agricultural soils. Soil dilution plates, most-probable-number (MPN), community level physiological profiling (CLPP), and buried slide technique as well as some measured soil physicochemical parameters were used to determine changes during the growing season in the ecosystem profile in wheat fields subjected to wheat monoculture or wheat in annual rotation with medic/clover pasture. Statistical analyses showed that soil moisture had an over-riding effect on seasonal fluctuations in soil physicochemical and microbial populations. While within season soil microbial activity could be differentiated between wheat fields under rotational and monoculture management, these differences were not significant.

scholarly journals Soil Microbial Activity and Diversity in Response to Soil Chemical Factors in Agricultural Soils

2019 ◽  
Vol 24 (1) ◽  
pp. 43
Author(s):  
Lily Ishak ◽  
Philip Hugh Brown
Keyword(s):  
Microbial Communities ◽  
Agricultural Soils ◽  
Soil Health ◽  
Soil Microbial Communities ◽  
Soil Microbial Activity ◽  
Soil Microbial Diversity ◽  
Soil Microbial ◽  
Microbial Responses ◽  
Chemical Factors ◽  
Microbial Groups

The role of microbial communities in maintaining soil health is mostly influenced by chemical condition of soil. Microbial communities vary in response to soil chemical factors. The contradictive results from previous findings emphasise that it is difficult to define a pattern of the influence of soil chemical factors on soil microbial diversity and activity. The aim of the study was to assess soil microbial responses to soil chemical factors in agricultural soils. Composite soil (Dermosol order) samples taken from 16 commercial crop sites in Bundaberg, Queensland, Australia, were chemically and biologically analysed. It was found that bacterial and fungal activity and diversity were significantly affected by soil EC, SOM and NO3-N content, but were not influenced by soil pH, CEC, and Ca:Mg ratio. The diversity of bacterial and fungal communities displayed a positive linear relationship with soil EC, whereas the activity and diversity of these two microbial groups and SOM displayed a significant quadratic relationship. The finding suggested that microbial community was predominantly influenced by SOM content.

scholarly journals Land use change alters functional gene diversity, composition and abundance in Amazon forest soil microbial communities

2014 ◽  
Vol 23 (12) ◽  
pp. 2988-2999 ◽  
Author(s):  
Fabiana S. Paula ◽  
Jorge L. M. Rodrigues ◽  
Jizhong Zhou ◽  
Liyou Wu ◽  
Rebecca C. Mueller ◽  
...  
Keyword(s):  
Land Use ◽  
Land Use Change ◽  
Microbial Communities ◽  
Forest Soil ◽  
Gene Diversity ◽  
Soil Microbial Communities ◽  
Functional Gene ◽  
Amazon Forest ◽  
Soil Microbial ◽  
Functional Gene Diversity

Microarray-based functional gene analysis of soil microbial communities during ozonation and biodegradation of crude oil

Chemosphere ◽  
2009 ◽  
Vol 75 (2) ◽  
pp. 193-199 ◽  
Author(s):  
Yuting Liang ◽  
Joy D. Van Nostrand ◽  
Jian Wang ◽  
Xu Zhang ◽  
Jizhong Zhou ◽  
...  
Keyword(s):  
Crude Oil ◽  
Microbial Communities ◽  
Soil Microbial Communities ◽  
Functional Gene ◽  
Gene Analysis ◽  
Soil Microbial ◽  
Functional Gene Analysis

scholarly journals Cross-biome metagenomic analyses of soil microbial communities and their functional attributes

2012 ◽  
Vol 109 (52) ◽  
pp. 21390-21395 ◽  
Author(s):  
N. Fierer ◽  
J. W. Leff ◽  
B. J. Adams ◽  
U. N. Nielsen ◽  
S. T. Bates ◽  
...  
Keyword(s):  
Microbial Communities ◽  
Soil Microbial Communities ◽  
Soil Microbial ◽  
Functional Attributes

scholarly journals Functional Gene Differences in Soil Microbial Communities from Conventional, Low-Input, and Organic Farmlands

2012 ◽  
Vol 79 (4) ◽  
pp. 1284-1292 ◽  
Author(s):  
Kai Xue ◽  
Liyou Wu ◽  
Ye Deng ◽  
Zhili He ◽  
Joy Van Nostrand ◽  
...  
Keyword(s):  
Microbial Communities ◽  
Agricultural Research ◽  
Microbial Community Composition ◽  
Soil Microbial Communities ◽  
Functional Gene ◽  
Functional Genes ◽  
N Availability ◽  
Low Input ◽  
Soil Microbial ◽  
Denitrification Genes

ABSTRACTVarious agriculture management practices may have distinct influences on soil microbial communities and their ecological functions. In this study, we utilized GeoChip, a high-throughput microarray-based technique containing approximately 28,000 probes for genes involved in nitrogen (N)/carbon (C)/sulfur (S)/phosphorus (P) cycles and other processes, to evaluate the potential functions of soil microbial communities under conventional (CT), low-input (LI), and organic (ORG) management systems at an agricultural research site in Michigan. Compared to CT, a high diversity of functional genes was observed in LI. The functional gene diversity in ORG did not differ significantly from that of either CT or LI. Abundances of genes encoding enzymes involved in C/N/P/S cycles were generally lower in CT than in LI or ORG, with the exceptions of genes in pathways for lignin degradation, methane generation/oxidation, and assimilatory N reduction, which all remained unchanged. Canonical correlation analysis showed that selected soil (bulk density, pH, cation exchange capacity, total C, C/N ratio, NO3−, NH4+, available phosphorus content, and available potassium content) and crop (seed and whole biomass) variables could explain 69.5% of the variation of soil microbial community composition. Also, significant correlations were observed between NO3−concentration and denitrification genes, NH4+concentration and ammonification genes, and N2O flux and denitrification genes, indicating a close linkage between soil N availability or process and associated functional genes.

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