Abstract
Agronomic management modifies the soil bacterial communities and may alter the carbon fractions. Here, we identify differences in several chemical and biological soil variables, as well as bacterial composition between organic (Org) and conventional (Conv) agronomic management in pecan (Carya illinoinensis) orchards located in Coahuila, Mexico. The analyzed variables were pH, N, P, K, soil organic matter, organic matter quality, soil organic carbon, C/N ratio, carbon fractions, microbial biomass carbon, easily extractable Glomalin, colony-forming units, CO2 emissions, and the enzyme activity. The DNA of soil bacteria was extracted, amplified (V3-V4 16S rRNA), and sequenced using Illumina. To compare variables between agronomic managements, t tests were used. Sequences were analyzed in QIIME (Quantitative Insights Into Microbial Ecology). A canonical correspondence analysis (CCA) was used to observe associations between the ten most abundant phyla and soil variables in both types of agronomic managements. In Org management, variables related to the capture of recalcitrant carbon compounds were significant, and there was a greater diversity of bacterial communities capable of promoting organic carbon sequestration. In Conv management, variables related to the increase in carbon mineralization, as well as the enzymatic activity related to the metabolism of labile compounds, were significant. The CCA suggested a separation between phyla associated with some variables. Agronomic management impacted soil chemical and biological parameters related to carbon dynamics, including bacterial communities associated with carbon sequestration. Further research is still necessary to understand the plasticity of some bacterial communities, as well as the soil–plant dynamics.
Highlights
Microorganisms that live in the soil are among the most abundant and diverse organisms on earth [1]
The structure and metabolism of the soil bacterial communities are influenced by elements of the ecosystem such as climate, type of soil, and plant composition; one factor that greatly affects their composition and functioning is agronomic management [2,3,4,5]
It is the main agent of soil organic matter (SOM) decomposition, transforming nutrients and making them available [52], which may explain the high content of microbial biomass carbon (MBC) and the low percentages of SOM in pecan orchards under Org management
Summary
Microorganisms that live in the soil are among the most abundant and diverse organisms on earth [1]. Conventional agronomic management (CAM) alters the distribution of organic material and affects the rate of mineralization of micro and macro elements in the soil [3], negatively impacting the long-range productivity of the soil due to the loss of organic matter and erosion [6]. In organic management, the traditional cultivation methods (conservationist) are combined with modern techniques, excluding conventional supplies [9]. In these systems, crop rotation is practiced and residues from animals and organic vegetables are used to increase soil fertility and productivity [7,8,9,10]. It has been reported that these practices affect the long-term structure of the microbial community through the accumulation and chemistry changes of soil organic matter (SOM) [2]
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