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Bioenergy cropping systems that incorporate native grasses stimulate growth of plant-associated soil microbes in the absence of nitrogen fertilization
•Arbuscular mycorrhizal fungi increased in unfertilized perennial grass systems.•Gram-negative bacterial biomarkers increased in unfertilized grass systems.•Overall microbial composition was similar between the two soil depths.•Microbial composition resembled those found in undisturbed systems and l...
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Published in: | Agriculture, ecosystems & environment ecosystems & environment, 2016-10, Vol.233 (C), p.396-403 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | •Arbuscular mycorrhizal fungi increased in unfertilized perennial grass systems.•Gram-negative bacterial biomarkers increased in unfertilized grass systems.•Overall microbial composition was similar between the two soil depths.•Microbial composition resembled those found in undisturbed systems and long-term restorations.•N addition and plant community composition can influence soil microbial assemblages.
The choice of crops and their management can strongly influence soil microbial communities and their processes. We used lipid biomarker profiling to characterize how soil microbial composition of five potential bioenergy cropping systems diverged from a common baseline five years after they were established. The cropping systems we studied included an annual system (continuous no-till corn) and four perennial crops (switchgrass, miscanthus, hybrid poplar, and restored prairie). Partial- and no-stover removal were compared for the corn system, while N-additions were compared to unfertilized plots for the perennial cropping systems. Arbuscular mycorrhizal fungi (AMF) and Gram-negative biomass was higher in unfertilized perennial grass systems, especially in switchgrass and prairie. Gram-positive bacterial biomass decreased in all systems relative to baseline values in surface soils (0–10cm), but not subsurface soils (10–25cm). Overall microbial composition was similar between the two soil depths. Our findings demonstrate the capacity of unfertilized perennial cropping systems to recreate microbial composition found in undisturbed soil environments and indicate how strongly agroecosystem management decisions such as N addition and plant community composition can influence soil microbial assemblages. |
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ISSN: | 0167-8809 1873-2305 |
DOI: | 10.1016/j.agee.2016.09.008 |