Sterile sentinels and MinION sequencing capture active soil microbial communities that differentiate crop rotations.
Autor: | Erlandson SR; USDA-ARS-North Central Agricultural Research Laboratory, Brookings, SD, 57006, USA. sonya.erlandson@usda.gov., Ewing PM; USDA-ARS-Food Systems Research Unit, Burlington, VT, 57006, USA., Osborne SL; USDA-ARS-North Central Agricultural Research Laboratory, Brookings, SD, 57006, USA., Lehman RM; USDA-ARS-North Central Agricultural Research Laboratory, Brookings, SD, 57006, USA. |
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Jazyk: | angličtina |
Zdroj: | Environmental microbiome [Environ Microbiome] 2024 May 07; Vol. 19 (1), pp. 30. Date of Electronic Publication: 2024 May 07. |
DOI: | 10.1186/s40793-024-00571-8 |
Abstrakt: | Background: Soil microbial communities are difficult to measure and critical to soil processes. The bulk soil microbiome is highly diverse and spatially heterogeneous, which can make it difficult to detect and monitor the responses of microbial communities to differences or changes in management, such as different crop rotations in agricultural research. Sampling a subset of actively growing microbes should promote monitoring how soil microbial communities respond to management by reducing the variation contributed by high microbial spatial and temporal heterogeneity and less active microbes. We tested an in-growth bag method using sterilized soil in root-excluding mesh, "sterile sentinels," for the capacity to differentiate between crop rotations. We assessed the utility of different incubation times and compared colonized sentinels to concurrently sampled bulk soils for the statistical power to differentiate microbial community composition in low and high diversity crop rotations. We paired this method with Oxford Nanopore MinION sequencing to assess sterile sentinels as a standardized, fast turn-around monitoring method. Results: Compared to bulk soil, sentinels provided greater statistical power to distinguish between crop rotations for bacterial communities and equivalent power for fungal communities. The incubation time did not affect the statistical power to detect treatment differences in community composition, although longer incubation time increased total biomass. Bulk and sentinel soil samples contained shared and unique microbial taxa that were differentially abundant between crop rotations. Conclusions: Overall, compared to bulk soils, the sentinels captured taxa with copiotrophic or ruderal traits, and plant-associated taxa. The sentinels show promise as a sensitive, scalable method to monitor soil microbial communities and provide information complementary to traditional soil sampling. (© 2024. This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply.) |
Databáze: | MEDLINE |
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