Reverse microdialysis of sucrose stimulates soil fungal and bacterial growth at the microscale. Schneider, A. N., Buckley, S., Lorenzo, Z. C., Gratz, R., Nilsson, L., Swaine, M., Street, N. R., Taylor, A. F. S., & Jämtgård, S. BMC Microbiology, 25(1):436, July, 2025. ![Reverse microdialysis of sucrose stimulates soil fungal and bacterial growth at the microscale [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex The rhizosphere is a critical microenvironment that plays key roles in plant nutrient availability, largely due to root interactions with rhizospheric microbes. However, we lack suitable methods that can elucidate mechanisms determining rhizospheric community structure and function within the context of a dynamic, undisturbed soil. Microdialysis has been used for low intrusive soil nutrient sampling at the scale of a fine root, with small probes that also enable release of defined compounds. We evaluated whether microdialysis could simulate exudation, by the release of sucrose, and stimulate changes in a soil microbial community, allowing us to determine the microbes that responded most to carbon release.
@article{schneider_reverse_2025,
title = {Reverse microdialysis of sucrose stimulates soil fungal and bacterial growth at the microscale},
volume = {25},
issn = {1471-2180},
url = {https://doi.org/10.1186/s12866-025-04082-5},
doi = {10.1186/s12866-025-04082-5},
abstract = {The rhizosphere is a critical microenvironment that plays key roles in plant nutrient availability, largely due to root interactions with rhizospheric microbes. However, we lack suitable methods that can elucidate mechanisms determining rhizospheric community structure and function within the context of a dynamic, undisturbed soil. Microdialysis has been used for low intrusive soil nutrient sampling at the scale of a fine root, with small probes that also enable release of defined compounds. We evaluated whether microdialysis could simulate exudation, by the release of sucrose, and stimulate changes in a soil microbial community, allowing us to determine the microbes that responded most to carbon release.},
number = {1},
urldate = {2025-07-25},
journal = {BMC Microbiology},
author = {Schneider, Andreas N. and Buckley, Scott and Lorenzo, Zulema Carracedo and Gratz, Regina and Nilsson, Lina and Swaine, Mark and Street, Nathaniel R. and Taylor, Andy F. S. and Jämtgård, Sandra},
month = jul,
year = {2025},
keywords = {Amplicon sequencing, Bacteria, Fungi, Microdialysis, Root exudation},
pages = {436},
}
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