Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1038/s41467-018-05980-1
Licence creative commons licence
Title (Primary) Land use driven change in soil pH affects microbial carbon cycling processes
Author Malik, A.A.; Puissant, J.; Buckeridge, K.M.; Goodall, T.; Jehmlich, N. ORCID logo ; Chowdhury, S.; Gweon, H.S.; Peyton, J.M.; Mason, K.E.; van Agtmaal, M.; Blaud, A.; Clark, I.A.; Whitaker, J.; Pywell, R.F.; Ostle, N.; Gleixner, G.; Griffiths, R.I.
Source Titel Nature Communications
Year 2018
Department MOLSYB
Volume 9
Page From art. 3591
Language englisch
Supplements https://static-content.springer.com/esm/art%3A10.1038%2Fs41467-018-05980-1/MediaObjects/41467_2018_5980_MOESM1_ESM.pdf
Abstract Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumulation and release of soil organic matter. However, poor understanding of the mechanisms responsible hinders the development of effective land management strategies to enhance soil carbon storage. Here we empirically test the link between microbial ecophysiological traits and topsoil carbon content across geographically distributed soils and land use contrasts. We discovered distinct pH controls on microbial mechanisms of carbon accumulation. Land use intensification in low-pH soils that increased the pH above a threshold (~6.2) leads to carbon loss through increased decomposition, following alleviation of acid retardation of microbial growth. However, loss of carbon with intensification in near-neutral pH soils was linked to decreased microbial biomass and reduced growth efficiency that was, in turn, related to trade-offs with stress alleviation and resource acquisition. Thus, less-intensive management practices in near-neutral pH soils have more potential for carbon storage through increased microbial growth efficiency, whereas in acidic soils, microbial growth is a bigger constraint on decomposition rates.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=20917
Malik, A.A., Puissant, J., Buckeridge, K.M., Goodall, T., Jehmlich, N., Chowdhury, S., Gweon, H.S., Peyton, J.M., Mason, K.E., van Agtmaal, M., Blaud, A., Clark, I.A., Whitaker, J., Pywell, R.F., Ostle, N., Gleixner, G., Griffiths, R.I. (2018):
Land use driven change in soil pH affects microbial carbon cycling processes
Nat. Commun. 9 , art. 3591 10.1038/s41467-018-05980-1