AI Article Synopsis
- The study examines how different climatic factors influence two mechanisms of the priming effect in soil: 'stoichiometric decomposition' and 'nutrient mining.'
- The research was conducted in Madagascar, analyzing soil samples for their microbial and physicochemical properties along temperature and rainfall gradients.
- Results indicate that cooler climates enhance stoichiometric decomposition, while warmer climates boost nutrient mining, suggesting climate change could significantly affect soil carbon dynamics.
Article Abstract
The priming effect in soil is proposed to be generated by two distinct mechanisms: 'stoichiometric decomposition' and/or 'nutrient mining' theories. Each mechanism has its own dynamics, involves its own microbial actors, and targets different soil organic matter (SOM) pools. The present study aims to evaluate how climatic parameters drive the intensity of each priming effect generation mechanism via the modification of soil microbial and physicochemical properties. Soils were sampled in the center of Madagascar, along climatic gradients designed to distinguish temperature from rainfall effects. Abiotic and biotic soil descriptors were characterized including bacterial and fungal phylogenetic composition. Potential organic matter mineralization and PE were assessed 7 and 42 days after the beginning of incubation with C-enriched wheat straw. Both priming mechanisms were mainly driven by the mean annual temperature but in opposite directions. The priming effect generated by stoichiometric decomposition was fostered under colder climates, because of soil enrichment in less developed organic matter, as well as in fast-growing populations. Conversely, the priming effect generated by nutrient mining was enhanced under warmer climates, probably because of the lack of competition between slow-growing populations mining SOM and fast-growing populations for the energy-rich residue entering the soil. Our study leads to hypotheses about the consequences of climate change on both PE generation mechanisms and associated consequences on soil carbon sequestration.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5776458 | PMC |
| http://dx.doi.org/10.1038/ismej.2017.178 | DOI Listing |
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