Open access
Date
2022-06Type
- Review Article
Abstract
1. Below-ground microbial communities drive some of Earth's largest biogeochemical fluxes, yet they represent a major source of uncertainty in global biogeochemical models. This review synthesizes recent advances in trait-based soil carbon modelling in order to identify how empirical observations of microbial traits can inform the next generation of soil carbon models.
2. We identify four key perspectives from which trait-based models have investigated the role of microbes in soil carbon fluxes, ranging from the largest to the smallest scales of biological organization: (i) Earth system models, which have recently begun to incorporate microbial traits at a global scale; (ii) ecosystem models, which relate microbial carbon cycling to other trophic levels and element cycles; (iii) models from community ecology, which link theories of species diversity to ecosystem cycles; and (iv) models of fine-scale physiology, which mechanistically represent traits at the individual level.
3. Highlighting the contributions of diverse trait-based modelling approaches, we caution that this diversity makes it challenging to link perspectives at different scales. The meaning of a trait depends both on the structure of the model in which it occurs and on the scale treated by the model. Thus, reapplying a fine-scale trait at a broader scale may make incorrect predictions, an issue we illustrate quantitatively using model simulations.
4. With these challenges in mind, we highlight several ways to synthesize the scales of microbial biogeochemical modelling: (i) quantitatively, using mathematical scaling techniques, (ii) empirically, by applying experiments to test relationships between scales and (iii) conceptually, by identifying key traits and processes across scales.
5. Taking full advantage of trait-based modelling, ecologists will thus be able to incorporate multiple perspectives to better predict carbon cycling in a changing world. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000541759Publication status
publishedExternal links
Journal / series
Functional EcologyVolume
Pages / Article No.
Publisher
Wiley-BlackwellSubject
carbon cycle; community ecology; earth system modelling; ecosystem ecology; mathematical modelling; soil microbes; traitsOrganisational unit
09625 - Crowther, Thomas Ward / Crowther, Thomas Ward
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