The current and future role of biota in soil-landscape evolution models

Biota are major drivers of geomorphological development. Vegetation and soil fauna act as ecosystem engineers, changing the environment through physical structures and individual activities such as litter layering, tree uprooting, and animal mounding. Furthermore, through varying litter quality trig...

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Bibliographic Details
Published in:Earth-science reviews 2022-03, Vol.226, p.103945, Article 103945
Main Authors: Meng, Xia, Kooijman, Annemieke M., Temme, Arnaud J.A.M., Cammeraat, Erik L.H.
Format: Article
Language:English
Subjects:
animals
Biota
bioturbation
coevolution
Ecosystem engineer
ecosystems
geomorphology
landscapes
Litter quality
soil
soil fauna
Soil-landscape evolution model
trees
vegetation
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Summary:Biota are major drivers of geomorphological development. Vegetation and soil fauna act as ecosystem engineers, changing the environment through physical structures and individual activities such as litter layering, tree uprooting, and animal mounding. Furthermore, through varying litter quality triggering different degrees of animal bioturbation, they jointly drive soil and landscape development heterogeneously in space over time. Soil-landscape evolution models succeed in incorporating soil development with landscape evolution. However, the roles of biota and biotic interactions in these models are still underexposed. We cannot fully understand changes in environmental and soil-landscape systems without a proper appreciation of biotic processes. In this contribution, we first review the role of biota in pedological and geomorphological processes. Then we compare the coverage of soil and landscape processes of soil-landscape evolution models and outline the role of biota in current soil-landscape evolution models. Finally, we define five levels of soil-landscape evolution model complexity that allow increased detail in biota-soil-landscape interactions. The results show how vegetation characteristics and animal bioturbation in current models are simplified compared with geomorphological processes, and that the geomorphological impact of litter quality and quantity and interactions between vegetation and animals are not taken into consideration at all. As understanding the complex soil-landscape-biota system is fundamental in exploring the coevolution of ecosystem and landscape, it deserves more efforts to develop a biota-soil-landscape evolution model that does more justice to the manifold impacts of biota. •We reviewed biota's roles in hydrology, soil-landscape processes.•19 soil-landscape evolution models (SLEMs) were identified through scoping review.•Biotic processes are simplified in SLEMs.•Geomorphic impact of leaf litter and vegetation-animal interactions need inclusion.•Suggest improve SLEMs in vertical discretization, state variables.
ISSN:0012-8252
1872-6828
DOI:10.1016/j.earscirev.2022.103945