KEYLINK: towards a more integrative soil representation for inclusion in ecosystem scale models. I. review and model concept

Deckmyn, Gaby; Flores, Omar; Mayer, Mathias; Domene, Xavier; Schnepf, Andrea; Kuka, Katrin; Van Looy, Kris; Rasse, Daniel P.; Briones, Maria J., I; Barot, Sebastien; Berg, Matty; Vanguelova, Elena; Ostonen, Ivika; Vereecken, Harry; Suz, Laura M.; Frey, Beat; Frossard, Aline; Tiunov, Alexei; Frouz, Jan; Grebenc, Tine; Opik, Maarja; Javaux, Mathieu; Uvarov, Alexei; Vinduskova, Olga; Krogh, Paul Henning; Franklin, Oskar; Jimenez, Juan; Yuste, Jorge Curiel

doi:10.7717/peerj.9750

Översiktsartikel2020Vetenskapligt granskadÖppen tillgång

KEYLINK: towards a more integrative soil representation for inclusion in ecosystem scale models. I. review and model concept

Deckmyn, Gaby; Flores, Omar; Mayer, Mathias; Domene, Xavier; Schnepf, Andrea; Kuka, Katrin; Van Looy, Kris; Rasse, Daniel P.; Briones, Maria J., I; Barot, Sebastien; Berg, Matty; Vanguelova, Elena; Ostonen, Ivika; Vereecken, Harry; Suz, Laura M.; Frey, Beat; Frossard, Aline; Tiunov, Alexei; Frouz, Jan; Grebenc, Tine; Opik, Maarja; Javaux, Mathieu; Uvarov, Alexei; Vinduskova, Olga; Krogh, Paul Henning; Franklin, Oskar; Jimenez, Juan; Yuste, Jorge Curiel
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Sammanfattning

The relatively poor simulation of the below-ground processes is a severe drawback for many ecosystem models, especially when predicting responses to climate change and management. For a meaningful estimation of ecosystem production and the cycling of water, energy, nutrients and carbon, the integration of soil processes and the exchanges at the surface is crucial. It is increasingly recognized that soil biota play an important role in soil organic carbon and nutrient cycling, shaping soil structure and hydrological properties through their activity, and in water and nutrient uptake by plants through mycorrhizal processes. In this article, we review the main soil biological actors (microbiota, fauna and roots) and their effects on soil functioning. We review to what extent they have been included in soil models and propose which of them could be included in ecosystem models. We show that the model representation of the soil food web, the impact of soil ecosystem engineers on soil structure and the related effects on hydrology and soil organic matter (SOM) stabilization are key issues in improving ecosystem-scale soil representation in models. Finally, we describe a new core model concept (KEYLINK) that integrates insights from SOM models, structural models and food web models to simulate the living soil at an ecosystem scale.

Nyckelord

Soil fauna; Model; Soil organic matter (SOM); Hydrology; Pore size distribution (PSD); Soil biota; Ecosystem

Publicerad i

PeerJ
2020, Volym: 8, artikelnummer: e9750
Utgivare: PEERJ INC

SLU författare

Franklin, Oskar
- Institutionen för skogens ekologi och skötsel, Sveriges lantbruksuniversitet
- International Institute for Applied Systems Analysis (IIASA)

Associerade SLU-program

SLU Nätverk växtskydd

Globala målen

Skydda, återställa och främja ett hållbart nyttjande av landbaserade ekosystem, hållbart bruka skogar, bekämpa ökenspridning, hejda och vrida tillbaka markförstöringen samt hejda förlusten av biologisk mångfald

UKÄ forskningsämne

Markvetenskap
Ekologi

Publikationens identifierare

DOI: https://doi.org/10.7717/peerj.9750

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/107869