Details

Autor(en) / Beteiligte

• González-Domínguez, B
• Niklaus, P A
• Studer, M S
• Hagedorn, F
• Wacker, L
• Haghipour, N
• Zimmermann, S
• Walthert, L
• McIntyre, C
• Abiven, S

Titel

Temperature and moisture are minor drivers of regional-scale soil organic carbon dynamics

Ist Teil von

• Scientific reports, 2019-04, Vol.9 (1), p.6422-6422, Article 6422

Ort / Verlag

England: Nature Publishing Group

Erscheinungsjahr

2019

Link zum Volltext

Quelle

EZB Free E-Journals

Beschreibungen/Notizen

• Storing large amounts of organic carbon, soils are a key but uncertain component of the global carbon cycle, and accordingly, of Earth System Models (ESMs). Soil organic carbon (SOC) dynamics are regulated by a complex interplay of drivers. Climate, generally represented by temperature and moisture, is regarded as one of the fundamental controls. Here, we use 54 forest sites in Switzerland, systematically selected to span near-independent gradients in temperature and moisture, to disentangle the effects of climate, soil properties, and landform on SOC dynamics. We estimated two SOC turnover times, based on bulk soil C measurements (τ ) and on a 6-month laboratory soil incubation (τ ). In addition, upon incubation, we measured the C signature of the CO evolved and quantified the cumulated production of dissolved organic carbon (DOC). Our results demonstrate that τ and τ capture the dynamics of contrasting fractions of the SOC continuum. The C-based τ primarily reflects the dynamics of an older, stabilised pool, whereas the incubation-based τ mainly captures fresh readily available SOC. Mean site temperature did not raise as a critical driver of SOC dynamics, and site moisture was only significant for τ . However, soil pH emerged as a key control of both turnover times. The production of DOC was independent of τ and not driven by climate, but primarily by the content of clay and, secondarily by the slope of the site. At the regional scale, soil physicochemical properties and landform appear to override the effect of climate on SOC dynamics.