Litcius/Paper detail

Molecular <scp> <sup>14</sup> C </scp> evidence for contrasting turnover and temperature sensitivity of soil organic matter components

Juan Jia, Zongguang Liu, Negar Haghipour, Lukas Wacker, Hailong Zhang, Carlos A. Sierra, Tian Ma, Yiyun Wang, Litong Chen, Ao Luo, Zhiheng Wang, Jin He, Meixun Zhao, Timothy I. Eglinton, Xiaojuan Feng

2023Ecology Letters48 citationsDOIOpen Access PDF

Abstract

Abstract Climate projection requires an accurate understanding for soil organic carbon (SOC) decomposition and its response to warming. An emergent view considers that environmental constraints rather than chemical structure alone control SOC turnover and its temperature sensitivity (i.e., Q 10 ), but direct long‐term evidence is lacking. Here, using compound‐specific radiocarbon analysis of soil profiles along a 3300‐km grassland transect, we provide direct evidence for the rapid turnover of lignin‐derived phenols compared with slower‐cycling molecular components of SOC (i.e., long‐chain lipids and black carbon). Furthermore, in contrast to the slow‐cycling components whose turnover is strongly modulated by mineral association and exhibits low Q 10 , lignin turnover is mainly regulated by temperature and has a high Q 10 . Such contrasts resemble those between fast‐cycling (i.e., light) and mineral‐associated slow‐cycling fractions from globally distributed soils. Collectively, our results suggest that warming may greatly accelerate the decomposition of lignin, especially in soils with relatively weak mineral associations.

Topics & Concepts

CyclingSoil carbonSoil waterSoil organic matterLigninOrganic matterTransectEnvironmental chemistryChemistryQ10Carbon cycleDecompositionCarbon fibersSoil scienceEnvironmental scienceEcologyEcosystemBotanyBiologyMaterials scienceOrganic chemistryRespirationHistoryArchaeologyComposite numberComposite materialSoil Carbon and Nitrogen DynamicsMetabolomics and Mass Spectrometry StudiesIsotope Analysis in Ecology