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Litter inputs exert greater influence over soil respiration and its temperature sensitivity than roots in a coniferous forest in north-south transition zone

Wanlin Zhuang, Mengyao Liu, Yalu Wu, Jianting Ma, Yaojun Zhang, Lei Su, Yanchun Liu, Cancan Zhao, Shenglei Fu

2023The Science of The Total Environment33 citationsDOI

Topics & Concepts

Q10Soil respirationAbiotic componentLitterMicrobial population biologyBiomass (ecology)Plant litterRespirationEnvironmental scienceAgronomySoil carbonSoil waterWater contentSoil organic matterDetritusEcologyEcosystemSoil scienceBiologyBotanyGeotechnical engineeringBacteriaGeneticsEngineeringSoil Carbon and Nitrogen DynamicsEcology and Vegetation Dynamics StudiesPlant Water Relations and Carbon Dynamics
Litter inputs exert greater influence over soil respiration and its temperature sensitivity than roots in a coniferous forest in north-south transition zone | Litcius