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W2773004396 abstract "Abstract Temperature is among the key factors affecting the soil carbon (C) dynamics and nitrogen (N) transformation. However, we only have limited understanding of the soil C release and N transformation in the mountain forest-meadow ecosystem complex in the climate transition zone under mean spring temperature. We investigated the soil C dynamics and N mineralization in a pine (coniferous) forest, an oak (broadleaf) forest and a meadow with laboratory incubation under 8 °C, which was the mean temperature in spring. The results showed that both the dissolved organic carbon (DOC) and the contents of the aromatic compound varied with carbon mineralization in the soils from different ecosystems. Both forests and meadow exhibited CH4 uptake though there was no significant difference in CH4 uptake capacity (P > 0.05), indicating that these ecosystems in the climatic transition zone act as weak CH4 sinks. In contrast, the soil average CO2 emission rate in forests (23.41 mg kg− 1 d− 1) was greater than that in the meadow (17.68 mg kg− 1 d− 1), and the oak forest (27.51 mg kg− 1 d− 1) showed higher CO2 emission than that in the pine forest (19.30 mg kg− 1 d− 1). A prominently positive correlation between cumulative soil CH4 uptake and CO2 emission in an aerobic environment was found in two forests (pine forest: P" @default.
W2773004396 created "2017-12-22" @default.
W2773004396 creator A5006774793 @default.
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W2773004396 creator A5088369263 @default.
W2773004396 date "2018-04-01" @default.
W2773004396 modified "2023-10-13" @default.
W2773004396 title "Soil CH4 and CO2 dynamics and nitrogen transformations with incubation in mountain forest and meadow ecosystems" @default.
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W2773004396 doi "https://doi.org/10.1016/j.catena.2017.12.005" @default.
W2773004396 hasPublicationYear "2018" @default.
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