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- Li, Yide, et al. Show all 4 Authors
- Ecological research 2018 v.33 no.2 pp. 379-392
- canopy gaps; carbon dioxide; climate change; diurnal variation; greenhouse gas emissions; greenhouse gases; methane; methane production; nitrous oxide; rain forests; soil water; temperature; tropical forests; China
- ... Accurate estimations of soil greenhouse gas (GHG) fluxes in tropical montane rainforests are critical for assessing the role of tropical forests in influencing global climate change. This research aimed to determine the diurnal variation in soil GHG fluxes and understand the effects of forest canopy gaps on GHG fluxes, and their major controlling factors. The diurnal fluxes of soil carbon dioxide ...