| Literature DB >> 29975899 |
Yuli Liu1, Guomo Zhou2, Huaqiang Du3, Frank Berninger4, Fangjie Mao1, Xuejian Li1, Liang Chen1, Lu Cui1, Yangguang Li1, Di'en Zhu1, Lin Xu1.
Abstract
Lei bamboo (Phyllostachys praecox) is widely distributed in southeastern China. We used eddy covariance to analyze carbon sequestration capacity of a Lei bamboo forest (2011-2013) and to identify the seasonal biotic and abiotic determinants of carbon fluxes. A machine learning algorithm called random forest (RF) was used to identify factors that affected carbon fluxes. The RF model predicted well the gross ecosystem productivity (GEP), ecosystem respiration (RE) and net ecosystem exchange (NEE), and displayed variations in the drivers between different seasons. Mean annual NEE, RE, and GEP were -105.2 ± 23.1, 1264.5 ± 45.2, and 1369.6 ± 52.5 g C m-2, respectively. Climate warming increased RE more than GEP when water inputs were not limiting. Summer drought played little role in suppressing GEP, but low soil moisture contents suppressed RE and increased the carbon sink during drought in the summer. The most important drivers of NEE were soil temperature in spring, summer, and winter, and photosynthetically active radiation in autumn. Air and soil temperature were important drivers of GEP in all seasons.Entities:
Keywords: Ecosystem respiration; Gross ecosystem productivity; Net ecosystem exchange; Phyllostachys praecox; Random forest; Seasonal variation
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Year: 2018 PMID: 29975899 DOI: 10.1016/j.jenvman.2018.06.046
Source DB: PubMed Journal: J Environ Manage ISSN: 0301-4797 Impact factor: 6.789