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- Title
Variability and uncertainty in flux-site-scale net ecosystem exchange simulations based on machine learning and remote sensing: a systematic evaluation.
- Authors
Shi, Haiyang; Luo, Geping; Hellwich, Olaf; Xie, Mingjuan; Zhang, Chen; Zhang, Yu; Wang, Yuangang; Yuan, Xiuliang; Ma, Xiaofei; Zhang, Wenqiang; Kurban, Alishir; De Maeyer, Philippe; Van de Voorde, Tim
- Abstract
Net ecosystem exchange (NEE) is an important indicator of carbon cycling in terrestrial ecosystems. Many previous studies have combined flux observations and meteorological, biophysical, and ancillary predictors using machine learning to simulate the site-scale NEE. However, systematic evaluation of the performance of such models is limited. Therefore, we performed a meta-analysis of these NEE simulations. A total of 40 such studies and 178 model records were included. The impacts of various features throughout the modeling process on the accuracy of the model were evaluated. Random forests and support vector machines performed better than other algorithms. Models with larger timescales have lower average R2 values, especially when the timescale exceeds the monthly scale. Half-hourly models (average R2 = 0.73) were significantly more accurate than daily models (average R2 = 0.5). There are significant differences in the predictors used and their impacts on model accuracy for different plant functional types (PFTs). Studies at continental and global scales (average R2 = 0.37) with multiple PFTs, more sites, and a large span of years correspond to lower R2 values than studies at local (average R2 = 0.69) and regional (average R2 = 0.7) scales. Also, the site-scale NEE predictions need more focus on the internal heterogeneity of the NEE dataset and the matching of the training set and validation set.
- Subjects
REMOTE sensing; DISTANCE education; METEOROLOGICAL observations; SUPPORT vector machines; RANDOM forest algorithms
- Publication
Biogeosciences, 2022, Vol 19, Issue 16, p3739
- ISSN
1726-4170
- Publication type
Article
- DOI
10.5194/bg-19-3739-2022