Explaining Productivity Differences Among Tree Species via Biotic and Abiotic Factors
Liyang Tong, Kai Chen, Xiahuan Zhan, Kai Wang, Huajing Song, Li Ma, Lijin Wang

TL;DR
This study explores how biotic and abiotic factors influence the productivity of two tree species in southern China, offering insights for better forest management.
Contribution
The study identifies specific climatic and biotic factors affecting the productivity of Cunninghamia lanceolata and Pinus massoniana using a combined modeling approach.
Findings
P. massoniana has significantly higher biomass than C. lanceolata at the same diameter at breast height.
Different climatic factors influence the productivity of C. lanceolata and P. massoniana.
Biodiversity and structural diversity have divergent effects on the two species across growth stages.
Abstract
Greenhouse gases emitted by humans have exacerbated global climate change. Forests can effectively sequester atmospheric carbon dioxide through photosynthesis, and afforestation has been widely adopted worldwide to mitigate climate change. Cunninghamia lanceolata and Pinus massoniana, as major afforestation tree species, are extensively cultivated in southern China. However, the mechanisms by which climate, topography, biodiversity, forest structure, and forest growth status affect the productivity of these two species remain unclear. This study used forest inventory data from Lishui City combining the Biomod2 model with a structural equation model (SEM) to investigate the differential effects of biotic and abiotic factors on the productivity of the two tree species. The results showed that at the same diameter at breast height (DBH), the biomass of P. massoniana reached 384.67 kg,…
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Taxonomy
TopicsForest ecology and management · Plant Water Relations and Carbon Dynamics · Species Distribution and Climate Change
