News Release

Stand biomass of boreal Pinus sylvestris plantations benefit from high-density monoculture

Peer-Reviewed Publication

Tsinghua University Press

The distribution of sample plots and the impact of stand age, density, and tree species richness on tree height, diameter at breast height, and stand biomass.

image: 

(a) The distribution of sample plots in the boreal zone of China. (b) The impact of stand age, density, and tree species richness on tree height, diameter at breast height, and stand biomass.

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Credit: Chen, B., Liu, S., Yu, J., Huang, Y., Yu, S., Liu, H., Zhang, T., Liu, X., Jin, G., Chen, W., He, X.

In a recent study published in Forest Ecosystems, a team of researchers in China collected data from 1,076 sample plots of Pinus sylvestris plantations across the boreal zone of China. Their findings suggest that high-density monocultures (2,000–2,500 trees per hectare) are optimal for maximizing stand biomass in Pinus sylvestris plantations. This strategy, however, presents a trade-off, as it results in reduced species richness and smaller individual trees.

"We found that the positive impact of tree species richness on stand biomass shifts to negative as stands mature, while the effect of stand density remains consistently positive." said corresponding author Dr. Wei Chen from Institute of Applied Ecology, Chinese Academy of Sciences of the study. " Overall, the effect of tree species richness on stand biomass was negative, while the effect of stand density was positive."

"Contrary to our expectations, we did not find a consistent positive effect of tree species richness on stand biomass as observed in tropical and subtropical forest experiments previously" added first author Dr. Bingming Chen. "This was due to the negative selection effect offsetting the positive complementary effect."

"Although such negative selection effect was rare, they did exist, such as in cases from Europe and the US." thought co-author Dr. Guangze Jin from Northeast Forestry University. "The selection effect could be positive or negative depending on location and species composition."

This study reveals a distinct plantation strategy for maximizing stand biomass of Pinus sylvestris plantations in the boreal zone. It challenges conventional knowledge on the role of tree species richness in regulating stand biomass and highlights the need for tailored plantation strategies that take into account specific tree species and environmental contexts.


See the article: Chen, B., et al., Stand biomass of Pinus sylvestris var. mongolica plantations benefits from high density monocultures in the boreal zone, Forest Ecosystems, Volume 11, 100222, 2024, https://doi.org/10.1016/j.fecs.2024.100222.


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