Non-additive effects of mixing hybrid poplar and white spruce on aboveground and soil carbon storage in boreal plantations

•Organic matter was accumulated in F layer in spruce plantations.•Growth of hybrid poplars was increased in mixed plantations.•Soil carbon storage was greater in the upper horizon of mixed plantations.•Mixing spruce and poplar had synergistic effects on carbon aboveground and soil storage. The use o...

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Bibliographic Details
Published in:Forest ecology and management 2014-09, Vol.328, p.292-299
Main Authors: Chomel, M., DesRochers, A., Baldy, V., Larchevêque, M., Gauquelin, T.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Biological and medical sciences
Boreal forest
Carbon
Carbon capture and storage
Carbon storage
Ecology
Environmental Sciences
Forestry
Fundamental and applied biological sciences. Psychology
Mixed-species plantations
Plantations
Poplar
Productivity
Soil (material)
Soil horizon
Synecology
Synergistic effect
Terrestrial ecosystems
Trees
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Summary:•Organic matter was accumulated in F layer in spruce plantations.•Growth of hybrid poplars was increased in mixed plantations.•Soil carbon storage was greater in the upper horizon of mixed plantations.•Mixing spruce and poplar had synergistic effects on carbon aboveground and soil storage. The use of trees under intensive management is particularly important for rapid fiber production in boreal regions. Mixed-species plantations using species that have complementary ecological niches, such as hybrid poplar and white spruce, potentially can maximize the use of resources and, consequently, increase productivity. In the context of climate change, vegetation and soil carbon sequestration is of a particular interest as part of a possible means of compensating for CO2 emissions. Since higher productivity leads to higher CO2 sequestration, the use of mixed-species plantations could improve the ecological service of carbon storage compared to mono-specific plantations. We compared above-ground and soil C storage of nine-year-old mono-specific plantations of white spruce and hybrid poplar with mixed plantations of these two species. Soil carbon was evaluated by separately sampling four soil horizons, while aboveground carbon was assessed from tree biomass estimates using allometric relationships. Mixing white spruce and hybrid poplar exerted a substantial synergistic effect on above-ground and soil carbon storage. This positive effect was due to greater productivity of poplar (47% of biomass increase) and great accumulation of litter in soil surface horizons (52% L-horizon carbon increase) of mixed-species compared to mono-specific plantations. These results imply that in addition to wood production gains by poplar trees, mixed-species plantations of hybrid poplar and white spruce promotes greater carbon sequestration than mono-specific plantations of either hybrid poplar or white spruce, an important aspect of forest ecosystem services.
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2014.05.048