Seiko Arai scite author profile

[1] We compared nitrous oxide (N 2 O) emissions over 1 year from soils of plantations growing acacia, which is a leguminous plant capable of symbiotic nitrogen fixation in root nodules, and secondary forests in Sumatra, Indonesia. N 2 O emissions from acacia plantation soils fluctuated seasonally, from high in the wetter season to low in the drier season, whereas N 2 O emissions from secondary forest soils were low throughout the year. Water-filled-pore-space data showed that denitrification contributed substantially to N 2 O emissions from soils at acacia sites. The average annual N 2 O flux in acacia plantations was 2.56 kg N ha À1 a À1 , which was eight times higher than that from secondary forest soils (0.33 kg N ha À1 a À1 ). In secondary forests, NH 4 + was the dominant form of inorganic nitrogen. However, in acacia plantations, the NH 4 + : NO 3 À ratio was relatively lower than that in secondary forests. These results suggest that secondary forests were nitrogen limited, but acacia plantations were less nitrogen limited. Leguminous tree plantations may increase nitrogen cycling, resulting in greater N 2 O emissions from the soil. However, on a global warming potential basis, N 2 O emissions from acacia plantation soils accounted for less than 10% of the carbon uptake by plants. Nevertheless, because of the spread of leguminous tree plantations in Asia, the importance of N 2 O emissions from leguminous tree stands will increase in the coming decades.

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Seiko Arai

Spatial structures of N2O, CO2, and CH4 fluxes from Acacia mangium plantation soils during a relatively dry season in Indonesia

Potential N₂O emissions from leguminous tree plantation soils in the humid tropics

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Seiko Arai

Spatial structures of N2O, CO2, and CH4 fluxes from Acacia mangium plantation soils during a relatively dry season in Indonesia

Potential N2O emissions from leguminous tree plantation soils in the humid tropics

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Potential N₂O emissions from leguminous tree plantation soils in the humid tropics