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W2413374612 startingPage "45" @default.
W2413374612 abstract "Due to forest fragmentation, forest edges have become dominant features in landscapes around the world. Forest edges are exposed to a different microclimate in terms of air and soil temperature, light availability, soil moisture and wind speed than the forest interior. Furthermore, forest edges catch more atmospheric deposition, due to obstruction of the wind profile causing advection and turbulent exchange. Coniferous forest types are subjected to higher N deposition due to their higher Leaf Area Index (LAI), evergreen character and higher collecting efficiency of needles compared to leaves. In Europe, highest deposition values coincide with intensive livestock breeding areas, such as northern Belgium. It is still unclear how this elevated atmospheric deposition affects N and carbon (C) stocks at temperate forest edges. We assessed the N and C stocks of the aboveground (leaves/needles, wood) and belowground (forest floor, coarse and fine roots, mineral soil) forest pools along edge-to-interior transects in six forests, located in Belgium (two oak and two pine forests) and in Denmark (two spruce forests) on sandy haplic podzols. The total stocks increased towards the forest edge by 30% for N and 43% for C, averaged over all forests, within a confidence interval of 95% (which was in some cases rather wide). The aboveground wood stocks increased by 56% for N and C, the root stocks by 48% for N and C and the mineral soil stocks increased by circa 30% for N and C. Soil C sequestration (calculated via a static N balance based on N throughfall and leaching) increased at the forest edges, being on average 646 and 289 kg ha−1 year−1 in the forest edge and interior, respectively. Forest type effects were less prominent than edge effects, with no amplified edge effect on N and C stocks in the coniferous forest types. Nevertheless, our results show the importance of incorporating forest edges when monitoring C storage on a landscape scale. The question arises, however, how much longer such forest edges will continue to accrue additional C when subjected to continuously high atmospheric N deposition." @default.
W2413374612 created "2016-06-24" @default.
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W2413374612 date "2016-09-01" @default.
W2413374612 modified "2023-10-18" @default.
W2413374612 title "Strong gradients in nitrogen and carbon stocks at temperate forest edges" @default.
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W2413374612 doi "https://doi.org/10.1016/j.foreco.2016.05.040" @default.
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