The underplanting of trees beneath pure, even-aged plantations has beenĪpplied in various parts of the world for example, broadleaved tree The last few decades particularly in relation to carbon management. Uneven-aged silviculture, and it has become increasingly important in Nature conservation, ecosystem services, forest resilience, and Uneven-aged forest management has increased the significance of However, the long-termĮffects of thinning on belowground carbon stocks and soil respiration of Greatly affected by the forest environment. Meanwhile, theĬhange of soil labile carbon fractions (e.g., light fraction organicĬarbon, LFOC) was found to influence soil carbon stability, which was Temperatures often decreased with increasing density. Respiration with increasing stand density could be expected, as soil Soil carbon might (temporarily) beĮnhanced due to increased litter input, but a change in microclimateĬould also lead to increased decomposition. The mineral soil soil carbon storage and soil respiration were found to However, less experimentalĮvidence was available for the effect of thinning on the carbon pool in Reported that moderate thinning treatment could be more effective toĬonserve vegetation carbon storage. On the implications of thinning for carbon. In recent years, some studies have focused Thinning has been performed to identify silvicultural practices to Strategies to change the monoculture stand structure, and they are Thinning and underplanting are two important silvicultural Which will further influence forest growth and total carbon stocks Stand and landscape scales, and reduction of carbon emissions fromĬhanges of forest structure will lead to different forest Reforestation, increase of the carbon density of existing forests at Therefore, much attention has been given toįorest management to improve carbon sinks and mitigate global climateĬhange, for example, increase of forested land area through
Reported that forest management practices might affect carbon dynamics Nearly 3īillion tons carbon of anthropogenic carbon every year (3 Pg C
Soil organic carbon are stored in forest ecosystems. Than 80% of all terrestrial aboveground carbon and more than 70% of all Retrieved from įorests play an important role in the global carbon cycle more APA style: Effect of forest structural change on carbon storage in a coastal Metasequoia glyptostroboides stand.Effect of forest structural change on carbon storage in a coastal Metasequoia glyptostroboides stand." Retrieved from
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MLA style: "Effect of forest structural change on carbon storage in a coastal Metasequoia glyptostroboides stand." The Free Library.