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2024
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| Accesso online: | https://doi.org/10.1007/s12155-024-10780-1 |
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| author | Lutter, Reimo Hepner, Heiki Tullus, Arvo Lim, Hyungwoo Tullus, Tea Õunapuu‑Pikas, Eele Sopp, Reeno Kaivapalu, Marju Täll, Kristjan Ots, Katri Tullus, Hardi |
| author_facet | Lutter, Reimo Hepner, Heiki Tullus, Arvo Lim, Hyungwoo Tullus, Tea Õunapuu‑Pikas, Eele Sopp, Reeno Kaivapalu, Marju Täll, Kristjan Ots, Katri Tullus, Hardi |
| contents | <p>This study examines the impact of different thinning methods on carbon balance and soil fertility in hybrid aspen coppice over a five-year period in Estonia. While unthinned (UT) and corridor-thinned (CT) treatments maintained a positive carbon balance, all treatments showed a decline in soil organic carbon and nutrient concentrations. Unthinned stands retained higher leaf nutrient levels, suggesting slower recovery from thinning. Although hybrid aspen coppice supports carbon sequestration, continued monitoring is needed to assess long-term soil sustainability under intensive biofuel harvesting.</p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_1007_s12155-024-10780-1 |
| institution | Zenodo |
| language | |
| publishDate | 2024 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Ecosystem Carbon and Nutrient Balances in Short‑Rotation Hybrid Aspen Coppice Under Different Thinning Methods Lutter, Reimo Hepner, Heiki Tullus, Arvo Lim, Hyungwoo Tullus, Tea Õunapuu‑Pikas, Eele Sopp, Reeno Kaivapalu, Marju Täll, Kristjan Ots, Katri Tullus, Hardi Bioenergy Thinning Populus Soil nutrients Biomass Ecosystem C balance <p>This study examines the impact of different thinning methods on carbon balance and soil fertility in hybrid aspen coppice over a five-year period in Estonia. While unthinned (UT) and corridor-thinned (CT) treatments maintained a positive carbon balance, all treatments showed a decline in soil organic carbon and nutrient concentrations. Unthinned stands retained higher leaf nutrient levels, suggesting slower recovery from thinning. Although hybrid aspen coppice supports carbon sequestration, continued monitoring is needed to assess long-term soil sustainability under intensive biofuel harvesting.</p> |
| title | Ecosystem Carbon and Nutrient Balances in Short‑Rotation Hybrid Aspen Coppice Under Different Thinning Methods |
| topic | Bioenergy Thinning Populus Soil nutrients Biomass Ecosystem C balance |
| url | https://doi.org/10.1007/s12155-024-10780-1 |