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Autori principali: Lutter, Reimo, Hepner, Heiki, Tullus, Arvo, Lim, Hyungwoo, Tullus, Tea, Õunapuu‑Pikas, Eele, Sopp, Reeno, Kaivapalu, Marju, Täll, Kristjan, Ots, Katri, Tullus, Hardi
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Pubblicazione: Zenodo 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