Effects of Drainage on Carbon Stock in Hemiboreal Forests: Insights from a 54-Year Study
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Published:2023-12-06
Issue:24
Volume:15
Page:16622
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ISSN:2071-1050
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Container-title:Sustainability
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language:en
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Short-container-title:Sustainability
Author:
Dubra Stefānija1,
Samariks Valters1ORCID,
Līcīte Ieva1ORCID,
Butlers Aldis1ORCID,
Purviņa Dana1ORCID,
Lupiķis Ainārs1,
Jansons Āris1
Affiliation:
1. Latvian State Forest Research Institute ‘Silava’, Rigas 111, LV-2169 Salaspils, Latvia
Abstract
In the Northern Hemisphere, forests play an important role in carbon storage. During the past few decades in the eastern Baltic and Nordic regions, forest drainage has been a common occurrence, which also has an effect on carbon stock. Most of the studies on this issue were carried out in boreal zones and were focused on short-term effects. Thus, our aim was to evaluate the long-term (after 54 years) effect of drainage on carbon stock (CS) changes in organic soil (Fibric histosols) in hemiboreal forests. Three forest types were selected in drained (Myrtillosa turf. mel (Mmel)) and undrained (Caricoso–phragmitosa (CP) and Sphagnosa (Sph)) parts of the same area. Surface level changes, soil penetration resistance, and soil and tree biomass carbon stock were assessed to evaluate the drainage effect. Drainage caused an average surface level drop of 25 cm, but did not deplete the soil carbon pool, resulting in significantly and substantially higher (2 to 6 times) tree biomass carbon stock. The drainage of organic soils in managed wet forests leads to an increased long-term contribution to climate change mitigation, thus such areas should be established or maintained in conjunction with areas that maximize other ecosystem services to ensure the sustainability of forest landscapes.
Funder
European Regional Development Fund projects “Development of greenhouse gas emission factors and decision support tools for management of peatlands after peat extraction”
“Tool for assessment of carbon turnover and greenhouse gas fluxes in broadleaved tree stands with consideration of internal stem decay”
LIFE program project “Demonstration of climate change mitigation measures in nutrient rich drained organic soils in Baltic States and Finland LIFE OrgBalt”
European Regional Development Fund project “Evaluation of factors affecting greenhouse gas (GHG) emissions reduction potential in cropland and grassland with organic soils”
European Social Fund project “LLU Transition to a new funding model of doctoral studies”
Subject
Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction
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