Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland

The relative importance of climate change, acidic deposition and forest harvesting/clearcutting on soil and streamwater chemistry of Rudbäcken, a small forested catchment in southern Finland, was evaluated by using a linked model system. The emphasis was on the assessment of long-term effects of dif...

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Main Authors: Forsius, M., Johansson, M., Posch, M., Holmberg, M., Kämäri, J., Lepistö, A., Roos, J., Syri, S., Starr, M.
Format: Article in Journal/Newspaper
Language:English
Published: Boreal Environment Research Publishing Board 2024
Subjects:
Boreal Environment Research
Online Access:http://hdl.handle.net/10138/577982
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record_format openpolar
spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/577982 2024-09-15T18:00:08+00:00 Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland Forsius, M. Johansson, M. Posch, M. Holmberg, M. Kämäri, J. Lepistö, A. Roos, J. Syri, S. Starr, M. 2024-06-27T13:44:28Z 129-143 application/pdf http://hdl.handle.net/10138/577982 eng eng Boreal Environment Research Publishing Board Boreal Environment Research 1239-6095 1797-2469 2 http://hdl.handle.net/10138/577982 Suomen ympäristökeskus CC BY 4.0 openAccess Artikkeli lehdessä 2024 ftunivhelsihelda 2024-08-21T23:48:04Z The relative importance of climate change, acidic deposition and forest harvesting/clearcutting on soil and streamwater chemistry of Rudbäcken, a small forested catchment in southern Finland, was evaluated by using a linked model system. The emphasis was on the assessment of long-term effects of different impact scenario combinations. The models were calibrated to measured values of soil and streamwater chemistry as well as forest biomass and growth increment. Deposition scenarios were based on atmospheric transport models. The effects of the three main driving forces (climate, deposition and forest harvesting) showed complex interactions, which were not always easy to interpret. Climate change (high change scenario), considerable emission reductions, and the clearcut scenario, were almost equally significant for parameters related to acidification effects. Considerable emission reductions resulted in either a slight improvement (streamwater pH) or steady-state (soil base saturation) compared with the current situation. The most negative response was predicted for the high climate change scenario, where high nitrogen immobilisation dependence on temperature was assumed. With the exception of the clearcut scenario, a clear increase in NO3 leaching in the long run was predicted for the site until the year 2050. Although the scenarios are hypothetical, they demonstrate the combined effects of elevated deposition inputs and climate change for the N leaching and accumulation processes. Article in Journal/Newspaper Boreal Environment Research HELDA – University of Helsinki Open Repository
institution Open Polar
collection HELDA – University of Helsinki Open Repository
op_collection_id ftunivhelsihelda
language English
description The relative importance of climate change, acidic deposition and forest harvesting/clearcutting on soil and streamwater chemistry of Rudbäcken, a small forested catchment in southern Finland, was evaluated by using a linked model system. The emphasis was on the assessment of long-term effects of different impact scenario combinations. The models were calibrated to measured values of soil and streamwater chemistry as well as forest biomass and growth increment. Deposition scenarios were based on atmospheric transport models. The effects of the three main driving forces (climate, deposition and forest harvesting) showed complex interactions, which were not always easy to interpret. Climate change (high change scenario), considerable emission reductions, and the clearcut scenario, were almost equally significant for parameters related to acidification effects. Considerable emission reductions resulted in either a slight improvement (streamwater pH) or steady-state (soil base saturation) compared with the current situation. The most negative response was predicted for the high climate change scenario, where high nitrogen immobilisation dependence on temperature was assumed. With the exception of the clearcut scenario, a clear increase in NO3 leaching in the long run was predicted for the site until the year 2050. Although the scenarios are hypothetical, they demonstrate the combined effects of elevated deposition inputs and climate change for the N leaching and accumulation processes.
format Article in Journal/Newspaper
author Forsius, M.
Johansson, M.
Posch, M.
Holmberg, M.
Kämäri, J.
Lepistö, A.
Roos, J.
Syri, S.
Starr, M.
spellingShingle Forsius, M.
Johansson, M.
Posch, M.
Holmberg, M.
Kämäri, J.
Lepistö, A.
Roos, J.
Syri, S.
Starr, M.
Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland
author_facet Forsius, M.
Johansson, M.
Posch, M.
Holmberg, M.
Kämäri, J.
Lepistö, A.
Roos, J.
Syri, S.
Starr, M.
author_sort Forsius, M.
title Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland
title_short Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland
title_full Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland
title_fullStr Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland
title_full_unstemmed Modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in Finland
title_sort modelling the effects of climate change, acidic deposition and forest harvesting on the biogeochemistry of a boreal forested catchment in finland
publisher Boreal Environment Research Publishing Board
publishDate 2024
url http://hdl.handle.net/10138/577982
genre Boreal Environment Research
genre_facet Boreal Environment Research
op_relation Boreal Environment Research
1239-6095
1797-2469
2
http://hdl.handle.net/10138/577982
Suomen ympäristökeskus
op_rights CC BY 4.0
openAccess
_version_ 1810437257555869696

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