Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms

The consequences of warming-induced ‘shrubification’ on Arctic soil carbon storage are receiving increased attention, as the majority of ecosystem carbon in these systems is stored in soils. Soil carbon cycles in these ecosystems are usually tightly coupled with nitrogen availability. Soil microbial...

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Published in:Ecosystems
Main Authors: Stark, Sari, Kumar, Manoj, Myrsky, Eero, Vuorinen, Jere, Kantola, Anu M., Telkki, Ville-Veikko, Sjögersten, Sofie, Olofsson, Johan, Männistö, Minna K.
Format: Article in Journal/Newspaper
Language:English
Published: 2023
Subjects:
mountain birch forest
tundra heath
Empetrum hermaphroditum
climate warming
soil organic matter
extracellular enzymes
CO2 release
/dk/atira/pure/person/fieldofscience2010/1/18/1
name=Ecology
evolutionary biology
/dk/atira/pure/person/fieldofscience2010/1/18/3
name=Plant biology
microbiology
virology
Arctic
Betula nana
Northern Sweden
Subarctic
Tundra
Online Access:https://research.ulapland.fi/fi/publications/ad49df15-2c36-45d4-b6fa-350418d42a57
https://doi.org/10.1007/s10021-023-00847-z
https://lacris.ulapland.fi/ws/files/36862188/Decreased_Soil_Microbial_Nitrogen.pdf
http://www.scopus.com/inward/record.url?scp=85159079814&partnerID=8YFLogxK
http://www.scopus.com/inward/citedby.url?scp=85159079814&partnerID=8YFLogxK
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spelling ftulaplandcdispu:oai:lacris.ulapland.fi:publications/ad49df15-2c36-45d4-b6fa-350418d42a57 2024-09-09T19:28:24+00:00 Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms Stark, Sari Kumar, Manoj Myrsky, Eero Vuorinen, Jere Kantola, Anu M. Telkki, Ville-Veikko Sjögersten, Sofie Olofsson, Johan Männistö, Minna K. 2023-11 application/pdf https://research.ulapland.fi/fi/publications/ad49df15-2c36-45d4-b6fa-350418d42a57 https://doi.org/10.1007/s10021-023-00847-z https://lacris.ulapland.fi/ws/files/36862188/Decreased_Soil_Microbial_Nitrogen.pdf http://www.scopus.com/inward/record.url?scp=85159079814&partnerID=8YFLogxK http://www.scopus.com/inward/citedby.url?scp=85159079814&partnerID=8YFLogxK eng eng https://research.ulapland.fi/fi/publications/ad49df15-2c36-45d4-b6fa-350418d42a57 info:eu-repo/semantics/openAccess Stark , S , Kumar , M , Myrsky , E , Vuorinen , J , Kantola , A M , Telkki , V-V , Sjögersten , S , Olofsson , J & Männistö , M K 2023 , ' Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone : The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms ' , Ecosystems , vol. 26 , no. 7 , pp. 1504–1523 . https://doi.org/10.1007/s10021-023-00847-z mountain birch forest tundra heath Empetrum hermaphroditum climate warming soil organic matter extracellular enzymes CO2 release /dk/atira/pure/person/fieldofscience2010/1/18/1 name=Ecology evolutionary biology /dk/atira/pure/person/fieldofscience2010/1/18/3 name=Plant biology microbiology virology article 2023 ftulaplandcdispu https://doi.org/10.1007/s10021-023-00847-z 2024-06-17T23:40:44Z The consequences of warming-induced ‘shrubification’ on Arctic soil carbon storage are receiving increased attention, as the majority of ecosystem carbon in these systems is stored in soils. Soil carbon cycles in these ecosystems are usually tightly coupled with nitrogen availability. Soil microbial responses to ‘shrubification’ may depend on the traits of the shrub species that increase in response to warming. Increase in deciduous shrubs such as Betula nana likely promotes a loss of soil carbon, whereas the opposite may be true if evergreen shrubs such as Empetrum hermaphroditum increase. We analyzed soil organic matter stocks and 13C NMR fractions, microbial CO2 respiration, biomass, extracellular enzyme activities (EEAs), and their association with shrub density in northern Sweden after 20 years of experimental warming using open top chambers (OTCs). Our study sites were located in a tundra heath that stores high soil carbon quantities and where the OTCs had increased deciduous shrubs, and in a mountain birch forest that stores lower soil carbon quantities and where the OTCs had increased evergreen shrubs. We predicted that organic matter stocks should be lower and respiration and EEAs higher inside the OTCs than untreated plots in the tundra, whereas no effect should be detected in the forest. Soil organic matter stocks and 13C NMR fractions remained unaffected at both sites. When expressed as per gram microbial biomass, respiration and EEAs for carbohydrate and chitin degradation were higher inside the OTCs, and contrasting our prediction, this effect was stronger in the forest. Unexpectedly, the OTCs also led to a substantially lower microbial biomass carbon and nitrogen irrespective of habitat. The decline in the microbial biomass counteracted increased activities resulting in no effect of the OTCs on respiration and a lower phenol oxidase activity per gram soil. Microbial biomass nitrogen correlated negatively with evergreen shrub density at both sites, indicating that ‘shrubification’ may have ... Article in Journal/Newspaper Arctic Betula nana Northern Sweden Subarctic Tundra LaCRIS - University of Lapland Current Research System Arctic Ecosystems 26 7 1504 1523
institution Open Polar
collection LaCRIS - University of Lapland Current Research System
op_collection_id ftulaplandcdispu
language English
topic mountain birch forest
tundra heath
Empetrum hermaphroditum
climate warming
soil organic matter
extracellular enzymes
CO2 release
/dk/atira/pure/person/fieldofscience2010/1/18/1
name=Ecology
evolutionary biology
/dk/atira/pure/person/fieldofscience2010/1/18/3
name=Plant biology
microbiology
virology
spellingShingle mountain birch forest
tundra heath
Empetrum hermaphroditum
climate warming
soil organic matter
extracellular enzymes
CO2 release
/dk/atira/pure/person/fieldofscience2010/1/18/1
name=Ecology
evolutionary biology
/dk/atira/pure/person/fieldofscience2010/1/18/3
name=Plant biology
microbiology
virology
Stark, Sari
Kumar, Manoj
Myrsky, Eero
Vuorinen, Jere
Kantola, Anu M.
Telkki, Ville-Veikko
Sjögersten, Sofie
Olofsson, Johan
Männistö, Minna K.
Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms
topic_facet mountain birch forest
tundra heath
Empetrum hermaphroditum
climate warming
soil organic matter
extracellular enzymes
CO2 release
/dk/atira/pure/person/fieldofscience2010/1/18/1
name=Ecology
evolutionary biology
/dk/atira/pure/person/fieldofscience2010/1/18/3
name=Plant biology
microbiology
virology
description The consequences of warming-induced ‘shrubification’ on Arctic soil carbon storage are receiving increased attention, as the majority of ecosystem carbon in these systems is stored in soils. Soil carbon cycles in these ecosystems are usually tightly coupled with nitrogen availability. Soil microbial responses to ‘shrubification’ may depend on the traits of the shrub species that increase in response to warming. Increase in deciduous shrubs such as Betula nana likely promotes a loss of soil carbon, whereas the opposite may be true if evergreen shrubs such as Empetrum hermaphroditum increase. We analyzed soil organic matter stocks and 13C NMR fractions, microbial CO2 respiration, biomass, extracellular enzyme activities (EEAs), and their association with shrub density in northern Sweden after 20 years of experimental warming using open top chambers (OTCs). Our study sites were located in a tundra heath that stores high soil carbon quantities and where the OTCs had increased deciduous shrubs, and in a mountain birch forest that stores lower soil carbon quantities and where the OTCs had increased evergreen shrubs. We predicted that organic matter stocks should be lower and respiration and EEAs higher inside the OTCs than untreated plots in the tundra, whereas no effect should be detected in the forest. Soil organic matter stocks and 13C NMR fractions remained unaffected at both sites. When expressed as per gram microbial biomass, respiration and EEAs for carbohydrate and chitin degradation were higher inside the OTCs, and contrasting our prediction, this effect was stronger in the forest. Unexpectedly, the OTCs also led to a substantially lower microbial biomass carbon and nitrogen irrespective of habitat. The decline in the microbial biomass counteracted increased activities resulting in no effect of the OTCs on respiration and a lower phenol oxidase activity per gram soil. Microbial biomass nitrogen correlated negatively with evergreen shrub density at both sites, indicating that ‘shrubification’ may have ...
format Article in Journal/Newspaper
author Stark, Sari
Kumar, Manoj
Myrsky, Eero
Vuorinen, Jere
Kantola, Anu M.
Telkki, Ville-Veikko
Sjögersten, Sofie
Olofsson, Johan
Männistö, Minna K.
author_facet Stark, Sari
Kumar, Manoj
Myrsky, Eero
Vuorinen, Jere
Kantola, Anu M.
Telkki, Ville-Veikko
Sjögersten, Sofie
Olofsson, Johan
Männistö, Minna K.
author_sort Stark, Sari
title Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms
title_short Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms
title_full Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms
title_fullStr Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms
title_full_unstemmed Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone:The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms
title_sort decreased soil microbial nitrogen under vegetation ‘shrubification’ in the subarctic forest–tundra ecotone:the potential role of increasing nutrient competition between plants and soil microorganisms
publishDate 2023
url https://research.ulapland.fi/fi/publications/ad49df15-2c36-45d4-b6fa-350418d42a57
https://doi.org/10.1007/s10021-023-00847-z
https://lacris.ulapland.fi/ws/files/36862188/Decreased_Soil_Microbial_Nitrogen.pdf
http://www.scopus.com/inward/record.url?scp=85159079814&partnerID=8YFLogxK
http://www.scopus.com/inward/citedby.url?scp=85159079814&partnerID=8YFLogxK
geographic Arctic
geographic_facet Arctic
genre Arctic
Betula nana
Northern Sweden
Subarctic
Tundra
genre_facet Arctic
Betula nana
Northern Sweden
Subarctic
Tundra
op_source Stark , S , Kumar , M , Myrsky , E , Vuorinen , J , Kantola , A M , Telkki , V-V , Sjögersten , S , Olofsson , J & Männistö , M K 2023 , ' Decreased Soil Microbial Nitrogen Under Vegetation ‘Shrubification’ in the Subarctic Forest–Tundra Ecotone : The Potential Role of Increasing Nutrient Competition Between Plants and Soil Microorganisms ' , Ecosystems , vol. 26 , no. 7 , pp. 1504–1523 . https://doi.org/10.1007/s10021-023-00847-z
op_relation https://research.ulapland.fi/fi/publications/ad49df15-2c36-45d4-b6fa-350418d42a57
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1007/s10021-023-00847-z
container_title Ecosystems
container_volume 26
container_issue 7
container_start_page 1504
op_container_end_page 1523
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