Insect herbivory dampens Subarctic birch forest C sink response to warming
Climate warming is anticipated to make high latitude ecosystems stronger C sinks through increasing plant production. This effect might, however, be dampened by insect herbivores whose damage to plants at their background, non-outbreak densities may more than double under climate warming. Here, usin...
| Published in: | Nature Communications |
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| Main Authors: | , , , , , , , , , |
| Other Authors: | , , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Nature Publishing Group
2021
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10138/332379 |
| _version_ | 1821722796987777024 |
|---|---|
| author | Silfver, Tarja Heiskanen, Lauri Aurela, Mika Myller, Kristiina Karhu, Kristiina Meyer, Nele Tuovinen, Juha-Pekka Oksanen, Elina Rousi, Matti Mikola, Juha |
| author2 | Ecosystems and Environment Research Programme Department of Forest Sciences Soils and climate change Forest Soil Science Forest Ecology and Management Environmental Change Research Unit (ECRU) |
| author_facet | Silfver, Tarja Heiskanen, Lauri Aurela, Mika Myller, Kristiina Karhu, Kristiina Meyer, Nele Tuovinen, Juha-Pekka Oksanen, Elina Rousi, Matti Mikola, Juha |
| author_sort | Silfver, Tarja |
| collection | HELDA – University of Helsinki Open Repository |
| container_issue | 1 |
| container_title | Nature Communications |
| container_volume | 11 |
| description | Climate warming is anticipated to make high latitude ecosystems stronger C sinks through increasing plant production. This effect might, however, be dampened by insect herbivores whose damage to plants at their background, non-outbreak densities may more than double under climate warming. Here, using an open-air warming experiment among Subarctic birch forest field layer vegetation, supplemented with birch plantlets, we show that a 2.3 degrees C air and 1.2 degrees C soil temperature increase can advance the growing season by 1-4 days, enhance soil N availability, leaf chlorophyll concentrations and plant growth up to 400%, 160% and 50% respectively, and lead up to 122% greater ecosystem CO2 uptake potential. However, comparable positive effects are also found when insect herbivory is reduced, and the effect of warming on C sink potential is intensified under reduced herbivory. Our results confirm the expected warming-induced increase in high latitude plant growth and CO2 uptake, but also reveal that herbivorous insects may significantly dampen the strengthening of the CO2 sink under climate warming. Warming is expected to increase C sink capacity in high-latitude ecosystems, but plant-herbivore interactions could moderate or offset this effect. Here, Silfver and colleagues test individual and interactive effects of warming and insect herbivory in a field experiment in Subarctic forest, showing that even low intensity insect herbivory strongly reduces C sink potential. Peer reviewed |
| format | Article in Journal/Newspaper |
| genre | Subarctic |
| genre_facet | Subarctic |
| id | ftunivhelsihelda:oai:helda.helsinki.fi:10138/332379 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivhelsihelda |
| op_relation | 10.1038/s41467-020-16404-4 This research was supported by the Academy of Finland (Grants 285030 and 296888) and Kone Foundation (a personal grant to T.S.). The authors thank T. Ryynanen for designing and assembling the heating apparatus, J. Unga and K. Ranta for collecting birch material, T. Lehtosalo, N. Fontaine, T. Dubo, and M. Fontaneu for assisting in data collection, M. Lehtonen for analyzing N, S. Robinson for commenting and editing language, L. Mehtatalo (University of Eastern Finland statistical consulting services) for advising in statistics, and the Kevo staff, especially O. Suominen, I. Syvanpera, and E. Vainio, for providing excellent facilities and assistance throughout the years. Silfver , T , Heiskanen , L , Aurela , M , Myller , K , Karhu , K , Meyer , N , Tuovinen , J-P , Oksanen , E , Rousi , M & Mikola , J 2020 , ' Insect herbivory dampens Subarctic birch forest C sink response to warming ' , Nature Communications , vol. 11 , 2529 . https://doi.org/10.1038/s41467-020-16404-4 ORCID: /0000-0002-4336-2648/work/96889007 ORCID: /0000-0003-0619-5008/work/96892416 018fce7a-e3a9-4c74-98ed-b996e29373f1 http://hdl.handle.net/10138/332379 000537066900001 |
| op_rights | cc_by openAccess info:eu-repo/semantics/openAccess |
| publishDate | 2021 |
| publisher | Nature Publishing Group |
| record_format | openpolar |
| spelling | ftunivhelsihelda:oai:helda.helsinki.fi:10138/332379 2025-01-17T01:00:11+00:00 Insect herbivory dampens Subarctic birch forest C sink response to warming Silfver, Tarja Heiskanen, Lauri Aurela, Mika Myller, Kristiina Karhu, Kristiina Meyer, Nele Tuovinen, Juha-Pekka Oksanen, Elina Rousi, Matti Mikola, Juha Ecosystems and Environment Research Programme Department of Forest Sciences Soils and climate change Forest Soil Science Forest Ecology and Management Environmental Change Research Unit (ECRU) 2021-07-12T16:19:01Z 9 application/pdf http://hdl.handle.net/10138/332379 eng eng Nature Publishing Group 10.1038/s41467-020-16404-4 This research was supported by the Academy of Finland (Grants 285030 and 296888) and Kone Foundation (a personal grant to T.S.). The authors thank T. Ryynanen for designing and assembling the heating apparatus, J. Unga and K. Ranta for collecting birch material, T. Lehtosalo, N. Fontaine, T. Dubo, and M. Fontaneu for assisting in data collection, M. Lehtonen for analyzing N, S. Robinson for commenting and editing language, L. Mehtatalo (University of Eastern Finland statistical consulting services) for advising in statistics, and the Kevo staff, especially O. Suominen, I. Syvanpera, and E. Vainio, for providing excellent facilities and assistance throughout the years. Silfver , T , Heiskanen , L , Aurela , M , Myller , K , Karhu , K , Meyer , N , Tuovinen , J-P , Oksanen , E , Rousi , M & Mikola , J 2020 , ' Insect herbivory dampens Subarctic birch forest C sink response to warming ' , Nature Communications , vol. 11 , 2529 . https://doi.org/10.1038/s41467-020-16404-4 ORCID: /0000-0002-4336-2648/work/96889007 ORCID: /0000-0003-0619-5008/work/96892416 018fce7a-e3a9-4c74-98ed-b996e29373f1 http://hdl.handle.net/10138/332379 000537066900001 cc_by openAccess info:eu-repo/semantics/openAccess 3-WAY INTERACTIONS CO2 EXCHANGE CLIMATE GROWTH TEMPERATURE PHOTOSYNTHESIS PERFORMANCE RESISTANCE GRADIENTS FOLIVORY 11831 Plant biology 1181 Ecology evolutionary biology Article publishedVersion 2021 ftunivhelsihelda 2023-12-14T00:04:09Z Climate warming is anticipated to make high latitude ecosystems stronger C sinks through increasing plant production. This effect might, however, be dampened by insect herbivores whose damage to plants at their background, non-outbreak densities may more than double under climate warming. Here, using an open-air warming experiment among Subarctic birch forest field layer vegetation, supplemented with birch plantlets, we show that a 2.3 degrees C air and 1.2 degrees C soil temperature increase can advance the growing season by 1-4 days, enhance soil N availability, leaf chlorophyll concentrations and plant growth up to 400%, 160% and 50% respectively, and lead up to 122% greater ecosystem CO2 uptake potential. However, comparable positive effects are also found when insect herbivory is reduced, and the effect of warming on C sink potential is intensified under reduced herbivory. Our results confirm the expected warming-induced increase in high latitude plant growth and CO2 uptake, but also reveal that herbivorous insects may significantly dampen the strengthening of the CO2 sink under climate warming. Warming is expected to increase C sink capacity in high-latitude ecosystems, but plant-herbivore interactions could moderate or offset this effect. Here, Silfver and colleagues test individual and interactive effects of warming and insect herbivory in a field experiment in Subarctic forest, showing that even low intensity insect herbivory strongly reduces C sink potential. Peer reviewed Article in Journal/Newspaper Subarctic HELDA – University of Helsinki Open Repository Nature Communications 11 1 |
| spellingShingle | 3-WAY INTERACTIONS CO2 EXCHANGE CLIMATE GROWTH TEMPERATURE PHOTOSYNTHESIS PERFORMANCE RESISTANCE GRADIENTS FOLIVORY 11831 Plant biology 1181 Ecology evolutionary biology Silfver, Tarja Heiskanen, Lauri Aurela, Mika Myller, Kristiina Karhu, Kristiina Meyer, Nele Tuovinen, Juha-Pekka Oksanen, Elina Rousi, Matti Mikola, Juha Insect herbivory dampens Subarctic birch forest C sink response to warming |
| title | Insect herbivory dampens Subarctic birch forest C sink response to warming |
| title_full | Insect herbivory dampens Subarctic birch forest C sink response to warming |
| title_fullStr | Insect herbivory dampens Subarctic birch forest C sink response to warming |
| title_full_unstemmed | Insect herbivory dampens Subarctic birch forest C sink response to warming |
| title_short | Insect herbivory dampens Subarctic birch forest C sink response to warming |
| title_sort | insect herbivory dampens subarctic birch forest c sink response to warming |
| topic | 3-WAY INTERACTIONS CO2 EXCHANGE CLIMATE GROWTH TEMPERATURE PHOTOSYNTHESIS PERFORMANCE RESISTANCE GRADIENTS FOLIVORY 11831 Plant biology 1181 Ecology evolutionary biology |
| topic_facet | 3-WAY INTERACTIONS CO2 EXCHANGE CLIMATE GROWTH TEMPERATURE PHOTOSYNTHESIS PERFORMANCE RESISTANCE GRADIENTS FOLIVORY 11831 Plant biology 1181 Ecology evolutionary biology |
| url | http://hdl.handle.net/10138/332379 |