Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs

Climate change in the Arctic is outpacing the global average and land-use is intensifying due to exploitation of previously inaccessible or unprofitable natural resources. A comprehensive understanding of how the joint effects of changing climate and productivity modify lake food web structure, biom...

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Published in:Global Change Biology
Main Authors: Keva, Ossi, Taipale, Sami J., Hayden, Brian, Thomas, Stephen M., Vesterinen, Jussi, Kankaala, Paula, Kahilainen, Kimmo K.
Other Authors: Biological stations, Lammi Biological Station, Kilpisjärvi Biological Station
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2021
Subjects:
DOC
food web structure
forestry
land&#8208
use
nutrients
omega&#8208
3 HUFA
trophic level
trophic pyramid
POLYUNSATURATED FATTY-ACIDS
ECOSYSTEM SIZE
CHAIN LENGTH
CLIMATE
FISH
COREGONUS
BIOACCUMULATION
EUTROPHICATION
MORPHOMETRY
POPULATIONS
1181 Ecology
evolutionary biology
Arctic
Pyramid
Climate change
Phytoplankton
Subarctic
Zooplankton
Online Access:http://hdl.handle.net/10138/337432
id ftunivhelsihelda:oai:helda.helsinki.fi:10138/337432
record_format openpolar
institution Open Polar
collection HELDA – University of Helsinki Open Repository
op_collection_id ftunivhelsihelda
language English
topic DOC
food web structure
forestry
land&#8208
use
nutrients
omega&#8208
3 HUFA
trophic level
trophic pyramid
POLYUNSATURATED FATTY-ACIDS
ECOSYSTEM SIZE
CHAIN LENGTH
CLIMATE
FISH
COREGONUS
BIOACCUMULATION
EUTROPHICATION
MORPHOMETRY
POPULATIONS
1181 Ecology
evolutionary biology
spellingShingle DOC
food web structure
forestry
land&#8208
use
nutrients
omega&#8208
3 HUFA
trophic level
trophic pyramid
POLYUNSATURATED FATTY-ACIDS
ECOSYSTEM SIZE
CHAIN LENGTH
CLIMATE
FISH
COREGONUS
BIOACCUMULATION
EUTROPHICATION
MORPHOMETRY
POPULATIONS
1181 Ecology
evolutionary biology
Keva, Ossi
Taipale, Sami J.
Hayden, Brian
Thomas, Stephen M.
Vesterinen, Jussi
Kankaala, Paula
Kahilainen, Kimmo K.
Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
topic_facet DOC
food web structure
forestry
land&#8208
use
nutrients
omega&#8208
3 HUFA
trophic level
trophic pyramid
POLYUNSATURATED FATTY-ACIDS
ECOSYSTEM SIZE
CHAIN LENGTH
CLIMATE
FISH
COREGONUS
BIOACCUMULATION
EUTROPHICATION
MORPHOMETRY
POPULATIONS
1181 Ecology
evolutionary biology
description Climate change in the Arctic is outpacing the global average and land-use is intensifying due to exploitation of previously inaccessible or unprofitable natural resources. A comprehensive understanding of how the joint effects of changing climate and productivity modify lake food web structure, biomass, trophic pyramid shape and abundance of physiologically essential biomolecules (omega-3 fatty acids) in the biotic community is lacking. We conducted a space-for-time study in 20 subarctic lakes spanning a climatic (+3.2 degrees C and precipitation: +30%) and chemical (dissolved organic carbon: +10 mg/L, total phosphorus: +45 mu g/L and total nitrogen: +1,000 mu g/L) gradient to test how temperature and productivity jointly affect the structure, biomass and community fatty acid content (eicosapentaenoic acid [EPA] and docosahexaenoic acid [DHA]) of whole food webs. Increasing temperature and productivity shifted lake communities towards dominance of warmer, murky-water-adapted taxa, with a general increase in the biomass of primary producers, and secondary and tertiary consumers, while primary invertebrate consumers did not show equally clear trends. This process altered various trophic pyramid structures towards an hour glass shape in the warmest and most productive lakes. Increasing temperature and productivity had negative fatty acid content trends (mg EPA + DHA/g dry weight) in primary producers and primary consumers, but not in secondary nor tertiary fish consumers. The massive biomass increment of fish led to increasing areal fatty acid content (kg EPA + DHA/ha) towards increasingly warmer, more productive lakes, but there were no significant trends in other trophic levels. Increasing temperature and productivity are shifting subarctic lake communities towards systems characterized by increasing dominance of cyanobacteria and cyprinid fish, although decreasing quality in terms of EPA + DHA content was observed only in phytoplankton, zooplankton and profundal benthos. Peer reviewed
author2 Biological stations
Lammi Biological Station
Kilpisjärvi Biological Station
format Article in Journal/Newspaper
author Keva, Ossi
Taipale, Sami J.
Hayden, Brian
Thomas, Stephen M.
Vesterinen, Jussi
Kankaala, Paula
Kahilainen, Kimmo K.
author_facet Keva, Ossi
Taipale, Sami J.
Hayden, Brian
Thomas, Stephen M.
Vesterinen, Jussi
Kankaala, Paula
Kahilainen, Kimmo K.
author_sort Keva, Ossi
title Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
title_short Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
title_full Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
title_fullStr Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
title_full_unstemmed Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
title_sort increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs
publisher Wiley
publishDate 2021
url http://hdl.handle.net/10138/337432
long_lat ENVELOPE(157.300,157.300,-81.333,-81.333)
geographic Arctic
Pyramid
geographic_facet Arctic
Pyramid
genre Arctic
Climate change
Phytoplankton
Subarctic
Zooplankton
genre_facet Arctic
Climate change
Phytoplankton
Subarctic
Zooplankton
op_relation 10.1111/gcb.15387
We thank all who contributed their help in the field and laboratory over the data collection period. Kilpisjärvi Biological Station, Muddusjärvi Research Station, Muonio County Fish Facility and Nuottavaara Village Association provided excellent field laboratory facilities. Funding was received from Academy of Finland (projects 1140903, 1268566 to K.K.K. and 310450 to P.K.) European Regional Development Fund (A30205 to K.K.K.), Ministry of Agriculture and Forestry of Finland (K.K.K.), Emil Aaltonen Foundation (K.K.K.), University of Jyväskylä graduate fund (O.K.). All authors declare no conflict of interest. At all stages of this study, national guidelines (FI‐564/2013 & FI‐487/2013) and the European Union directive (2010/63/EU) on the protection of animals used for scientific purposes were applied. We thank all who contributed their help in the field and laboratory over the data collection period. Kilpisj?rvi Biological Station, Muddusj?rvi Research Station, Muonio County Fish Facility and Nuottavaara Village Association provided excellent field laboratory facilities. Funding was received from Academy of Finland (projects 1140903, 1268566 to K.K.K. and 310450 to P.K.) European Regional Development Fund (A30205 to K.K.K.), Ministry of Agriculture and Forestry of Finland (K.K.K.), Emil Aaltonen Foundation (K.K.K.), University of Jyv?skyl? graduate fund (O.K.). All authors declare no conflict of interest. At all stages of this study, national guidelines (FI-564/2013 & FI-487/2013) and the European Union directive (2010/63/EU) on the protection of animals used for scientific purposes were applied.
Keva , O , Taipale , S J , Hayden , B , Thomas , S M , Vesterinen , J , Kankaala , P & Kahilainen , K K 2021 , ' Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs ' , Global Change Biology , vol. 27 , no. 2 , pp. 282-296 . https://doi.org/10.1111/gcb.15387
ORCID: /0000-0002-1539-014X/work/87783187
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op_rights openAccess
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container_title Global Change Biology
container_volume 27
container_issue 2
container_start_page 282
op_container_end_page 296
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spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/337432 2024-01-07T09:42:02+01:00 Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs Keva, Ossi Taipale, Sami J. Hayden, Brian Thomas, Stephen M. Vesterinen, Jussi Kankaala, Paula Kahilainen, Kimmo K. Biological stations Lammi Biological Station Kilpisjärvi Biological Station 2021-12-14T07:44:04Z 15 application/pdf http://hdl.handle.net/10138/337432 eng eng Wiley 10.1111/gcb.15387 We thank all who contributed their help in the field and laboratory over the data collection period. Kilpisjärvi Biological Station, Muddusjärvi Research Station, Muonio County Fish Facility and Nuottavaara Village Association provided excellent field laboratory facilities. Funding was received from Academy of Finland (projects 1140903, 1268566 to K.K.K. and 310450 to P.K.) European Regional Development Fund (A30205 to K.K.K.), Ministry of Agriculture and Forestry of Finland (K.K.K.), Emil Aaltonen Foundation (K.K.K.), University of Jyväskylä graduate fund (O.K.). All authors declare no conflict of interest. At all stages of this study, national guidelines (FI‐564/2013 & FI‐487/2013) and the European Union directive (2010/63/EU) on the protection of animals used for scientific purposes were applied. We thank all who contributed their help in the field and laboratory over the data collection period. Kilpisj?rvi Biological Station, Muddusj?rvi Research Station, Muonio County Fish Facility and Nuottavaara Village Association provided excellent field laboratory facilities. Funding was received from Academy of Finland (projects 1140903, 1268566 to K.K.K. and 310450 to P.K.) European Regional Development Fund (A30205 to K.K.K.), Ministry of Agriculture and Forestry of Finland (K.K.K.), Emil Aaltonen Foundation (K.K.K.), University of Jyv?skyl? graduate fund (O.K.). All authors declare no conflict of interest. At all stages of this study, national guidelines (FI-564/2013 & FI-487/2013) and the European Union directive (2010/63/EU) on the protection of animals used for scientific purposes were applied. Keva , O , Taipale , S J , Hayden , B , Thomas , S M , Vesterinen , J , Kankaala , P & Kahilainen , K K 2021 , ' Increasing temperature and productivity change biomass, trophic pyramids and community-level omega-3 fatty acid content in subarctic lake food webs ' , Global Change Biology , vol. 27 , no. 2 , pp. 282-296 . https://doi.org/10.1111/gcb.15387 ORCID: /0000-0002-1539-014X/work/87783187 cfc8f58a-c9f1-494c-bf5b-02a85f7e8e3d http://hdl.handle.net/10138/337432 000585071900001 openAccess info:eu-repo/semantics/openAccess DOC food web structure forestry land&#8208 use nutrients omega&#8208 3 HUFA trophic level trophic pyramid POLYUNSATURATED FATTY-ACIDS ECOSYSTEM SIZE CHAIN LENGTH CLIMATE FISH COREGONUS BIOACCUMULATION EUTROPHICATION MORPHOMETRY POPULATIONS 1181 Ecology evolutionary biology Article acceptedVersion 2021 ftunivhelsihelda 2023-12-14T00:02:06Z Climate change in the Arctic is outpacing the global average and land-use is intensifying due to exploitation of previously inaccessible or unprofitable natural resources. A comprehensive understanding of how the joint effects of changing climate and productivity modify lake food web structure, biomass, trophic pyramid shape and abundance of physiologically essential biomolecules (omega-3 fatty acids) in the biotic community is lacking. We conducted a space-for-time study in 20 subarctic lakes spanning a climatic (+3.2 degrees C and precipitation: +30%) and chemical (dissolved organic carbon: +10 mg/L, total phosphorus: +45 mu g/L and total nitrogen: +1,000 mu g/L) gradient to test how temperature and productivity jointly affect the structure, biomass and community fatty acid content (eicosapentaenoic acid [EPA] and docosahexaenoic acid [DHA]) of whole food webs. Increasing temperature and productivity shifted lake communities towards dominance of warmer, murky-water-adapted taxa, with a general increase in the biomass of primary producers, and secondary and tertiary consumers, while primary invertebrate consumers did not show equally clear trends. This process altered various trophic pyramid structures towards an hour glass shape in the warmest and most productive lakes. Increasing temperature and productivity had negative fatty acid content trends (mg EPA + DHA/g dry weight) in primary producers and primary consumers, but not in secondary nor tertiary fish consumers. The massive biomass increment of fish led to increasing areal fatty acid content (kg EPA + DHA/ha) towards increasingly warmer, more productive lakes, but there were no significant trends in other trophic levels. Increasing temperature and productivity are shifting subarctic lake communities towards systems characterized by increasing dominance of cyanobacteria and cyprinid fish, although decreasing quality in terms of EPA + DHA content was observed only in phytoplankton, zooplankton and profundal benthos. Peer reviewed Article in Journal/Newspaper Arctic Climate change Phytoplankton Subarctic Zooplankton HELDA – University of Helsinki Open Repository Arctic Pyramid ENVELOPE(157.300,157.300,-81.333,-81.333) Global Change Biology 27 2 282 296

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