Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)

Lakes are a dominant feature of the Arctic landscape and a focal point of regional and global biogeochemical cycling. We collected a sediment core from a High Arctic Lake in southwestern Svalbard for multiproxy paleolimnological analysis. The aim was to find linkages between the terrestrial and aqua...

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Published in:Aquatic Sciences
Main Authors: Luoto, Tomi P., Rantala, Marttiina V., Kivila, E. Henriikka, Nevalainen, Liisa, Ojala, Antti E. K.
Other Authors: Ecosystems and Environment Research Programme
Format: Article in Journal/Newspaper
Language:English
Published: SPRINGER BASEL AG 2019
Subjects:
Bird guano
Carbon
Chironomidae
Diatoms
Microplastic
Nitrogen
RECENT ENVIRONMENTAL-CHANGES
CLIMATE-CHANGE
FRESH-WATER
DIATOM ASSEMBLAGES
INVERTEBRATE COMMUNITIES
LAST MILLENNIUM
PERMAFROST THAW
ORGANIC-MATTER
ISLAND NUNAVUT
LATE HOLOCENE
1172 Environmental sciences
1181 Ecology
evolutionary biology
Arctic
Svalbard
Nunavut
Arctic Lake
Guano
Climate change
glacier
Ice
little auk
permafrost
Online Access:http://hdl.handle.net/10138/300264
id ftunivhelsihelda:oai:helda.helsinki.fi:10138/300264
record_format openpolar
institution Open Polar
collection HELDA – University of Helsinki Open Repository
op_collection_id ftunivhelsihelda
language English
topic Bird guano
Carbon
Chironomidae
Diatoms
Microplastic
Nitrogen
RECENT ENVIRONMENTAL-CHANGES
CLIMATE-CHANGE
FRESH-WATER
DIATOM ASSEMBLAGES
INVERTEBRATE COMMUNITIES
LAST MILLENNIUM
PERMAFROST THAW
ORGANIC-MATTER
ISLAND NUNAVUT
LATE HOLOCENE
1172 Environmental sciences
1181 Ecology
evolutionary biology
spellingShingle Bird guano
Carbon
Chironomidae
Diatoms
Microplastic
Nitrogen
RECENT ENVIRONMENTAL-CHANGES
CLIMATE-CHANGE
FRESH-WATER
DIATOM ASSEMBLAGES
INVERTEBRATE COMMUNITIES
LAST MILLENNIUM
PERMAFROST THAW
ORGANIC-MATTER
ISLAND NUNAVUT
LATE HOLOCENE
1172 Environmental sciences
1181 Ecology
evolutionary biology
Luoto, Tomi P.
Rantala, Marttiina V.
Kivila, E. Henriikka
Nevalainen, Liisa
Ojala, Antti E. K.
Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)
topic_facet Bird guano
Carbon
Chironomidae
Diatoms
Microplastic
Nitrogen
RECENT ENVIRONMENTAL-CHANGES
CLIMATE-CHANGE
FRESH-WATER
DIATOM ASSEMBLAGES
INVERTEBRATE COMMUNITIES
LAST MILLENNIUM
PERMAFROST THAW
ORGANIC-MATTER
ISLAND NUNAVUT
LATE HOLOCENE
1172 Environmental sciences
1181 Ecology
evolutionary biology
description Lakes are a dominant feature of the Arctic landscape and a focal point of regional and global biogeochemical cycling. We collected a sediment core from a High Arctic Lake in southwestern Svalbard for multiproxy paleolimnological analysis. The aim was to find linkages between the terrestrial and aquatic environments in the context of climate change to understand centennial-long Arctic biogeochemical cycling and environmental dynamics. Two significant thresholds in elemental cycling were found based on sediment physical and biogeochemical proxies that were associated with the end of the cold Little Ice Age and the recent warming. We found major shifts in diatom, chironomid and cladoceran communities and their functionality that coincided with increased summer temperatures since the 1950s. We also discovered paleoecological evidence that point toward expanded bird (Little Auk) colonies in the catchment alongside climate warming. Apparently, climate-driven increase in glacier melt water delivery as well as a prolonged snow- and ice-free period have increased the transport of mineral matter from the catchment, causing significant water turbidity and disappearance of several planktonic diatoms and clear-water chironomids. We also found sedimentary accumulation of microplastic particles following the increase in Little Auk populations suggesting that seabirds potentially act as biovectors for plastic contamination. Our study demonstrates the diverse nature of climate-driven changes in the Arctic lacustrine environment with increased inorganic input from the more exposed catchment, larger nutrient delivery from the increased bird colonies at the surrounding mountain summits and subsequent alterations in aquatic communities. Peer reviewed
author2 Ecosystems and Environment Research Programme
format Article in Journal/Newspaper
author Luoto, Tomi P.
Rantala, Marttiina V.
Kivila, E. Henriikka
Nevalainen, Liisa
Ojala, Antti E. K.
author_facet Luoto, Tomi P.
Rantala, Marttiina V.
Kivila, E. Henriikka
Nevalainen, Liisa
Ojala, Antti E. K.
author_sort Luoto, Tomi P.
title Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)
title_short Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)
title_full Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)
title_fullStr Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)
title_full_unstemmed Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard)
title_sort biogeochemical cycling and ecological thresholds in a high arctic lake (svalbard)
publisher SPRINGER BASEL AG
publishDate 2019
url http://hdl.handle.net/10138/300264
long_lat ENVELOPE(-130.826,-130.826,57.231,57.231)
ENVELOPE(141.604,141.604,-66.775,-66.775)
geographic Arctic
Svalbard
Nunavut
Arctic Lake
Guano
geographic_facet Arctic
Svalbard
Nunavut
Arctic Lake
Guano
genre Arctic
Arctic
Climate change
glacier
Ice
little auk
Nunavut
permafrost
Svalbard
genre_facet Arctic
Arctic
Climate change
glacier
Ice
little auk
Nunavut
permafrost
Svalbard
op_relation 10.1007/s00027-019-0630-7
Open access funding provided by University of Helsinki including Helsinki University Central Hospital. Financial support for the study was proved by the Kone Foundation [T.P. Luoto, Grant#090140], Emil Aaltonen Foundation [T.P. Luoto, Grants#160156, 170161 and 180151] and Academy of Finland [A.E.K. Ojala, Grant#259343; L. Nevalainen, Grant#308954, M.V. Rantala, Grant#314107]. We thank Laura Arppe, Mimmi Oksman, Marek Zajaczkowski, Mateusz Damrat, Joanna Pawlowska and the crew of the Polish Polar Station Hornsund for their help with the fieldwork and logistical support. We are grateful for the two journal reviewers for constructive comments that helped to improve the quality and value of the manuscript.
Luoto , T P , Rantala , M V , Kivila , E H , Nevalainen , L & Ojala , A E K 2019 , ' Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard) ' , Aquatic Sciences , vol. 81 , no. 2 , 34 . https://doi.org/10.1007/s00027-019-0630-7
ORCID: /0000-0001-6925-3688/work/55613749
ORCID: /0000-0002-3231-5926/work/55618567
ORCID: /0000-0001-6837-8753/work/55619188
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op_rights cc_by
openAccess
info:eu-repo/semantics/openAccess
container_title Aquatic Sciences
container_volume 81
container_issue 2
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spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/300264 2024-01-07T09:40:47+01:00 Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard) Luoto, Tomi P. Rantala, Marttiina V. Kivila, E. Henriikka Nevalainen, Liisa Ojala, Antti E. K. Ecosystems and Environment Research Programme 2019-03-21T13:22:01Z 16 application/pdf http://hdl.handle.net/10138/300264 eng eng SPRINGER BASEL AG 10.1007/s00027-019-0630-7 Open access funding provided by University of Helsinki including Helsinki University Central Hospital. Financial support for the study was proved by the Kone Foundation [T.P. Luoto, Grant#090140], Emil Aaltonen Foundation [T.P. Luoto, Grants#160156, 170161 and 180151] and Academy of Finland [A.E.K. Ojala, Grant#259343; L. Nevalainen, Grant#308954, M.V. Rantala, Grant#314107]. We thank Laura Arppe, Mimmi Oksman, Marek Zajaczkowski, Mateusz Damrat, Joanna Pawlowska and the crew of the Polish Polar Station Hornsund for their help with the fieldwork and logistical support. We are grateful for the two journal reviewers for constructive comments that helped to improve the quality and value of the manuscript. Luoto , T P , Rantala , M V , Kivila , E H , Nevalainen , L & Ojala , A E K 2019 , ' Biogeochemical cycling and ecological thresholds in a High Arctic lake (Svalbard) ' , Aquatic Sciences , vol. 81 , no. 2 , 34 . https://doi.org/10.1007/s00027-019-0630-7 ORCID: /0000-0001-6925-3688/work/55613749 ORCID: /0000-0002-3231-5926/work/55618567 ORCID: /0000-0001-6837-8753/work/55619188 85061767802 65a93907-beaa-462b-86fa-851c31e8dec1 http://hdl.handle.net/10138/300264 000459255300001 cc_by openAccess info:eu-repo/semantics/openAccess Bird guano Carbon Chironomidae Diatoms Microplastic Nitrogen RECENT ENVIRONMENTAL-CHANGES CLIMATE-CHANGE FRESH-WATER DIATOM ASSEMBLAGES INVERTEBRATE COMMUNITIES LAST MILLENNIUM PERMAFROST THAW ORGANIC-MATTER ISLAND NUNAVUT LATE HOLOCENE 1172 Environmental sciences 1181 Ecology evolutionary biology Article publishedVersion 2019 ftunivhelsihelda 2023-12-14T00:06:06Z Lakes are a dominant feature of the Arctic landscape and a focal point of regional and global biogeochemical cycling. We collected a sediment core from a High Arctic Lake in southwestern Svalbard for multiproxy paleolimnological analysis. The aim was to find linkages between the terrestrial and aquatic environments in the context of climate change to understand centennial-long Arctic biogeochemical cycling and environmental dynamics. Two significant thresholds in elemental cycling were found based on sediment physical and biogeochemical proxies that were associated with the end of the cold Little Ice Age and the recent warming. We found major shifts in diatom, chironomid and cladoceran communities and their functionality that coincided with increased summer temperatures since the 1950s. We also discovered paleoecological evidence that point toward expanded bird (Little Auk) colonies in the catchment alongside climate warming. Apparently, climate-driven increase in glacier melt water delivery as well as a prolonged snow- and ice-free period have increased the transport of mineral matter from the catchment, causing significant water turbidity and disappearance of several planktonic diatoms and clear-water chironomids. We also found sedimentary accumulation of microplastic particles following the increase in Little Auk populations suggesting that seabirds potentially act as biovectors for plastic contamination. Our study demonstrates the diverse nature of climate-driven changes in the Arctic lacustrine environment with increased inorganic input from the more exposed catchment, larger nutrient delivery from the increased bird colonies at the surrounding mountain summits and subsequent alterations in aquatic communities. Peer reviewed Article in Journal/Newspaper Arctic Arctic Climate change glacier Ice little auk Nunavut permafrost Svalbard HELDA – University of Helsinki Open Repository Arctic Svalbard Nunavut Arctic Lake ENVELOPE(-130.826,-130.826,57.231,57.231) Guano ENVELOPE(141.604,141.604,-66.775,-66.775) Aquatic Sciences 81 2

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