Parasitoids indicate major climate-induced shifts in arctic communities

Climatic impacts are especially pronounced in the Arctic, which as a region is warming twice as fast as the rest of the globe. Here, we investigate how mean climatic conditions and rates of climatic change impact parasitoid insect communities in 16 localities across the Arctic. We focus on parasitoi...

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Published in:Global Change Biology
Main Authors: Kankaanpaa, Tuomas, Vesterinen, Eero, Hardwick, Bess, Schmidt, Niels M., Andersson, Tommi, Aspholm, Paul E., Barrio, Isabel C., Beckers, Niklas, Bety, Joel, Birkemoe, Tone, DeSiervo, Melissa, Drotos, Katherine H., Ehrich, Dorothee, Gilg, Olivier, Gilg, Vladimir, Hein, Nils, Hoye, Toke T., Jakobsen, Kristian M., Jodouin, Camille, Jorna, Jesse, Kozlov, Mikhail, Kresse, Jean-Claude, Leandri-Breton, Don-Jean, Lecomte, Nicolas, Loonen, Maarten, Marr, Philipp, Monckton, Spencer K., Olsen, Maia, Otis, Josee-Anne, Pyle, Michelle, Roos, Ruben E., Raundrup, Katrine, Rozhkova, Daria, Sabard, Brigitte, Sokolov, Aleksandr, Sokolova, Natalia, Solecki, Anna M., Urbanowicz, Christine, Villeneuve, Catherine, Vyguzova, Evgenya, Zverev, Vitali, Roslin, Tomas
Other Authors: Research Centre for Ecological Change, Department of Agricultural Sciences, Spatial Foodweb Ecology Group
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2021
Subjects:
Arctic
climate change
DNA barcoding
Dryas
food webs
functional traits
host-parasitoid interactions
insect herbivory
pollinators
INVERTEBRATE HERBIVORY
SPECIES RICHNESS
PLANT PHENOLOGY
TROPHIC LEVELS
HOST
RESPONSES
TEMPERATURE
PATTERNS
HYMENOPTERA
RANGE
1181 Ecology
evolutionary biology
Greenland
Climate change
Online Access:http://hdl.handle.net/10138/326556
id ftunivhelsihelda:oai:helda.helsinki.fi:10138/326556
record_format openpolar
institution Open Polar
collection HELDA – University of Helsinki Open Repository
op_collection_id ftunivhelsihelda
language English
topic Arctic
climate change
DNA barcoding
Dryas
food webs
functional traits
host-parasitoid interactions
insect herbivory
pollinators
INVERTEBRATE HERBIVORY
SPECIES RICHNESS
PLANT PHENOLOGY
TROPHIC LEVELS
HOST
RESPONSES
TEMPERATURE
PATTERNS
HYMENOPTERA
RANGE
1181 Ecology
evolutionary biology
spellingShingle Arctic
climate change
DNA barcoding
Dryas
food webs
functional traits
host-parasitoid interactions
insect herbivory
pollinators
INVERTEBRATE HERBIVORY
SPECIES RICHNESS
PLANT PHENOLOGY
TROPHIC LEVELS
HOST
RESPONSES
TEMPERATURE
PATTERNS
HYMENOPTERA
RANGE
1181 Ecology
evolutionary biology
Kankaanpaa, Tuomas
Vesterinen, Eero
Hardwick, Bess
Schmidt, Niels M.
Andersson, Tommi
Aspholm, Paul E.
Barrio, Isabel C.
Beckers, Niklas
Bety, Joel
Birkemoe, Tone
DeSiervo, Melissa
Drotos, Katherine H.
Ehrich, Dorothee
Gilg, Olivier
Gilg, Vladimir
Hein, Nils
Hoye, Toke T.
Jakobsen, Kristian M.
Jodouin, Camille
Jorna, Jesse
Kozlov, Mikhail
Kresse, Jean-Claude
Leandri-Breton, Don-Jean
Lecomte, Nicolas
Loonen, Maarten
Marr, Philipp
Monckton, Spencer K.
Olsen, Maia
Otis, Josee-Anne
Pyle, Michelle
Roos, Ruben E.
Raundrup, Katrine
Rozhkova, Daria
Sabard, Brigitte
Sokolov, Aleksandr
Sokolova, Natalia
Solecki, Anna M.
Urbanowicz, Christine
Villeneuve, Catherine
Vyguzova, Evgenya
Zverev, Vitali
Roslin, Tomas
Parasitoids indicate major climate-induced shifts in arctic communities
topic_facet Arctic
climate change
DNA barcoding
Dryas
food webs
functional traits
host-parasitoid interactions
insect herbivory
pollinators
INVERTEBRATE HERBIVORY
SPECIES RICHNESS
PLANT PHENOLOGY
TROPHIC LEVELS
HOST
RESPONSES
TEMPERATURE
PATTERNS
HYMENOPTERA
RANGE
1181 Ecology
evolutionary biology
description Climatic impacts are especially pronounced in the Arctic, which as a region is warming twice as fast as the rest of the globe. Here, we investigate how mean climatic conditions and rates of climatic change impact parasitoid insect communities in 16 localities across the Arctic. We focus on parasitoids in a widespread habitat,Dryasheathlands, and describe parasitoid community composition in terms of larval host use (i.e., parasitoid use of herbivorous Lepidoptera vs. pollinating Diptera) and functional groups differing in their closeness of host associations (koinobionts vs. idiobionts). Of the latter, we expect idiobionts-as being less fine-tuned to host development-to be generally less tolerant to cold temperatures, since they are confined to attacking hosts pupating and overwintering in relatively exposed locations. To further test our findings, we assess whether similar climatic variables are associated with host abundances in a 22 year time series from Northeast Greenland. We find sites which have experienced a temperature rise in summer while retaining cold winters to be dominated by parasitoids of Lepidoptera, with the reverse being true for the parasitoids of Diptera. The rate of summer temperature rise is further associated with higher levels of herbivory, suggesting higher availability of lepidopteran hosts and changes in ecosystem functioning. We also detect a matching signal over time, as higher summer temperatures, coupled with cold early winter soils, are related to high herbivory by lepidopteran larvae, and to declines in the abundance of dipteran pollinators. Collectively, our results suggest that in parts of the warming Arctic,Dryasis being simultaneously exposed to increased herbivory and reduced pollination. Our findings point to potential drastic and rapid consequences of climate change on multitrophic-level community structure and on ecosystem functioning and highlight the value of collaborative, systematic sampling effort. Peer reviewed
author2 Research Centre for Ecological Change
Department of Agricultural Sciences
Spatial Foodweb Ecology Group
format Article in Journal/Newspaper
author Kankaanpaa, Tuomas
Vesterinen, Eero
Hardwick, Bess
Schmidt, Niels M.
Andersson, Tommi
Aspholm, Paul E.
Barrio, Isabel C.
Beckers, Niklas
Bety, Joel
Birkemoe, Tone
DeSiervo, Melissa
Drotos, Katherine H.
Ehrich, Dorothee
Gilg, Olivier
Gilg, Vladimir
Hein, Nils
Hoye, Toke T.
Jakobsen, Kristian M.
Jodouin, Camille
Jorna, Jesse
Kozlov, Mikhail
Kresse, Jean-Claude
Leandri-Breton, Don-Jean
Lecomte, Nicolas
Loonen, Maarten
Marr, Philipp
Monckton, Spencer K.
Olsen, Maia
Otis, Josee-Anne
Pyle, Michelle
Roos, Ruben E.
Raundrup, Katrine
Rozhkova, Daria
Sabard, Brigitte
Sokolov, Aleksandr
Sokolova, Natalia
Solecki, Anna M.
Urbanowicz, Christine
Villeneuve, Catherine
Vyguzova, Evgenya
Zverev, Vitali
Roslin, Tomas
author_facet Kankaanpaa, Tuomas
Vesterinen, Eero
Hardwick, Bess
Schmidt, Niels M.
Andersson, Tommi
Aspholm, Paul E.
Barrio, Isabel C.
Beckers, Niklas
Bety, Joel
Birkemoe, Tone
DeSiervo, Melissa
Drotos, Katherine H.
Ehrich, Dorothee
Gilg, Olivier
Gilg, Vladimir
Hein, Nils
Hoye, Toke T.
Jakobsen, Kristian M.
Jodouin, Camille
Jorna, Jesse
Kozlov, Mikhail
Kresse, Jean-Claude
Leandri-Breton, Don-Jean
Lecomte, Nicolas
Loonen, Maarten
Marr, Philipp
Monckton, Spencer K.
Olsen, Maia
Otis, Josee-Anne
Pyle, Michelle
Roos, Ruben E.
Raundrup, Katrine
Rozhkova, Daria
Sabard, Brigitte
Sokolov, Aleksandr
Sokolova, Natalia
Solecki, Anna M.
Urbanowicz, Christine
Villeneuve, Catherine
Vyguzova, Evgenya
Zverev, Vitali
Roslin, Tomas
author_sort Kankaanpaa, Tuomas
title Parasitoids indicate major climate-induced shifts in arctic communities
title_short Parasitoids indicate major climate-induced shifts in arctic communities
title_full Parasitoids indicate major climate-induced shifts in arctic communities
title_fullStr Parasitoids indicate major climate-induced shifts in arctic communities
title_full_unstemmed Parasitoids indicate major climate-induced shifts in arctic communities
title_sort parasitoids indicate major climate-induced shifts in arctic communities
publisher Wiley
publishDate 2021
url http://hdl.handle.net/10138/326556
geographic Arctic
Greenland
geographic_facet Arctic
Greenland
genre Arctic
Arctic
Climate change
Greenland
genre_facet Arctic
Arctic
Climate change
Greenland
op_relation 10.1111/gcb.15297
Parks Canada; University of Guelph; Societas pro Fauna et Flora Fennica; Maj ja Tor Nesslingin Saatio, Grant/Award Number: 201500090, 201600034 and 201700420; Polar Knowledge Canada; Icelandic Centre for Research, Grant/Award Number: 152468-051; Fonds Quebecois de la Recherche sur la Nature et les Technologies; The Danish Environmental Protection Agency; Churchill Northern Studies Centre; Entomological Society of Canada; Canadian Polar Commission; Polar Continental Shelf Project; Biotieteiden ja Ympariston Tutkimuksen Toimikunta, Grant/Award Number: 276671, 276909 and 285803; Natural Sciences and Engineering Research Council of Canada; Academy of Finland, Grant/Award Number: 276909, 285803 and 276671; Nessling Foundation, Grant/Award Number: 201700420, 201600034 and 201500090; Jane and Aatos Erkko Foundation; French Polar Institute; INTERACT; Research Council of Norway, Grant/Award Number: 249902/F20; ArcticNet; Russian Foundation for Basic Research, Grant/Award Number: 18-05-60261
Kankaanpaa , T , Vesterinen , E , Hardwick , B , Schmidt , N M , Andersson , T , Aspholm , P E , Barrio , I C , Beckers , N , Bety , J , Birkemoe , T , DeSiervo , M , Drotos , K H , Ehrich , D , Gilg , O , Gilg , V , Hein , N , Hoye , T T , Jakobsen , K M , Jodouin , C , Jorna , J , Kozlov , M , Kresse , J-C , Leandri-Breton , D-J , Lecomte , N , Loonen , M , Marr , P , Monckton , S K , Olsen , M , Otis , J-A , Pyle , M , Roos , R E , Raundrup , K , Rozhkova , D , Sabard , B , Sokolov , A , Sokolova , N , Solecki , A M , Urbanowicz , C , Villeneuve , C , Vyguzova , E , Zverev , V & Roslin , T 2020 , ' Parasitoids indicate major climate-induced shifts in arctic communities ' , Global Change Biology , vol. 26 , no. 11 , pp. 6276-6295 . https://doi.org/10.1111/gcb.15297
ORCID: /0000-0003-3665-5802/work/89116071
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container_title Global Change Biology
container_volume 26
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spelling ftunivhelsihelda:oai:helda.helsinki.fi:10138/326556 2024-01-07T09:40:48+01:00 Parasitoids indicate major climate-induced shifts in arctic communities Kankaanpaa, Tuomas Vesterinen, Eero Hardwick, Bess Schmidt, Niels M. Andersson, Tommi Aspholm, Paul E. Barrio, Isabel C. Beckers, Niklas Bety, Joel Birkemoe, Tone DeSiervo, Melissa Drotos, Katherine H. Ehrich, Dorothee Gilg, Olivier Gilg, Vladimir Hein, Nils Hoye, Toke T. Jakobsen, Kristian M. Jodouin, Camille Jorna, Jesse Kozlov, Mikhail Kresse, Jean-Claude Leandri-Breton, Don-Jean Lecomte, Nicolas Loonen, Maarten Marr, Philipp Monckton, Spencer K. Olsen, Maia Otis, Josee-Anne Pyle, Michelle Roos, Ruben E. Raundrup, Katrine Rozhkova, Daria Sabard, Brigitte Sokolov, Aleksandr Sokolova, Natalia Solecki, Anna M. Urbanowicz, Christine Villeneuve, Catherine Vyguzova, Evgenya Zverev, Vitali Roslin, Tomas Research Centre for Ecological Change Department of Agricultural Sciences Spatial Foodweb Ecology Group 2021-02-16T14:22:01Z 20 application/pdf http://hdl.handle.net/10138/326556 eng eng Wiley 10.1111/gcb.15297 Parks Canada; University of Guelph; Societas pro Fauna et Flora Fennica; Maj ja Tor Nesslingin Saatio, Grant/Award Number: 201500090, 201600034 and 201700420; Polar Knowledge Canada; Icelandic Centre for Research, Grant/Award Number: 152468-051; Fonds Quebecois de la Recherche sur la Nature et les Technologies; The Danish Environmental Protection Agency; Churchill Northern Studies Centre; Entomological Society of Canada; Canadian Polar Commission; Polar Continental Shelf Project; Biotieteiden ja Ympariston Tutkimuksen Toimikunta, Grant/Award Number: 276671, 276909 and 285803; Natural Sciences and Engineering Research Council of Canada; Academy of Finland, Grant/Award Number: 276909, 285803 and 276671; Nessling Foundation, Grant/Award Number: 201700420, 201600034 and 201500090; Jane and Aatos Erkko Foundation; French Polar Institute; INTERACT; Research Council of Norway, Grant/Award Number: 249902/F20; ArcticNet; Russian Foundation for Basic Research, Grant/Award Number: 18-05-60261 Kankaanpaa , T , Vesterinen , E , Hardwick , B , Schmidt , N M , Andersson , T , Aspholm , P E , Barrio , I C , Beckers , N , Bety , J , Birkemoe , T , DeSiervo , M , Drotos , K H , Ehrich , D , Gilg , O , Gilg , V , Hein , N , Hoye , T T , Jakobsen , K M , Jodouin , C , Jorna , J , Kozlov , M , Kresse , J-C , Leandri-Breton , D-J , Lecomte , N , Loonen , M , Marr , P , Monckton , S K , Olsen , M , Otis , J-A , Pyle , M , Roos , R E , Raundrup , K , Rozhkova , D , Sabard , B , Sokolov , A , Sokolova , N , Solecki , A M , Urbanowicz , C , Villeneuve , C , Vyguzova , E , Zverev , V & Roslin , T 2020 , ' Parasitoids indicate major climate-induced shifts in arctic communities ' , Global Change Biology , vol. 26 , no. 11 , pp. 6276-6295 . https://doi.org/10.1111/gcb.15297 ORCID: /0000-0003-3665-5802/work/89116071 ORCID: /0000-0002-2957-4791/work/89117881 6a7c24e7-c88a-4340-940b-78c0a5715661 http://hdl.handle.net/10138/326556 000567836800001 cc_by_nc_nd openAccess info:eu-repo/semantics/openAccess Arctic climate change DNA barcoding Dryas food webs functional traits host-parasitoid interactions insect herbivory pollinators INVERTEBRATE HERBIVORY SPECIES RICHNESS PLANT PHENOLOGY TROPHIC LEVELS HOST RESPONSES TEMPERATURE PATTERNS HYMENOPTERA RANGE 1181 Ecology evolutionary biology Article publishedVersion 2021 ftunivhelsihelda 2023-12-14T00:08:31Z Climatic impacts are especially pronounced in the Arctic, which as a region is warming twice as fast as the rest of the globe. Here, we investigate how mean climatic conditions and rates of climatic change impact parasitoid insect communities in 16 localities across the Arctic. We focus on parasitoids in a widespread habitat,Dryasheathlands, and describe parasitoid community composition in terms of larval host use (i.e., parasitoid use of herbivorous Lepidoptera vs. pollinating Diptera) and functional groups differing in their closeness of host associations (koinobionts vs. idiobionts). Of the latter, we expect idiobionts-as being less fine-tuned to host development-to be generally less tolerant to cold temperatures, since they are confined to attacking hosts pupating and overwintering in relatively exposed locations. To further test our findings, we assess whether similar climatic variables are associated with host abundances in a 22 year time series from Northeast Greenland. We find sites which have experienced a temperature rise in summer while retaining cold winters to be dominated by parasitoids of Lepidoptera, with the reverse being true for the parasitoids of Diptera. The rate of summer temperature rise is further associated with higher levels of herbivory, suggesting higher availability of lepidopteran hosts and changes in ecosystem functioning. We also detect a matching signal over time, as higher summer temperatures, coupled with cold early winter soils, are related to high herbivory by lepidopteran larvae, and to declines in the abundance of dipteran pollinators. Collectively, our results suggest that in parts of the warming Arctic,Dryasis being simultaneously exposed to increased herbivory and reduced pollination. Our findings point to potential drastic and rapid consequences of climate change on multitrophic-level community structure and on ecosystem functioning and highlight the value of collaborative, systematic sampling effort. Peer reviewed Article in Journal/Newspaper Arctic Arctic Climate change Greenland HELDA – University of Helsinki Open Repository Arctic Greenland Global Change Biology 26 11 6276 6295

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