First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors

Arctic freshwaters are facing multiple environmental pressures, including rapid climate change and increasing land-use activities. Freshwater plankton assemblages are expected to reflect the effects of these stressors through shifts in species distributions and changes to biodiversity. These changes...

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Main Authors: Schartau, Ann Kristin, Mariash, Heather L., Christoffersen, Kirsten S., Bogan, Daniel, Dubovskaya, Olga P., Fefilova, Elena B., Hayden, Brian, Ingvason, Haraldur R., Ivanova, Elena A., Kononova, Olga N., Kravchuk, Elena S., Lento, Jennifer, Majaneva, Markus, Novichkova, Anna A., Rautio, Milla, Ruhland, Kathleen M., Shaftel, Rebecca, Smol, John P., Vrede, Tobias, Kahilainen, Kimmo K.
Format: Article in Journal/Newspaper
Language:English
Published: 2022
Subjects:
Ecology
Arctic
Canada
Faroe Islands
Greenland
Norway
Climate change
Fennoscandia
Iceland
Phytoplankton
Zooplankton
Alaska
Online Access:https://pub.epsilon.slu.se/27100/
https://pub.epsilon.slu.se/27100/1/schartau_a_k_et_al_220214.pdf
id ftslunivuppsala:oai:pub.epsilon.slu.se:27100
record_format openpolar
institution Open Polar
collection Swedish University of Agricultural Sciences (SLU): Epsilon Open Archive
op_collection_id ftslunivuppsala
language English
topic Ecology
spellingShingle Ecology
Schartau, Ann Kristin
Mariash, Heather L.
Christoffersen, Kirsten S.
Bogan, Daniel
Dubovskaya, Olga P.
Fefilova, Elena B.
Hayden, Brian
Ingvason, Haraldur R.
Ivanova, Elena A.
Kononova, Olga N.
Kravchuk, Elena S.
Lento, Jennifer
Majaneva, Markus
Novichkova, Anna A.
Rautio, Milla
Ruhland, Kathleen M.
Shaftel, Rebecca
Smol, John P.
Vrede, Tobias
Kahilainen, Kimmo K.
First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors
topic_facet Ecology
description Arctic freshwaters are facing multiple environmental pressures, including rapid climate change and increasing land-use activities. Freshwater plankton assemblages are expected to reflect the effects of these stressors through shifts in species distributions and changes to biodiversity. These changes may occur rapidly due to the short generation times and high dispersal capabilities of both phyto- and zooplankton. Spatial patterns and contemporary trends in plankton diversity throughout the circumpolar region were assessed using data from more than 300 lakes in the U.S.A. (Alaska), Canada, Greenland, Iceland, the Faroe Islands, Norway, Sweden, Finland, and Russia. The main objectives of this study were: (1) to assess spatial patterns of plankton diversity focusing on pelagic communities; (2) to assess dominant component of beta diversity (turnover or nestedness); (3) to identify which environmental factors best explain diversity; and (4) to provide recommendations for future monitoring and assessment of freshwater plankton communities across the Arctic region. Phytoplankton and crustacean zooplankton diversity varied substantially across the Arctic and was positively related to summer air temperature. However, for zooplankton, the positive correlation between summer temperature and species numbers decreased with increasing latitude. Taxonomic richness was lower in the high Arctic compared to the sub- and low Arctic for zooplankton but this pattern was less clear for phytoplankton. Fennoscandia and inland regions of Russia represented hotspots for, respectively, phytoplankton and zooplankton diversity, whereas isolated regions had lower taxonomic richness. Ecoregions with high alpha diversity generally also had high beta diversity, and turnover was the most important component of beta diversity in all ecoregions. For both phytoplankton and zooplankton, climatic variables were the most important environmental factors influencing diversity patterns, consistent with previous studies that examined shorter temperature gradients. However, barriers to dispersal may have also played a role in limiting diversity on islands. A better understanding of how diversity patterns are determined by colonisation history, environmental variables, and biotic interactions requires more monitoring data with locations dispersed evenly across the circumpolar Arctic. Furthermore, the importance of turnover in regional diversity patterns indicates that more extensive sampling is required to fully characterise the species pool of Arctic lakes.
format Article in Journal/Newspaper
author Schartau, Ann Kristin
Mariash, Heather L.
Christoffersen, Kirsten S.
Bogan, Daniel
Dubovskaya, Olga P.
Fefilova, Elena B.
Hayden, Brian
Ingvason, Haraldur R.
Ivanova, Elena A.
Kononova, Olga N.
Kravchuk, Elena S.
Lento, Jennifer
Majaneva, Markus
Novichkova, Anna A.
Rautio, Milla
Ruhland, Kathleen M.
Shaftel, Rebecca
Smol, John P.
Vrede, Tobias
Kahilainen, Kimmo K.
author_facet Schartau, Ann Kristin
Mariash, Heather L.
Christoffersen, Kirsten S.
Bogan, Daniel
Dubovskaya, Olga P.
Fefilova, Elena B.
Hayden, Brian
Ingvason, Haraldur R.
Ivanova, Elena A.
Kononova, Olga N.
Kravchuk, Elena S.
Lento, Jennifer
Majaneva, Markus
Novichkova, Anna A.
Rautio, Milla
Ruhland, Kathleen M.
Shaftel, Rebecca
Smol, John P.
Vrede, Tobias
Kahilainen, Kimmo K.
author_sort Schartau, Ann Kristin
title First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors
title_short First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors
title_full First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors
title_fullStr First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors
title_full_unstemmed First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors
title_sort first circumpolar assessment of arctic freshwater phytoplankton and zooplankton diversity: spatial patterns and environmental factors
publishDate 2022
url https://pub.epsilon.slu.se/27100/
https://pub.epsilon.slu.se/27100/1/schartau_a_k_et_al_220214.pdf
geographic Arctic
Canada
Faroe Islands
Greenland
Norway
geographic_facet Arctic
Canada
Faroe Islands
Greenland
Norway
genre Arctic
Arctic
Climate change
Faroe Islands
Fennoscandia
Greenland
Iceland
Phytoplankton
Zooplankton
Alaska
genre_facet Arctic
Arctic
Climate change
Faroe Islands
Fennoscandia
Greenland
Iceland
Phytoplankton
Zooplankton
Alaska
op_relation https://pub.epsilon.slu.se/27100/1/schartau_a_k_et_al_220214.pdf
Schartau, Ann Kristin and Mariash, Heather L. and Christoffersen, Kirsten S. and Bogan, Daniel and Dubovskaya, Olga P. and Fefilova, Elena B. and Hayden, Brian and Ingvason, Haraldur R. and Ivanova, Elena A. and Kononova, Olga N. and Kravchuk, Elena S. and Lento, Jennifer and Majaneva, Markus and Novichkova, Anna A. and Rautio, Milla and Ruhland, Kathleen M. and Shaftel, Rebecca and Smol, John P. and Vrede, Tobias and Kahilainen, Kimmo K. (2022). First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors. Freshwater Biology. 67 :1 , 141-158 [Research article]
_version_ 1766301944193744896
spelling ftslunivuppsala:oai:pub.epsilon.slu.se:27100 2023-05-15T14:27:53+02:00 First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors Schartau, Ann Kristin Mariash, Heather L. Christoffersen, Kirsten S. Bogan, Daniel Dubovskaya, Olga P. Fefilova, Elena B. Hayden, Brian Ingvason, Haraldur R. Ivanova, Elena A. Kononova, Olga N. Kravchuk, Elena S. Lento, Jennifer Majaneva, Markus Novichkova, Anna A. Rautio, Milla Ruhland, Kathleen M. Shaftel, Rebecca Smol, John P. Vrede, Tobias Kahilainen, Kimmo K. 2022 application/pdf https://pub.epsilon.slu.se/27100/ https://pub.epsilon.slu.se/27100/1/schartau_a_k_et_al_220214.pdf en eng eng https://pub.epsilon.slu.se/27100/1/schartau_a_k_et_al_220214.pdf Schartau, Ann Kristin and Mariash, Heather L. and Christoffersen, Kirsten S. and Bogan, Daniel and Dubovskaya, Olga P. and Fefilova, Elena B. and Hayden, Brian and Ingvason, Haraldur R. and Ivanova, Elena A. and Kononova, Olga N. and Kravchuk, Elena S. and Lento, Jennifer and Majaneva, Markus and Novichkova, Anna A. and Rautio, Milla and Ruhland, Kathleen M. and Shaftel, Rebecca and Smol, John P. and Vrede, Tobias and Kahilainen, Kimmo K. (2022). First circumpolar assessment of Arctic freshwater phytoplankton and zooplankton diversity: Spatial patterns and environmental factors. Freshwater Biology. 67 :1 , 141-158 [Research article] Ecology Research article NonPeerReviewed 2022 ftslunivuppsala 2022-02-17T17:13:48Z Arctic freshwaters are facing multiple environmental pressures, including rapid climate change and increasing land-use activities. Freshwater plankton assemblages are expected to reflect the effects of these stressors through shifts in species distributions and changes to biodiversity. These changes may occur rapidly due to the short generation times and high dispersal capabilities of both phyto- and zooplankton. Spatial patterns and contemporary trends in plankton diversity throughout the circumpolar region were assessed using data from more than 300 lakes in the U.S.A. (Alaska), Canada, Greenland, Iceland, the Faroe Islands, Norway, Sweden, Finland, and Russia. The main objectives of this study were: (1) to assess spatial patterns of plankton diversity focusing on pelagic communities; (2) to assess dominant component of beta diversity (turnover or nestedness); (3) to identify which environmental factors best explain diversity; and (4) to provide recommendations for future monitoring and assessment of freshwater plankton communities across the Arctic region. Phytoplankton and crustacean zooplankton diversity varied substantially across the Arctic and was positively related to summer air temperature. However, for zooplankton, the positive correlation between summer temperature and species numbers decreased with increasing latitude. Taxonomic richness was lower in the high Arctic compared to the sub- and low Arctic for zooplankton but this pattern was less clear for phytoplankton. Fennoscandia and inland regions of Russia represented hotspots for, respectively, phytoplankton and zooplankton diversity, whereas isolated regions had lower taxonomic richness. Ecoregions with high alpha diversity generally also had high beta diversity, and turnover was the most important component of beta diversity in all ecoregions. For both phytoplankton and zooplankton, climatic variables were the most important environmental factors influencing diversity patterns, consistent with previous studies that examined shorter temperature gradients. However, barriers to dispersal may have also played a role in limiting diversity on islands. A better understanding of how diversity patterns are determined by colonisation history, environmental variables, and biotic interactions requires more monitoring data with locations dispersed evenly across the circumpolar Arctic. Furthermore, the importance of turnover in regional diversity patterns indicates that more extensive sampling is required to fully characterise the species pool of Arctic lakes. Article in Journal/Newspaper Arctic Arctic Climate change Faroe Islands Fennoscandia Greenland Iceland Phytoplankton Zooplankton Alaska Swedish University of Agricultural Sciences (SLU): Epsilon Open Archive Arctic Canada Faroe Islands Greenland Norway

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