Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators

© 2015 Nordic Society Oikos. Most of the freshwater component of the Earth's surface is composed of shallow tundra ponds. These high latitude ecosystems have been exposed to a variety of abiotic disturbances associated with recent environmental change. However, the biological significance of th...

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Main Authors: Taylor D., Ballinger M., Medeiros A., Kotov A.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2016
Subjects:
Online Access:https://openrepository.ru/article?id=183000
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spelling ftneicon:oai:rour.neicon.ru:rour/183000 2023-05-15T18:39:40+02:00 Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators Taylor D. Ballinger M. Medeiros A. Kotov A. 2016 https://openrepository.ru/article?id=183000 unknown Ecography 1 39 43 http://rour.neicon.ru:80/xmlui/bitstream/rour/183000/1/nora.pdf 0906-7590 https://openrepository.ru/article?id=183000 SCOPUS09067590-2016-39-1-SID84956817292 Article 2016 ftneicon 2020-07-21T12:01:39Z © 2015 Nordic Society Oikos. Most of the freshwater component of the Earth's surface is composed of shallow tundra ponds. These high latitude ecosystems have been exposed to a variety of abiotic disturbances associated with recent environmental change. However, the biological significance of these changes remains poorly understood. Here, we characterize the abiotic disturbance to the shallow tundra ponds of northwest Alaska. We used historical aerial imagery to determine that up to 53% of the sampled ponds have formed during the recent warmer decades (since the 1970s). We discovered that two top predator species (phantom midges of the genus Chaoborus) of the freshwater zooplankton have recently undergone range expansion, forming widespread (a scale of hundreds of km) stable tundra populations. We assessed the population persistence of these boreal predators by longitudinal sampling over 14 yr. Recent thaw ponds had significantly dissimilar zooplankton communities to communities of ponds that formed before 1950. Both predator and herbivore species differed by age of pond. Younger pond ages and warmer surface temperatures were the significant predictors of the presence of temperate Chaoborus americanus in tundra ponds. Ponds containing tundra populations of C. americanus and C. cf. flavicans were associated with recent formation (83-90%). Recent ponds in river valleys appeared more important than recent ponds near roads as colonization corridors for C. americanus. Only 24% of the tundra keystone predator, Heterocope septentrionalis, populations were from recent ponds. Our results suggest that climate-associated disturbance can lead to a widespread stable range expansion of boreal species despite the propinquity of older ponds with top-down control exerted by an endemic keystone predator. Article in Journal/Newspaper Tundra Alaska NORA (National aggregator of open repositories of Russian universities)
institution Open Polar
collection NORA (National aggregator of open repositories of Russian universities)
op_collection_id ftneicon
language unknown
description © 2015 Nordic Society Oikos. Most of the freshwater component of the Earth's surface is composed of shallow tundra ponds. These high latitude ecosystems have been exposed to a variety of abiotic disturbances associated with recent environmental change. However, the biological significance of these changes remains poorly understood. Here, we characterize the abiotic disturbance to the shallow tundra ponds of northwest Alaska. We used historical aerial imagery to determine that up to 53% of the sampled ponds have formed during the recent warmer decades (since the 1970s). We discovered that two top predator species (phantom midges of the genus Chaoborus) of the freshwater zooplankton have recently undergone range expansion, forming widespread (a scale of hundreds of km) stable tundra populations. We assessed the population persistence of these boreal predators by longitudinal sampling over 14 yr. Recent thaw ponds had significantly dissimilar zooplankton communities to communities of ponds that formed before 1950. Both predator and herbivore species differed by age of pond. Younger pond ages and warmer surface temperatures were the significant predictors of the presence of temperate Chaoborus americanus in tundra ponds. Ponds containing tundra populations of C. americanus and C. cf. flavicans were associated with recent formation (83-90%). Recent ponds in river valleys appeared more important than recent ponds near roads as colonization corridors for C. americanus. Only 24% of the tundra keystone predator, Heterocope septentrionalis, populations were from recent ponds. Our results suggest that climate-associated disturbance can lead to a widespread stable range expansion of boreal species despite the propinquity of older ponds with top-down control exerted by an endemic keystone predator.
format Article in Journal/Newspaper
author Taylor D.
Ballinger M.
Medeiros A.
Kotov A.
spellingShingle Taylor D.
Ballinger M.
Medeiros A.
Kotov A.
Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
author_facet Taylor D.
Ballinger M.
Medeiros A.
Kotov A.
author_sort Taylor D.
title Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
title_short Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
title_full Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
title_fullStr Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
title_full_unstemmed Climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
title_sort climate-associated tundra thaw pond formation and range expansion of boreal zooplankton predators
publishDate 2016
url https://openrepository.ru/article?id=183000
genre Tundra
Alaska
genre_facet Tundra
Alaska
op_source SCOPUS09067590-2016-39-1-SID84956817292
op_relation Ecography
1
39
43
http://rour.neicon.ru:80/xmlui/bitstream/rour/183000/1/nora.pdf
0906-7590
https://openrepository.ru/article?id=183000
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