Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers

Identifying the landscape and climate factors that control nutrient export by rivers in high latitude regions is one of the main challenges for understanding the Arctic Ocean response to ongoing climate change. This is especially true for Western Siberian rivers, which are responsible for a signific...

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Published in:Water
Main Authors: Sergey Vorobyev, Oleg Pokrovsky, Svetlana Serikova, Rinat Manasypov, Ivan Krickov, Liudmila Shirokova, Artem Lim, Larisa Kolesnichenko, Sergey Kirpotin, Jan Karlsson
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2017
Subjects:
nitrate
ammonium
phosphorus
phosphate
river
permafrost
Siberia
Arctic
Arctic Ocean
Climate change
Subarctic
Online Access:https://doi.org/10.3390/w9120985
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spelling ftmdpi:oai:mdpi.com:/2073-4441/9/12/985/ 2023-08-20T04:04:19+02:00 Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers Sergey Vorobyev Oleg Pokrovsky Svetlana Serikova Rinat Manasypov Ivan Krickov Liudmila Shirokova Artem Lim Larisa Kolesnichenko Sergey Kirpotin Jan Karlsson agris 2017-12-17 application/pdf https://doi.org/10.3390/w9120985 EN eng Multidisciplinary Digital Publishing Institute Water Quality and Contamination https://dx.doi.org/10.3390/w9120985 https://creativecommons.org/licenses/by/4.0/ Water; Volume 9; Issue 12; Pages: 985 nitrate ammonium phosphorus phosphate river permafrost Siberia Text 2017 ftmdpi https://doi.org/10.3390/w9120985 2023-07-31T21:19:07Z Identifying the landscape and climate factors that control nutrient export by rivers in high latitude regions is one of the main challenges for understanding the Arctic Ocean response to ongoing climate change. This is especially true for Western Siberian rivers, which are responsible for a significant part of freshwater and solutes delivery to the Arctic Ocean and are draining vast permafrost-affected areas most vulnerable to thaw. Forty-nine small- and medium-sized rivers (10–100,000 km2) were sampled along a 1700 km long N–S transect including both permafrost-affected and permafrost-free zones of the Western Siberian Lowland (WSL) in June and August 2015. The N, P, dissolved organic and inorganic carbon (DOC and DIC, respectively), particular organic carbon (POC), Si, Ca, K, Fe, and Mn were analyzed to assess the role of environmental parameters, such as temperature, runoff, latitude, permafrost, bogs, lake, and forest coverage on nutrient concentration. The size of the watershed had no influence on nutrient concentrations in the rivers. Bogs and lakes retained nutrients whereas forests supplied P, Si, K, Ca, DIC, and Mn to rivers. The river water temperature was negatively correlated with Si and positively correlated with Fe in permafrost-free rivers. In permafrost-bearing rivers, the decrease in T northward was coupled with significant increases in PO4, Ptot, NH4, pH, DIC, Si, Ca, and Mn. North of the permafrost boundary (61° N), there was no difference in nutrient concentrations among permafrost zones (isolated, sporadic, discontinuous, and continuous). The climate warming in Western Siberia may lead to a permafrost boundary shift northward. Using a substituting space for time scenario, this may decrease or maintain the current levels of N, P, Si, K, Ca, DIC, and DOC concentrations in rivers of continuous permafrost zones compared to the present state. As a result, the export flux of nutrients by the small- and medium-sized rivers of the Western Siberian subarctic to the Arctic Ocean coastal zone may ... Text Arctic Arctic Ocean Climate change permafrost Subarctic Siberia MDPI Open Access Publishing Arctic Arctic Ocean Water 9 12 985
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic nitrate
ammonium
phosphorus
phosphate
river
permafrost
Siberia
spellingShingle nitrate
ammonium
phosphorus
phosphate
river
permafrost
Siberia
Sergey Vorobyev
Oleg Pokrovsky
Svetlana Serikova
Rinat Manasypov
Ivan Krickov
Liudmila Shirokova
Artem Lim
Larisa Kolesnichenko
Sergey Kirpotin
Jan Karlsson
Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers
topic_facet nitrate
ammonium
phosphorus
phosphate
river
permafrost
Siberia
description Identifying the landscape and climate factors that control nutrient export by rivers in high latitude regions is one of the main challenges for understanding the Arctic Ocean response to ongoing climate change. This is especially true for Western Siberian rivers, which are responsible for a significant part of freshwater and solutes delivery to the Arctic Ocean and are draining vast permafrost-affected areas most vulnerable to thaw. Forty-nine small- and medium-sized rivers (10–100,000 km2) were sampled along a 1700 km long N–S transect including both permafrost-affected and permafrost-free zones of the Western Siberian Lowland (WSL) in June and August 2015. The N, P, dissolved organic and inorganic carbon (DOC and DIC, respectively), particular organic carbon (POC), Si, Ca, K, Fe, and Mn were analyzed to assess the role of environmental parameters, such as temperature, runoff, latitude, permafrost, bogs, lake, and forest coverage on nutrient concentration. The size of the watershed had no influence on nutrient concentrations in the rivers. Bogs and lakes retained nutrients whereas forests supplied P, Si, K, Ca, DIC, and Mn to rivers. The river water temperature was negatively correlated with Si and positively correlated with Fe in permafrost-free rivers. In permafrost-bearing rivers, the decrease in T northward was coupled with significant increases in PO4, Ptot, NH4, pH, DIC, Si, Ca, and Mn. North of the permafrost boundary (61° N), there was no difference in nutrient concentrations among permafrost zones (isolated, sporadic, discontinuous, and continuous). The climate warming in Western Siberia may lead to a permafrost boundary shift northward. Using a substituting space for time scenario, this may decrease or maintain the current levels of N, P, Si, K, Ca, DIC, and DOC concentrations in rivers of continuous permafrost zones compared to the present state. As a result, the export flux of nutrients by the small- and medium-sized rivers of the Western Siberian subarctic to the Arctic Ocean coastal zone may ...
format Text
author Sergey Vorobyev
Oleg Pokrovsky
Svetlana Serikova
Rinat Manasypov
Ivan Krickov
Liudmila Shirokova
Artem Lim
Larisa Kolesnichenko
Sergey Kirpotin
Jan Karlsson
author_facet Sergey Vorobyev
Oleg Pokrovsky
Svetlana Serikova
Rinat Manasypov
Ivan Krickov
Liudmila Shirokova
Artem Lim
Larisa Kolesnichenko
Sergey Kirpotin
Jan Karlsson
author_sort Sergey Vorobyev
title Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers
title_short Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers
title_full Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers
title_fullStr Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers
title_full_unstemmed Permafrost Boundary Shift in Western Siberia May Not Modify Dissolved Nutrient Concentrations in Rivers
title_sort permafrost boundary shift in western siberia may not modify dissolved nutrient concentrations in rivers
publisher Multidisciplinary Digital Publishing Institute
publishDate 2017
url https://doi.org/10.3390/w9120985
op_coverage agris
geographic Arctic
Arctic Ocean
geographic_facet Arctic
Arctic Ocean
genre Arctic
Arctic Ocean
Climate change
permafrost
Subarctic
Siberia
genre_facet Arctic
Arctic Ocean
Climate change
permafrost
Subarctic
Siberia
op_source Water; Volume 9; Issue 12; Pages: 985
op_relation Water Quality and Contamination
https://dx.doi.org/10.3390/w9120985
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/w9120985
container_title Water
container_volume 9
container_issue 12
container_start_page 985
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