Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems

The Central Siberia Plateau (CSP) is undergoing rapid climate change resulting in increasing frequency of forest fires, which have uncertain effects on organic matter and nutrient delivery from headwater streams to downstream ecosystems. Across a fire chronosequence (3 to >100 years) underlain by...

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Bibliographic Details
Main Authors: Bianca Rodriguez-Cardona, Ashley A. Coble, Adam Wymore, Roman Kolosov, David C. Podgorski, Phoebe Zito, Robert G.M. Spencer, Anatoly S. Prokushkin, William McDowell
Format: Dataset
Language:unknown
Published: Hydroshare 2018
Subjects:
DOC
Arctic biogeochemistry
NO3
forest fires
streams
DOM
Arctic
Climate change
permafrost
Siberia
Online Access:https://search.dataone.org/view/sha256:74d9819515a0aaf783da809e872c17824754b12de0686834b924dbb4c4f5e7a3
id dataone:sha256:74d9819515a0aaf783da809e872c17824754b12de0686834b924dbb4c4f5e7a3
record_format openpolar
spelling dataone:sha256:74d9819515a0aaf783da809e872c17824754b12de0686834b924dbb4c4f5e7a3 2024-11-03T19:44:56+00:00 Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems Bianca Rodriguez-Cardona Ashley A. Coble Adam Wymore Roman Kolosov David C. Podgorski Phoebe Zito Robert G.M. Spencer Anatoly S. Prokushkin William McDowell BEGINDATE: 2011-06-04T00:00:00Z ENDDATE: 2016-06-19T00:00:00Z 2018-06-15T18:03:16.516Z https://search.dataone.org/view/sha256:74d9819515a0aaf783da809e872c17824754b12de0686834b924dbb4c4f5e7a3 unknown Hydroshare DOC Arctic biogeochemistry NO3 forest fires streams DOM Dataset 2018 dataone:urn:node:HYDROSHARE 2024-11-03T19:16:48Z The Central Siberia Plateau (CSP) is undergoing rapid climate change resulting in increasing frequency of forest fires, which have uncertain effects on organic matter and nutrient delivery from headwater streams to downstream ecosystems. Across a fire chronosequence (3 to >100 years) underlain by continuous permafrost, we quantified the effects of wildfire on quantity and quality of dissolved organic matter (DOM) and inorganic nutrients in streams. Wildfire decreased DOM concentrations for about 50 years, but elevated nitrate (NO3-) concentrations lasted only 10 years; ammonium and phosphate concentrations were unchanged. This increase in NO3- and decrease in dissolved organic carbon (DOC) results in a wide range of DOC:NO3-, a ratio that is known to regulate NO3- uptake and denitrification in streams. Ultrahigh-resolution mass spectrometry and DOM optical properties showed that the composition of stream DOM changes after fire, with decreased abundance of polyphenols and aliphatic forms of DOM that are typically more biolabile than other forms of OM. Increasing wildfire frequency is thus likely to have major shifts in the metabolism, carbon flux, and nutrient balance of Arctic fluvial systems. Dataset Arctic Climate change permafrost Siberia Hydroshare (via DataONE) Arctic
institution Open Polar
collection Hydroshare (via DataONE)
op_collection_id dataone:urn:node:HYDROSHARE
language unknown
topic DOC
Arctic biogeochemistry
NO3
forest fires
streams
DOM
spellingShingle DOC
Arctic biogeochemistry
NO3
forest fires
streams
DOM
Bianca Rodriguez-Cardona
Ashley A. Coble
Adam Wymore
Roman Kolosov
David C. Podgorski
Phoebe Zito
Robert G.M. Spencer
Anatoly S. Prokushkin
William McDowell
Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems
topic_facet DOC
Arctic biogeochemistry
NO3
forest fires
streams
DOM
description The Central Siberia Plateau (CSP) is undergoing rapid climate change resulting in increasing frequency of forest fires, which have uncertain effects on organic matter and nutrient delivery from headwater streams to downstream ecosystems. Across a fire chronosequence (3 to >100 years) underlain by continuous permafrost, we quantified the effects of wildfire on quantity and quality of dissolved organic matter (DOM) and inorganic nutrients in streams. Wildfire decreased DOM concentrations for about 50 years, but elevated nitrate (NO3-) concentrations lasted only 10 years; ammonium and phosphate concentrations were unchanged. This increase in NO3- and decrease in dissolved organic carbon (DOC) results in a wide range of DOC:NO3-, a ratio that is known to regulate NO3- uptake and denitrification in streams. Ultrahigh-resolution mass spectrometry and DOM optical properties showed that the composition of stream DOM changes after fire, with decreased abundance of polyphenols and aliphatic forms of DOM that are typically more biolabile than other forms of OM. Increasing wildfire frequency is thus likely to have major shifts in the metabolism, carbon flux, and nutrient balance of Arctic fluvial systems.
format Dataset
author Bianca Rodriguez-Cardona
Ashley A. Coble
Adam Wymore
Roman Kolosov
David C. Podgorski
Phoebe Zito
Robert G.M. Spencer
Anatoly S. Prokushkin
William McDowell
author_facet Bianca Rodriguez-Cardona
Ashley A. Coble
Adam Wymore
Roman Kolosov
David C. Podgorski
Phoebe Zito
Robert G.M. Spencer
Anatoly S. Prokushkin
William McDowell
author_sort Bianca Rodriguez-Cardona
title Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems
title_short Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems
title_full Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems
title_fullStr Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems
title_full_unstemmed Differential effects of biomass burning on carbon and nutrient dynamics in Arctic fluvial ecosystems
title_sort differential effects of biomass burning on carbon and nutrient dynamics in arctic fluvial ecosystems
publisher Hydroshare
publishDate 2018
url https://search.dataone.org/view/sha256:74d9819515a0aaf783da809e872c17824754b12de0686834b924dbb4c4f5e7a3
op_coverage BEGINDATE: 2011-06-04T00:00:00Z ENDDATE: 2016-06-19T00:00:00Z
geographic Arctic
geographic_facet Arctic
genre Arctic
Climate change
permafrost
Siberia
genre_facet Arctic
Climate change
permafrost
Siberia
_version_ 1814732618557554688

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