Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS

This study aimed to assess the molecular properties of dissolved organic matter (DOM) and dissolved black carbon (DBC) using analytical pyrolysis (Py-GC–MS). The sample set was comprised of ultrafiltered DOM (UDOM) from North American headwater streams associated with Long Term Ecological Research n...

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Main Authors: Kaal, Joeri, Wagner, Sasha, Jaffe, Rudolf
Format: Text
Language:unknown
Published: FIU Digital Commons 2016
Subjects:
Physical Sciences and Mathematics
Tundra
Online Access:https://digitalcommons.fiu.edu/fce_lter_journal_articles/443
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spelling ftfloridaintuniv:oai:digitalcommons.fiu.edu:fce_lter_journal_articles-1425 2023-05-15T18:40:11+02:00 Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS Kaal, Joeri Wagner, Sasha Jaffe, Rudolf 2016-02-11T08:00:00Z https://digitalcommons.fiu.edu/fce_lter_journal_articles/443 unknown FIU Digital Commons https://digitalcommons.fiu.edu/fce_lter_journal_articles/443 default FCE LTER Journal Articles Physical Sciences and Mathematics text 2016 ftfloridaintuniv 2023-01-23T21:19:27Z This study aimed to assess the molecular properties of dissolved organic matter (DOM) and dissolved black carbon (DBC) using analytical pyrolysis (Py-GC–MS). The sample set was comprised of ultrafiltered DOM (UDOM) from North American headwater streams associated with Long Term Ecological Research network sites. Pyrolysis products for each UDOM sample were categorized as being sourced from non-pyrogenic sources and DBC. Major non-pyrogenic components of the headwater stream UDOM were comprised of phenolic compounds derived from lignin and chitin markers from microbial biomass, and their relative contributions indicated differences in organic matter dynamics of these ecosystems. The DBC pyrolyzates included benzene, PAHs and benzonitriles, which accounted for 12.5 ± 4.5% of total quantified peak area (TPQA), and decreased in the order Alaskan boreal forest (19%), Alaskan tundra (17%), Appalachian deciduous forest (11%), Colorado alpine tundra (9%), Puerto Rican mountainous tropical rainforest (9%) and Kansas tallgrass prairie (7%). Pyrolysis products were compared to DBC content as determined by the benzenepolycarboxylic acid (BPCA) method. Although Py-GC–MS has quantitative limitations, this technique can detect weakly condensed and other DBC structures which fall outside of the BPCA analytical window. Text Tundra Florida International University: Digital Commons@FIU
institution Open Polar
collection Florida International University: Digital Commons@FIU
op_collection_id ftfloridaintuniv
language unknown
topic Physical Sciences and Mathematics
spellingShingle Physical Sciences and Mathematics
Kaal, Joeri
Wagner, Sasha
Jaffe, Rudolf
Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS
topic_facet Physical Sciences and Mathematics
description This study aimed to assess the molecular properties of dissolved organic matter (DOM) and dissolved black carbon (DBC) using analytical pyrolysis (Py-GC–MS). The sample set was comprised of ultrafiltered DOM (UDOM) from North American headwater streams associated with Long Term Ecological Research network sites. Pyrolysis products for each UDOM sample were categorized as being sourced from non-pyrogenic sources and DBC. Major non-pyrogenic components of the headwater stream UDOM were comprised of phenolic compounds derived from lignin and chitin markers from microbial biomass, and their relative contributions indicated differences in organic matter dynamics of these ecosystems. The DBC pyrolyzates included benzene, PAHs and benzonitriles, which accounted for 12.5 ± 4.5% of total quantified peak area (TPQA), and decreased in the order Alaskan boreal forest (19%), Alaskan tundra (17%), Appalachian deciduous forest (11%), Colorado alpine tundra (9%), Puerto Rican mountainous tropical rainforest (9%) and Kansas tallgrass prairie (7%). Pyrolysis products were compared to DBC content as determined by the benzenepolycarboxylic acid (BPCA) method. Although Py-GC–MS has quantitative limitations, this technique can detect weakly condensed and other DBC structures which fall outside of the BPCA analytical window.
format Text
author Kaal, Joeri
Wagner, Sasha
Jaffe, Rudolf
author_facet Kaal, Joeri
Wagner, Sasha
Jaffe, Rudolf
author_sort Kaal, Joeri
title Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS
title_short Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS
title_full Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS
title_fullStr Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS
title_full_unstemmed Molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-GC–MS
title_sort molecular properties of ultrafiltered dissolved organic matter and dissolved black carbon in headwater streams as determined by pyrolysis-gc–ms
publisher FIU Digital Commons
publishDate 2016
url https://digitalcommons.fiu.edu/fce_lter_journal_articles/443
genre Tundra
genre_facet Tundra
op_source FCE LTER Journal Articles
op_relation https://digitalcommons.fiu.edu/fce_lter_journal_articles/443
op_rights default
_version_ 1766229432092065792

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