Spring flood induced shifts in Fe speciation and fate at increased salinity

Rivers have traditionally been viewed as negligible sources of iron (Fe) to marine waters, as most Fe gets lost during estuarine mixing. However, recent findings demonstrate that Fe from boreal rivers display a higher resistance towards salinity-induced aggregation, presumably due to stabilizing int...

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Published in:	Applied Geochemistry
Main Authors:	Herzog, Simon David, Conrad, S, Ingri, J, Persson, P, Kritzberg, E. S.
Format:	Article in Journal/Newspaper
Language:	English
Published:	2019
Subjects:	Boreal FE isotopes Fe (oxy)hydroxides Fe geochemistry Fe speciation Salinity gradient Sub-arctic Transport capacity XAS organically complexed Fe Arctic Kalix
Online Access:	https://forskning.ruc.dk/da/publications/7aa2737c-c90e-4eaa-a805-fd376a907519 https://doi.org/10.1016/j.apgeochem.2019.104385 https://hdl.handle.net/1800/7aa2737c-c90e-4eaa-a805-fd376a907519 https://rucforsk.ruc.dk/ws/files/69057943/1_s2.0_S0883292719301775_main.pdf

id	fturoskildefispu:oai:pure.atira.dk:publications/7aa2737c-c90e-4eaa-a805-fd376a907519
record_format	openpolar
spelling	fturoskildefispu:oai:pure.atira.dk:publications/7aa2737c-c90e-4eaa-a805-fd376a907519 2024-05-12T08:00:39+00:00 Spring flood induced shifts in Fe speciation and fate at increased salinity Herzog, Simon David Conrad, S Ingri, J Persson, P Kritzberg, E. S. 2019-10 application/pdf https://forskning.ruc.dk/da/publications/7aa2737c-c90e-4eaa-a805-fd376a907519 https://doi.org/10.1016/j.apgeochem.2019.104385 https://hdl.handle.net/1800/7aa2737c-c90e-4eaa-a805-fd376a907519 https://rucforsk.ruc.dk/ws/files/69057943/1_s2.0_S0883292719301775_main.pdf eng eng info:eu-repo/semantics/openAccess Herzog , S D , Conrad , S , Ingri , J , Persson , P & Kritzberg , E S 2019 , ' Spring flood induced shifts in Fe speciation and fate at increased salinity ' , Applied Geochemistry , vol. 109 , 104385 . https://doi.org/10.1016/j.apgeochem.2019.104385 Boreal FE isotopes Fe (oxy)hydroxides Fe geochemistry Fe speciation Salinity gradient Sub-arctic Transport capacity XAS organically complexed Fe article 2019 fturoskildefispu https://doi.org/10.1016/j.apgeochem.2019.104385 2024-04-18T23:57:18Z Rivers have traditionally been viewed as negligible sources of iron (Fe) to marine waters, as most Fe gets lost during estuarine mixing. However, recent findings demonstrate that Fe from boreal rivers display a higher resistance towards salinity-induced aggregation, presumably due to stabilizing interactions with organic matter. Previous studies have shown that Fe (oxy)hydroxides are selectively removed by aggregation processes, and that organic Fe complexes are less affected by increasing salinity. It has been further proposed that Fe speciation varies in response to seasonal differences in hydrology. In this study X-ray absorption spectroscopy (XAS) was used to determine the temporal variation in Fe speciation and the connection to Fe stability in response to increasing salinity in two boreal rivers (Kalix and Råne River), with the purpose to better understand the fate of riverine Fe export. Sampling was done from winter pre-flood, over the spring flood, to post-flood conditions (early April until mid June). In addition, parallel analyses for Fe speciation and isotope composition (δ56Fe relative to IRMM-14) were made on river samples, as well as salinity-induced aggregates and the fraction remaining in suspension, with the main objective to test if δ56Fe reflect the speciation of Fe. The contribution of organically complexed Fe increased during spring flood compared to the pre- and post-flood, as did Fe transport capacity. However, since Fe (oxy)hydroxides were dominating throughout the sampling period, the seasonal variability was small. Interestingly, salinity-induced aggregation experiments revealed that Fe (oxy)hydroxides, which dominated aggregates, displayed lower δ56Fe than in the river samples Fe, while organic Fe complexes in suspension had higher δ56Fe values. The seasonal variability in Fe isotope signature could not be simply linked to Fe speciation, but was probably also influenced by variation in source areas of Fe and processes along the flow-path that alter both Fe speciation and isotopic ... Article in Journal/Newspaper Arctic Roskilde University Research Portal (RUC) Arctic Kalix ENVELOPE(23.156,23.156,65.853,65.853) Applied Geochemistry 109 104385
institution	Open Polar
collection	Roskilde University Research Portal (RUC)
op_collection_id	fturoskildefispu
language	English
topic	Boreal FE isotopes Fe (oxy)hydroxides Fe geochemistry Fe speciation Salinity gradient Sub-arctic Transport capacity XAS organically complexed Fe
spellingShingle	Boreal FE isotopes Fe (oxy)hydroxides Fe geochemistry Fe speciation Salinity gradient Sub-arctic Transport capacity XAS organically complexed Fe Herzog, Simon David Conrad, S Ingri, J Persson, P Kritzberg, E. S. Spring flood induced shifts in Fe speciation and fate at increased salinity
topic_facet	Boreal FE isotopes Fe (oxy)hydroxides Fe geochemistry Fe speciation Salinity gradient Sub-arctic Transport capacity XAS organically complexed Fe
description	Rivers have traditionally been viewed as negligible sources of iron (Fe) to marine waters, as most Fe gets lost during estuarine mixing. However, recent findings demonstrate that Fe from boreal rivers display a higher resistance towards salinity-induced aggregation, presumably due to stabilizing interactions with organic matter. Previous studies have shown that Fe (oxy)hydroxides are selectively removed by aggregation processes, and that organic Fe complexes are less affected by increasing salinity. It has been further proposed that Fe speciation varies in response to seasonal differences in hydrology. In this study X-ray absorption spectroscopy (XAS) was used to determine the temporal variation in Fe speciation and the connection to Fe stability in response to increasing salinity in two boreal rivers (Kalix and Råne River), with the purpose to better understand the fate of riverine Fe export. Sampling was done from winter pre-flood, over the spring flood, to post-flood conditions (early April until mid June). In addition, parallel analyses for Fe speciation and isotope composition (δ56Fe relative to IRMM-14) were made on river samples, as well as salinity-induced aggregates and the fraction remaining in suspension, with the main objective to test if δ56Fe reflect the speciation of Fe. The contribution of organically complexed Fe increased during spring flood compared to the pre- and post-flood, as did Fe transport capacity. However, since Fe (oxy)hydroxides were dominating throughout the sampling period, the seasonal variability was small. Interestingly, salinity-induced aggregation experiments revealed that Fe (oxy)hydroxides, which dominated aggregates, displayed lower δ56Fe than in the river samples Fe, while organic Fe complexes in suspension had higher δ56Fe values. The seasonal variability in Fe isotope signature could not be simply linked to Fe speciation, but was probably also influenced by variation in source areas of Fe and processes along the flow-path that alter both Fe speciation and isotopic ...
format	Article in Journal/Newspaper
author	Herzog, Simon David Conrad, S Ingri, J Persson, P Kritzberg, E. S.
author_facet	Herzog, Simon David Conrad, S Ingri, J Persson, P Kritzberg, E. S.
author_sort	Herzog, Simon David
title	Spring flood induced shifts in Fe speciation and fate at increased salinity
title_short	Spring flood induced shifts in Fe speciation and fate at increased salinity
title_full	Spring flood induced shifts in Fe speciation and fate at increased salinity
title_fullStr	Spring flood induced shifts in Fe speciation and fate at increased salinity
title_full_unstemmed	Spring flood induced shifts in Fe speciation and fate at increased salinity
title_sort	spring flood induced shifts in fe speciation and fate at increased salinity
publishDate	2019
url	https://forskning.ruc.dk/da/publications/7aa2737c-c90e-4eaa-a805-fd376a907519 https://doi.org/10.1016/j.apgeochem.2019.104385 https://hdl.handle.net/1800/7aa2737c-c90e-4eaa-a805-fd376a907519 https://rucforsk.ruc.dk/ws/files/69057943/1_s2.0_S0883292719301775_main.pdf
long_lat	ENVELOPE(23.156,23.156,65.853,65.853)
geographic	Arctic Kalix
geographic_facet	Arctic Kalix
genre	Arctic
genre_facet	Arctic
op_source	Herzog , S D , Conrad , S , Ingri , J , Persson , P & Kritzberg , E S 2019 , ' Spring flood induced shifts in Fe speciation and fate at increased salinity ' , Applied Geochemistry , vol. 109 , 104385 . https://doi.org/10.1016/j.apgeochem.2019.104385
op_rights	info:eu-repo/semantics/openAccess
op_doi	https://doi.org/10.1016/j.apgeochem.2019.104385
container_title	Applied Geochemistry
container_volume	109
container_start_page	104385
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Spring flood induced shifts in Fe speciation and fate at increased salinity

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