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Main Authors: Tessin, Allyson, März, Christian, Kędra, Monika, Matthiessen, Jens, Morata, Nathalie, Nairn, Michael, O'Regan, Matthew, Peeken, Ilka
Format: Dataset Open Access
Language:en
Published: PANGAEA 2020
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.921572
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author Tessin, Allyson
März, Christian
Kędra, Monika
Matthiessen, Jens
Morata, Nathalie
Nairn, Michael
O'Regan, Matthew
Peeken, Ilka
author_facet Tessin, Allyson
März, Christian
Kędra, Monika
Matthiessen, Jens
Morata, Nathalie
Nairn, Michael
O'Regan, Matthew
Peeken, Ilka
collection Datos científicos de ciencias marinas y ambientales
contents The Arctic Ocean region is currently undergoing dramatic changes, which will likely alter the nutrient cycles that underpin Arctic marine ecosystems. Phosphate is a key limiting nutrient for marine life but gaps in our understanding of the Arctic phosphorus (P) cycle persist. In this study, we investigate the benthic burial and recycling of phosphorus using sediments and pore waters from the Eurasian Arctic margin, including the Barents Sea slope and the Yermak Plateau. Our results highlight that P is generally lost from sediments with depth during organic matter respiration. On the Yermak Plateau, remobilization of P results in a diffusive flux of P to the seafloor of between 96 and 261 μmol m−2 yr−1. On the Barents Sea slope, diffusive fluxes of P are much larger (1736–2449 μmol m−2 yr−1), but these fluxes are into near-surface sediments rather than to the bottom waters. The difference in cycling on the Barents Sea slope is controlled by higher fluxes of fresh organic matter and active iron cycling. As changes in primary productivity, ocean circulation and glacial melt continue, benthic P cycling is likely to be altered with implications for P imported into the Arctic Ocean Basin.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_921572
institution PANGAEA
language en
publishDate 2020
publisher PANGAEA
record_format pangaea
spellingShingle Phosphorus sedimentary geochemistry from the Eurasian Arctic Margin
Tessin, Allyson
März, Christian
Kędra, Monika
Matthiessen, Jens
Morata, Nathalie
Nairn, Michael
O'Regan, Matthew
Peeken, Ilka

The Arctic Ocean region is currently undergoing dramatic changes, which will likely alter the nutrient cycles that underpin Arctic marine ecosystems. Phosphate is a key limiting nutrient for marine life but gaps in our understanding of the Arctic phosphorus (P) cycle persist. In this study, we investigate the benthic burial and recycling of phosphorus using sediments and pore waters from the Eurasian Arctic margin, including the Barents Sea slope and the Yermak Plateau. Our results highlight that P is generally lost from sediments with depth during organic matter respiration. On the Yermak Plateau, remobilization of P results in a diffusive flux of P to the seafloor of between 96 and 261 μmol m−2 yr−1. On the Barents Sea slope, diffusive fluxes of P are much larger (1736–2449 μmol m−2 yr−1), but these fluxes are into near-surface sediments rather than to the bottom waters. The difference in cycling on the Barents Sea slope is controlled by higher fluxes of fresh organic matter and active iron cycling. As changes in primary productivity, ocean circulation and glacial melt continue, benthic P cycling is likely to be altered with implications for P imported into the Arctic Ocean Basin.
title Phosphorus sedimentary geochemistry from the Eurasian Arctic Margin
topic
url https://doi.org/10.1594/PANGAEA.921572