The transformation and fate of sub-Arctic microphytobenthos carbon revealed through 13 C-labeling

Microphytobenthos (MPB) at higher latitudes has been poorly studied. This study used pulse-chase C-13-labeling to investigate the production, processing, and fate of MPB-derived carbon (MPB-C) in sub-Arctic intertidal sediments over 31 d. Gross primary production (2.1 mmolCm(-2)h(-1)+/- 0.4 mmolCm(-...

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Bibliographic Details
Published in:Limnology and Oceanography
Main Authors: Oakes, Joanne M., Rysgaard, Søren, Glud, Ronnie N., Eyre, Bradley D.
Format: Article in Journal/Newspaper
Language:English
Published: 2016
Subjects:
benthic microalgae
organic-matter
in-situ
nitrogen incorporation
intertidal sediments
microbial community
coastal sediments
sandy sediments
tracing carbon
salt-marsh
Arctic
Online Access:https://portal.findresearcher.sdu.dk/da/publications/502456ee-f0b2-4ae5-8cf9-f0af4b344da3
https://doi.org/10.1002/lno.10377
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Summary:Microphytobenthos (MPB) at higher latitudes has been poorly studied. This study used pulse-chase C-13-labeling to investigate the production, processing, and fate of MPB-derived carbon (MPB-C) in sub-Arctic intertidal sediments over 31 d. Gross primary production (2.1 mmolCm(-2)h(-1)+/- 0.4 mmolCm(-2)h(-1)) was comparable to that reported for temperate regions. Some of the C-13 fixed by sub-Arctic MPB was rapidly (within 0.5 d) transferred to deeper sediments (below 2 cm), but most was retained within surface sediments (>70.2% of the C-13 present at any time during the study). At any time, MPB accounted for49.8% of this C-13. The C-13 content of sediment organic carbon declined over time, but>31% of the C-13 fixed within the first tidal cycle remained after 31 d, suggesting that sub-Arctic MPB may contribute to coastal carbon retention during the productive season. Over 21 d, 10.6% of the fixed C-13 was removed via DIC fluxes and 0.3% via DOC fluxes from inundated sediment, and 0.6% as CO2 from exposed sediment. The greatest loss of C-13 (38.2%) was via unmeasured pathways, including resuspension and/or removal by mobile consumers. The rates of MPB-C production and the relative importance of the pathways for MPB-C loss were similar to that observed for comparable lower latitude sediments, demonstrating that MPB at higher latitudes are not necessarily distinct from MPB at lower latitudes and probably play a similarly important role in ecosystem functioning. Apparently, local environmental conditions are more important than climate differences for determining the processing and fate of MPB-C. Microphytobenthos (MPB) at higher latitudes has been poorly studied. This study used pulse-chase 13 C-labeling to investigate the production, processing, and fate of MPB-derived carbon (MPB-C) in sub-Arctic intertidal sediments over 31 d. Gross primary production (2.1 mmol C m −2 h −1 ± 0.4 mmol C m −2 h −1 ) was comparable to that reported for temperate regions. Some of the 13 C fixed by sub-Arctic MPB was rapidly ...

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