Uptake of algal carbon and the likely synthesis of an "essential" fatty acid by Uvigerina ex. gr. semiornata (Foraminifera) within the Pakistan margin oxygen minimum zone: evidence from fatty acid biomarker and 13C tracer experiments
Uptake of algal carbon and the likely synthesis of an "essential" fatty acid by Uvigerina ex. gr. semiornata (Foraminifera) within the Pakistan margin oxygen minimum zone: evidence from fatty acid biomarker and 13C tracer experiments
Foraminifera are an important component of benthic communities in oxygen-depleted settings, where they potentially play a significant role in the processing of organic matter. We tracked the uptake of a 13C-labelled algal food source into individual fatty acids in the benthic foraminiferal species Uvigerina ex. gr. semiornata from the Arabian Sea oxygen minimum zone (OMZ). The tracer experiments were conducted on the Pakistan margin during the late/post monsoon period (August–October 2003). A monoculture of the diatom Thalassiosira weisflogii was 13C-labelled and used to simulate a pulse of phytoplankton in two complementary experiments. A lander system was used for in situ incubations at 140 m water depth and for 2.5 days in duration. Shipboard laboratory incubations of cores collected at 140 m incorporated an oxystat system to maintain ambient dissolved oxygen concentrations and were terminated after 5 days. Uptake of diatoms was rapid, with a high incorporation of diatom fatty acids into foraminifera after ~ 2 days in both experiments. Ingestion of the diatom food source was indicated by the increase over time in the quantity of diatom biomarker fatty acids in the foraminifera and by the high percentage of 13C in many of the fatty acids present at the endpoint of both in situ and laboratory-based experiments. These results indicate that . ex. gr. semiornata rapidly ingested the diatom food source and that these foraminifera will play an important role in the short-term cycling of organic matter within this OMZ environment. The presence of 18:1(n-7) in the experimental foraminifera suggested that U. ex. gr. semiornata also consumed non-labelled bacterial food items. In addition, levels of 20:4(n-6), a PUFA only present in low amounts in the diatom food, increased dramatically in the foraminifera during both the in situ and shipboard experiments, possibly because it was synthesised de novo. This "essential fatty acid" is often abundant in benthic fauna, yet its origins and function have remained unclear. If U. ex. gr. semiornata is capable of de novo synthesis of 20:4(n-6), then it represents a potentially major source of this dietary nutrient in benthic food webs.
3729-3738
Larkin, K.E.
f359bbaa-8a50-4972-9a01-2a9d4c428ba6
Gooday, A.J.
d9331d67-d518-4cfb-baed-9df3333b05b9
Woulds, C.
4e4a8faf-aecb-4768-a6d5-6cbef7a4a4a2
Jeffreys, R.M.
d6369ce2-e5ba-4671-8378-26d002cc81e9
Schwartz, M.
8391be6b-a5ea-4d34-a6ab-3a0c251c8f78
Cowie, G.
7ff34d6b-3cec-4c89-ab9c-4e980b5f8c76
Whitcraft, C.
2ac283a2-5aa7-423f-bdc7-5c764dec6330
Levin, L.
902e5e25-2fe2-47a2-9dde-8ab06b2b528a
Dick, J.R.
2c2868f3-6a78-4c7f-8a28-b4be8dd0559a
Pond, D.W.
1997312b-b198-4a52-89e0-e7bfc5aa9250
18 July 2014
Larkin, K.E.
f359bbaa-8a50-4972-9a01-2a9d4c428ba6
Gooday, A.J.
d9331d67-d518-4cfb-baed-9df3333b05b9
Woulds, C.
4e4a8faf-aecb-4768-a6d5-6cbef7a4a4a2
Jeffreys, R.M.
d6369ce2-e5ba-4671-8378-26d002cc81e9
Schwartz, M.
8391be6b-a5ea-4d34-a6ab-3a0c251c8f78
Cowie, G.
7ff34d6b-3cec-4c89-ab9c-4e980b5f8c76
Whitcraft, C.
2ac283a2-5aa7-423f-bdc7-5c764dec6330
Levin, L.
902e5e25-2fe2-47a2-9dde-8ab06b2b528a
Dick, J.R.
2c2868f3-6a78-4c7f-8a28-b4be8dd0559a
Pond, D.W.
1997312b-b198-4a52-89e0-e7bfc5aa9250
Larkin, K.E., Gooday, A.J., Woulds, C., Jeffreys, R.M., Schwartz, M., Cowie, G., Whitcraft, C., Levin, L., Dick, J.R. and Pond, D.W.
(2014)
Uptake of algal carbon and the likely synthesis of an "essential" fatty acid by Uvigerina ex. gr. semiornata (Foraminifera) within the Pakistan margin oxygen minimum zone: evidence from fatty acid biomarker and 13C tracer experiments.
Biogeosciences, 11 (14), .
(doi:10.5194/bg-11-3729-2014).
Abstract
Foraminifera are an important component of benthic communities in oxygen-depleted settings, where they potentially play a significant role in the processing of organic matter. We tracked the uptake of a 13C-labelled algal food source into individual fatty acids in the benthic foraminiferal species Uvigerina ex. gr. semiornata from the Arabian Sea oxygen minimum zone (OMZ). The tracer experiments were conducted on the Pakistan margin during the late/post monsoon period (August–October 2003). A monoculture of the diatom Thalassiosira weisflogii was 13C-labelled and used to simulate a pulse of phytoplankton in two complementary experiments. A lander system was used for in situ incubations at 140 m water depth and for 2.5 days in duration. Shipboard laboratory incubations of cores collected at 140 m incorporated an oxystat system to maintain ambient dissolved oxygen concentrations and were terminated after 5 days. Uptake of diatoms was rapid, with a high incorporation of diatom fatty acids into foraminifera after ~ 2 days in both experiments. Ingestion of the diatom food source was indicated by the increase over time in the quantity of diatom biomarker fatty acids in the foraminifera and by the high percentage of 13C in many of the fatty acids present at the endpoint of both in situ and laboratory-based experiments. These results indicate that . ex. gr. semiornata rapidly ingested the diatom food source and that these foraminifera will play an important role in the short-term cycling of organic matter within this OMZ environment. The presence of 18:1(n-7) in the experimental foraminifera suggested that U. ex. gr. semiornata also consumed non-labelled bacterial food items. In addition, levels of 20:4(n-6), a PUFA only present in low amounts in the diatom food, increased dramatically in the foraminifera during both the in situ and shipboard experiments, possibly because it was synthesised de novo. This "essential fatty acid" is often abundant in benthic fauna, yet its origins and function have remained unclear. If U. ex. gr. semiornata is capable of de novo synthesis of 20:4(n-6), then it represents a potentially major source of this dietary nutrient in benthic food webs.
Text
bg-11-3729-2014.pdf
- Version of Record
More information
Published date: 18 July 2014
Organisations:
Marine Biogeochemistry
Identifiers
Local EPrints ID: 367071
URI: http://eprints.soton.ac.uk/id/eprint/367071
ISSN: 1726-4170
PURE UUID: cb85e3b4-5499-4eeb-8fb8-4653030f9ecc
Catalogue record
Date deposited: 21 Jul 2014 12:37
Last modified: 14 Mar 2024 17:22
Export record
Altmetrics
Contributors
Author:
K.E. Larkin
Author:
A.J. Gooday
Author:
C. Woulds
Author:
R.M. Jeffreys
Author:
M. Schwartz
Author:
G. Cowie
Author:
C. Whitcraft
Author:
L. Levin
Author:
J.R. Dick
Author:
D.W. Pond
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics