Phytoplankton primary productivity: a dual-incubation approach for direct comparison of photosystem II photosynthetic flux (JVPII) and 14C-fixation experiments
Phytoplankton primary productivity: a dual-incubation approach for direct comparison of photosystem II photosynthetic flux (JVPII) and 14C-fixation experiments
Singe-turnover active chlorophyll a fluorometry (STAF) can be used to assess phytoplankton photosynthetic rates in terms of the photosystem II photochemical flux (JV PII, μmol e − m −3 s −1) instantaneously, autonomously, and at high resolution. While JV PII provides an upper limit to rates of phytoplankton primary productivity in units of carbon fixation, the conversion between these two rates is variable, limiting our ability to utilize high-resolution JV PII data to monitor phytoplankton primary productivity. Simultaneous measurements of JV PII and 14C-fixation help in understanding the factors controlling the variable ratio between the two rates. However, to date, methodological inconsistencies, including differences in incubation lengths and light quality, have greatly inhibited practical assessment of such electron to carbon ratios (Φ e,C, mol e − mol C −1). We here present data from a range of dual-incubation experiments in northeast Atlantic waters during which JV PII and 14C-fixation were measured simultaneously on the same sample. Time-course experiments show how Φ e,C increases with incubation length, likely reflecting the transition from gross to net 14C-fixation. Dual-incubation experiments conducted under different light levels show a tendency for increased Φ e,C under (super-)saturating light. Finally, data from a diurnal experiment demonstrate how Φ e,C increases over the course of a day, due to downregulation of 14C-fixation. We provide a detailed description of our methodological approach, including a critical discussion of improvements to the calculation of JV PII implemented in the LabSTAF instrument used for active fluorescence measurements and the limitations of the well-established 14C-fixation approach.
Schuback, Nina
790ed593-f053-43f6-80d7-9040ae604b60
Oxborough, Kevin
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Burkitt-Gray, Mary
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Lopez-Garcia, Patricia
c028fa36-f0c2-4905-be82-178dbcb9e887
Patey, Matthew D.
224dd2f8-b804-4839-b9d2-b5ace922bd87
Hammermeister, Emily Madison
279b2fc2-b4f5-4ae3-8974-d2dec5cd1452
Wright, Alan
88f0d02f-0ebb-4034-8b02-b6f71b3a1cdc
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
12 July 2024
Schuback, Nina
790ed593-f053-43f6-80d7-9040ae604b60
Oxborough, Kevin
16d1da54-ed48-400e-9acf-d03536a1401e
Burkitt-Gray, Mary
8b0117b5-8e09-4b82-a0b3-f51260c70319
Lopez-Garcia, Patricia
c028fa36-f0c2-4905-be82-178dbcb9e887
Patey, Matthew D.
224dd2f8-b804-4839-b9d2-b5ace922bd87
Hammermeister, Emily Madison
279b2fc2-b4f5-4ae3-8974-d2dec5cd1452
Wright, Alan
88f0d02f-0ebb-4034-8b02-b6f71b3a1cdc
Moore, C. Mark
7ec80b7b-bedc-4dd5-8924-0f5d01927b12
Schuback, Nina, Oxborough, Kevin, Burkitt-Gray, Mary, Lopez-Garcia, Patricia, Patey, Matthew D., Hammermeister, Emily Madison, Wright, Alan and Moore, C. Mark
(2024)
Phytoplankton primary productivity: a dual-incubation approach for direct comparison of photosystem II photosynthetic flux (JVPII) and 14C-fixation experiments.
Limnology and Oceanography: Methods.
(doi:10.1002/lom3.10635).
Abstract
Singe-turnover active chlorophyll a fluorometry (STAF) can be used to assess phytoplankton photosynthetic rates in terms of the photosystem II photochemical flux (JV PII, μmol e − m −3 s −1) instantaneously, autonomously, and at high resolution. While JV PII provides an upper limit to rates of phytoplankton primary productivity in units of carbon fixation, the conversion between these two rates is variable, limiting our ability to utilize high-resolution JV PII data to monitor phytoplankton primary productivity. Simultaneous measurements of JV PII and 14C-fixation help in understanding the factors controlling the variable ratio between the two rates. However, to date, methodological inconsistencies, including differences in incubation lengths and light quality, have greatly inhibited practical assessment of such electron to carbon ratios (Φ e,C, mol e − mol C −1). We here present data from a range of dual-incubation experiments in northeast Atlantic waters during which JV PII and 14C-fixation were measured simultaneously on the same sample. Time-course experiments show how Φ e,C increases with incubation length, likely reflecting the transition from gross to net 14C-fixation. Dual-incubation experiments conducted under different light levels show a tendency for increased Φ e,C under (super-)saturating light. Finally, data from a diurnal experiment demonstrate how Φ e,C increases over the course of a day, due to downregulation of 14C-fixation. We provide a detailed description of our methodological approach, including a critical discussion of improvements to the calculation of JV PII implemented in the LabSTAF instrument used for active fluorescence measurements and the limitations of the well-established 14C-fixation approach.
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Limnology Ocean Methods - 2024 - Schuback - Phytoplankton primary productivity A dual‐incubation approach for direct
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Accepted/In Press date: 17 June 2024
Published date: 12 July 2024
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Local EPrints ID: 492485
URI: http://eprints.soton.ac.uk/id/eprint/492485
ISSN: 1541-5856
PURE UUID: 3051fab3-1722-4db1-82e5-2f7dc52d92ae
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Date deposited: 29 Jul 2024 17:00
Last modified: 04 Sep 2024 02:02
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Author:
Nina Schuback
Author:
Kevin Oxborough
Author:
Mary Burkitt-Gray
Author:
Patricia Lopez-Garcia
Author:
Matthew D. Patey
Author:
Emily Madison Hammermeister
Author:
Alan Wright
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