Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities

ABSTRACT: Short-term temperature effects on respiration and photosynthesis were investigated in intact diatom-dominated benthic communities, collected at 2 temperate and 1 high-arctic subtidal sites. Areal rates of total (TOE) and diffusive (DOE) O2 exchange were determined from O2-microsensor measu...

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Main Authors: Hancke, Kasper, Glud, Ronnie N.
Format: Article in Journal/Newspaper
Language:English
Published: 2004
Subjects:
TEMPERATURE
adaptation
Benthic microphytes
Photosynthesis
Respiration
Q10
Microelectrodes
Oxygen
Arctic
Online Access:https://portal.findresearcher.sdu.dk/da/publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe
https://findresearcher.sdu.dk/ws/files/61476269/Hancke_Glud_2004_Temperature_effects_on_respiration_and_photosynthesis_AME.pdf
id ftsydanskunivpub:oai:sdu.dk:publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe
record_format openpolar
spelling ftsydanskunivpub:oai:sdu.dk:publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe 2024-09-09T19:27:57+00:00 Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities Hancke, Kasper Glud, Ronnie N. 2004 application/pdf https://portal.findresearcher.sdu.dk/da/publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe https://findresearcher.sdu.dk/ws/files/61476269/Hancke_Glud_2004_Temperature_effects_on_respiration_and_photosynthesis_AME.pdf eng eng https://portal.findresearcher.sdu.dk/da/publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe info:eu-repo/semantics/restrictedAccess Hancke , K & Glud , R N 2004 , ' Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities ' , Aquatic Microbial Ecology , vol. 37 , pp. 265-281 . TEMPERATURE adaptation Benthic microphytes Photosynthesis Respiration Q10 Microelectrodes Oxygen article 2004 ftsydanskunivpub 2024-07-29T23:46:23Z ABSTRACT: Short-term temperature effects on respiration and photosynthesis were investigated in intact diatom-dominated benthic communities, collected at 2 temperate and 1 high-arctic subtidal sites. Areal rates of total (TOE) and diffusive (DOE) O2 exchange were determined from O2-microsensor measurements in intact sediment cores in the temperature range from 0 to 24°C in darkness and at 140 μmol photons m–2 s–1. In darkness, the O2 consumption increased exponentially with increasing temperature for both TOE and DOE, and no optimum temperature was observed within the applied temperature range. Q10 was calculated from the linear slope in Arrhenius plots and ranged between 1.7 and 3.3 at the respective sites. The volume-specific rate (Rdark,vol) solely representing the biological temperature response was somewhat stronger, with Q10 values of 2.6 to 5.2. The Q10 values were overall not correlated to the in situ water temperature or geographical position. Accordingly, no difference in the temperature acclimation or adaptation strategy of the microbial community was observed. Slurred oxic sediment samples showed a Q10 of 1.7 and were, hence, lower than estimates based on intact sediment core measurements. This can be ascribed to changes in physical and biological controls during resuspension. Gross photosynthesis was measured with the light-dark shift method at the 2 temperate sites. Both areal (Pgross) and volumetric (Pgross,vol) rates increased with temperature to an optimum temperature at 12 and 15°C, with a Q10 for Pgross of 2.2 and 2.6 for the 2 sites, respectively. The gross photosynthesis response could be categorised as psychrotrophic for both sites and no temperature adaptation was observed between the 2 sites. Our measurements document that temperature stimulates heterotrophic activity more than gross photosynthesis, and that the benthic communities gradually become heterotrophic with increasing temperature. This has implications for C-cycling in shallow water communities experiencing seasonal and diel ... Article in Journal/Newspaper Arctic University of Southern Denmark Research Portal Arctic
institution Open Polar
collection University of Southern Denmark Research Portal
op_collection_id ftsydanskunivpub
language English
topic TEMPERATURE
adaptation
Benthic microphytes
Photosynthesis
Respiration
Q10
Microelectrodes
Oxygen
spellingShingle TEMPERATURE
adaptation
Benthic microphytes
Photosynthesis
Respiration
Q10
Microelectrodes
Oxygen
Hancke, Kasper
Glud, Ronnie N.
Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
topic_facet TEMPERATURE
adaptation
Benthic microphytes
Photosynthesis
Respiration
Q10
Microelectrodes
Oxygen
description ABSTRACT: Short-term temperature effects on respiration and photosynthesis were investigated in intact diatom-dominated benthic communities, collected at 2 temperate and 1 high-arctic subtidal sites. Areal rates of total (TOE) and diffusive (DOE) O2 exchange were determined from O2-microsensor measurements in intact sediment cores in the temperature range from 0 to 24°C in darkness and at 140 μmol photons m–2 s–1. In darkness, the O2 consumption increased exponentially with increasing temperature for both TOE and DOE, and no optimum temperature was observed within the applied temperature range. Q10 was calculated from the linear slope in Arrhenius plots and ranged between 1.7 and 3.3 at the respective sites. The volume-specific rate (Rdark,vol) solely representing the biological temperature response was somewhat stronger, with Q10 values of 2.6 to 5.2. The Q10 values were overall not correlated to the in situ water temperature or geographical position. Accordingly, no difference in the temperature acclimation or adaptation strategy of the microbial community was observed. Slurred oxic sediment samples showed a Q10 of 1.7 and were, hence, lower than estimates based on intact sediment core measurements. This can be ascribed to changes in physical and biological controls during resuspension. Gross photosynthesis was measured with the light-dark shift method at the 2 temperate sites. Both areal (Pgross) and volumetric (Pgross,vol) rates increased with temperature to an optimum temperature at 12 and 15°C, with a Q10 for Pgross of 2.2 and 2.6 for the 2 sites, respectively. The gross photosynthesis response could be categorised as psychrotrophic for both sites and no temperature adaptation was observed between the 2 sites. Our measurements document that temperature stimulates heterotrophic activity more than gross photosynthesis, and that the benthic communities gradually become heterotrophic with increasing temperature. This has implications for C-cycling in shallow water communities experiencing seasonal and diel ...
format Article in Journal/Newspaper
author Hancke, Kasper
Glud, Ronnie N.
author_facet Hancke, Kasper
Glud, Ronnie N.
author_sort Hancke, Kasper
title Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
title_short Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
title_full Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
title_fullStr Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
title_full_unstemmed Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
title_sort temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities
publishDate 2004
url https://portal.findresearcher.sdu.dk/da/publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe
https://findresearcher.sdu.dk/ws/files/61476269/Hancke_Glud_2004_Temperature_effects_on_respiration_and_photosynthesis_AME.pdf
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Hancke , K & Glud , R N 2004 , ' Temperature effects on respiration and photosynthesis in three diatom-dominated benthic communities ' , Aquatic Microbial Ecology , vol. 37 , pp. 265-281 .
op_relation https://portal.findresearcher.sdu.dk/da/publications/4a8f7c19-4068-4dce-8ffc-2a0b98ba29fe
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1809897263185526784

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