Rapid DMSP production by an Antarctic phytoplankton community exposed to natural surface irradiances in late spring

Natural marine microbial communities sourced from under fast ice at an Antarctic coastal site were incubated in tanks under differently attenuated natural sunlight for 2 wk in late spring (Expt 1) and early summer (Expt 2). In the 18 d period between the 2 sampling episodes, the ice edge retreated f...

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Veröffentlicht in:	Aquatic microbial ecology : international journal 2013-01, Vol.71 (2), p.117-129
Hauptverfasser:	VANCE, Tessa R, DAVIDSON, Andrew T, THOMSON, Paul G, LEVASSEUR, Maurice, LIZOTTE, Martine, CURRAN, Mark A. J, JONES, Graham B
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Sprache:	eng
Schlagworte:	Biological and medical sciences Fundamental and applied biological sciences. Psychology Microbiology Phaeocystis antarctica
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container_title	Aquatic microbial ecology : international journal
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creator	VANCE, Tessa R DAVIDSON, Andrew T THOMSON, Paul G LEVASSEUR, Maurice LIZOTTE, Martine CURRAN, Mark A. J JONES, Graham B
description	Natural marine microbial communities sourced from under fast ice at an Antarctic coastal site were incubated in tanks under differently attenuated natural sunlight for 2 wk in late spring (Expt 1) and early summer (Expt 2). In the 18 d period between the 2 sampling episodes, the ice edge retreated from 10 to within 1.5 km of the sampling site, and the fast ice began to break up. Expt 1 rapidly produced significant quantities of total DMSP (DMSP sub(t)) with concentrations increasing from 16.6 nmol 1 super(-1) to 192.7-204.5 nmol l super(-1) in 2 d. We believe this is the largest observed increase in DMSP sub(t) in a semi-natural community over this time frame. Abundances of Phaeocystis antarctica increased significantly during this initial period, while other phytoplankton species/ groups remained stable. DMSP sub(t) concentrations then declined at rates averaging 39.2-50.0 nmol 1 super(-1) d super(-1) between Days 2 and 4. No major DMSP sub(t) production event occurred during Expt 2 despite strong community similarities. Sea ice breakout exposes phytoplankton to significant light-related oxidative stress, and these results suggest the rapid production of DMSP sub(t) during Expt 1 was due to the initiation of anti-oxidant mechanisms by a low-light-acclimated community in response to solar radiation stress. DMS concentrations remained comparatively low throughout Expt 1, suggesting oxidation of DMSP to products other than DMS. Rapid sea ice breakout in coastal regions of Antarctica may result in similar fast DMSP production events during spring.
doi_str_mv	10.3354/ame01670
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J ; JONES, Graham B</creator><creatorcontrib>VANCE, Tessa R ; DAVIDSON, Andrew T ; THOMSON, Paul G ; LEVASSEUR, Maurice ; LIZOTTE, Martine ; CURRAN, Mark A. J ; JONES, Graham B</creatorcontrib><description>Natural marine microbial communities sourced from under fast ice at an Antarctic coastal site were incubated in tanks under differently attenuated natural sunlight for 2 wk in late spring (Expt 1) and early summer (Expt 2). In the 18 d period between the 2 sampling episodes, the ice edge retreated from 10 to within 1.5 km of the sampling site, and the fast ice began to break up. Expt 1 rapidly produced significant quantities of total DMSP (DMSP sub(t)) with concentrations increasing from 16.6 nmol 1 super(-1) to 192.7-204.5 nmol l super(-1) in 2 d. We believe this is the largest observed increase in DMSP sub(t) in a semi-natural community over this time frame. Abundances of Phaeocystis antarctica increased significantly during this initial period, while other phytoplankton species/ groups remained stable. DMSP sub(t) concentrations then declined at rates averaging 39.2-50.0 nmol 1 super(-1) d super(-1) between Days 2 and 4. No major DMSP sub(t) production event occurred during Expt 2 despite strong community similarities. Sea ice breakout exposes phytoplankton to significant light-related oxidative stress, and these results suggest the rapid production of DMSP sub(t) during Expt 1 was due to the initiation of anti-oxidant mechanisms by a low-light-acclimated community in response to solar radiation stress. DMS concentrations remained comparatively low throughout Expt 1, suggesting oxidation of DMSP to products other than DMS. 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J</creatorcontrib><creatorcontrib>JONES, Graham B</creatorcontrib><title>Rapid DMSP production by an Antarctic phytoplankton community exposed to natural surface irradiances in late spring</title><title>Aquatic microbial ecology : international journal</title><description>Natural marine microbial communities sourced from under fast ice at an Antarctic coastal site were incubated in tanks under differently attenuated natural sunlight for 2 wk in late spring (Expt 1) and early summer (Expt 2). In the 18 d period between the 2 sampling episodes, the ice edge retreated from 10 to within 1.5 km of the sampling site, and the fast ice began to break up. Expt 1 rapidly produced significant quantities of total DMSP (DMSP sub(t)) with concentrations increasing from 16.6 nmol 1 super(-1) to 192.7-204.5 nmol l super(-1) in 2 d. We believe this is the largest observed increase in DMSP sub(t) in a semi-natural community over this time frame. Abundances of Phaeocystis antarctica increased significantly during this initial period, while other phytoplankton species/ groups remained stable. DMSP sub(t) concentrations then declined at rates averaging 39.2-50.0 nmol 1 super(-1) d super(-1) between Days 2 and 4. No major DMSP sub(t) production event occurred during Expt 2 despite strong community similarities. Sea ice breakout exposes phytoplankton to significant light-related oxidative stress, and these results suggest the rapid production of DMSP sub(t) during Expt 1 was due to the initiation of anti-oxidant mechanisms by a low-light-acclimated community in response to solar radiation stress. DMS concentrations remained comparatively low throughout Expt 1, suggesting oxidation of DMSP to products other than DMS. Rapid sea ice breakout in coastal regions of Antarctica may result in similar fast DMSP production events during spring.</description><subject>Biological and medical sciences</subject><subject>Fundamental and applied biological sciences. 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Expt 1 rapidly produced significant quantities of total DMSP (DMSP sub(t)) with concentrations increasing from 16.6 nmol 1 super(-1) to 192.7-204.5 nmol l super(-1) in 2 d. We believe this is the largest observed increase in DMSP sub(t) in a semi-natural community over this time frame. Abundances of Phaeocystis antarctica increased significantly during this initial period, while other phytoplankton species/ groups remained stable. DMSP sub(t) concentrations then declined at rates averaging 39.2-50.0 nmol 1 super(-1) d super(-1) between Days 2 and 4. No major DMSP sub(t) production event occurred during Expt 2 despite strong community similarities. Sea ice breakout exposes phytoplankton to significant light-related oxidative stress, and these results suggest the rapid production of DMSP sub(t) during Expt 1 was due to the initiation of anti-oxidant mechanisms by a low-light-acclimated community in response to solar radiation stress. 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subjects	Biological and medical sciences Fundamental and applied biological sciences. Psychology Microbiology Phaeocystis antarctica
title	Rapid DMSP production by an Antarctic phytoplankton community exposed to natural surface irradiances in late spring
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