Nitrogen uptake by phytoplankton in surface waters of the Indian sector of Southern Ocean during austral summer

This study reports the nitrogen uptake rate (using 15N tracer) of phytoplankton in surface waters of different frontal zones in the Indian sector of the Southern Ocean (SO) during austral summer of 2013. The investigated area encompasses four major frontal systems, i.e., the subtropical front (STF),...

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Bibliographic Details
Published in:Frontiers of earth science 2018-03, Vol.12 (1), p.52-62
Main Authors: TRIPATHY, S. C., PATRA, SIVAJI, VISHNU VARDHAN, K., SARKAR, A., MISHRA, R. K., ANILKUMAR, N.
Format: Article
Language:English
Subjects:
Ammonium
Ammonium compounds
Antarctic front
Area
Carbon dioxide
Carbon dioxide atmospheric concentrations
Earth and Environmental Science
Earth Sciences
f-ratio
Frontal zones
Mineral nutrients
new productivity
Nitrates
Nitrogen dioxide
Nitrogen isotopes
nitrogen uptake
Nutrient concentrations
Oceans
Phosphates
Phytoplankton
Plankton
Polar fronts
Ratios
Research Article
Solubility
Southern Ocean
Spatial variations
Summer
Surface salinity
Surface temperature
Surface water
Tracers
Uptake
Urea
Water temperature
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Summary:This study reports the nitrogen uptake rate (using 15N tracer) of phytoplankton in surface waters of different frontal zones in the Indian sector of the Southern Ocean (SO) during austral summer of 2013. The investigated area encompasses four major frontal systems, i.e., the subtropical front (STF), subantarctic front (SAF), polar front-1 (PF1) and polar front-2 (PF2). Southward decrease of surface water temperature was observed, whereas surface salinity did not show any significant trend. Nutrient (NO 3 − and SiO 4 4−) concentrations increased southward from STF to PF; while ammonium (NH 4 +), nitrite (NO 2 −) and phosphate (PO 4 3−) remained comparatively stable. Analysis of nutrient ratios indicated potential N-limited conditions at the STF and SAF but no such scenario was observed for PF. In terms of phytoplankton biomass, PF1 was found to be the most productive followed by SAF, whereas PF2 was the least productive region. Nitrate uptake rate increased with increasing latitude, as no systematic spatial variation was discerned for NH 4 + and urea (CO(NH 2) 2). Linear relationship between nitrate and total N-uptake reveals that the studied area is capable of exporting up to 60% of the total production to the deep ocean if the environmental settings are favorable. Like N-uptake rates the f-ratio also increased towards PF region indicating comparatively higher new production in the PF than in the subtropics. The moderately high average f-ratio (0.53) indicates potentially near equal contributions by new production and regenerated production to the total productivity in the study area. Elevation in N-uptake rates with declining temperature suggests that the SO with its vast quantity of cool water could play an important role in drawing down the atmospheric CO 2 through the "solubility pump".
ISSN:2095-0195
2095-0209
DOI:10.1007/s11707-017-0649-9