Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/133251
Title: The photophysiological response of nitrogen-limited phytoplankton to episodic nitrogen supply associated with tropical instability waves in the Equatorial Atlantic
Authors: Sherman, Jonathan
Subramaniam, Ajit
Gorbunov, Maxim Y.
Fernández Carrera, Ana 
Kiko, Rainer
Brandt, Peter
Falkowski, Paul G.
UNESCO Clasification: 251001 Oceanografía biológica
Keywords: Equatorial Atlantic
Fluorescence lifetimes
Photophysiology
Phytoplankton
Tropical instability waves (TIWs), et al
Issue Date: 2022
Project: Tropical and South Atlantic - climate-based marine ecosystem prediction for sustainable management 
Journal: Frontiers in Marine Science 
Abstract: In the Equatorial Atlantic nitrogen availability is assumed to control phytoplankton dynamics. However, in situ measurements of phytoplankton physiology and productivity are surprisingly sparse in comparison with the North Atlantic. In addition to the formation of the Equatorial cold tongue in the boreal summer, tropical instability waves (TIWs) and related short-term processes may locally cause episodic events of enhanced nutrient supply to the euphotic layer. Here, we assess changes in phytoplankton photophysiology in response to such episodic events as well as short-term nutrient addition experiments using a pair of custom-built fluorometers that measure chlorophyll a (Chl a) variable fluorescence and fluorescence lifetimes. The fluorometers were deployed during a transatlantic cruise along the Equator in the fall of 2019. We hypothesized that the Equatorial Atlantic is nitrogen-limited, with an increasing degree of limitation to the west where the cold tongue is not prominent, and that infrequent nitrate injection by TIW related processes are the primary source alleviating this limitation. We further hypothesized phytoplankton are well acclimated to the low levels of nitrogen, and once nitrogen is supplied, they can rapidly utilize it to stimulate growth and productivity. Across three TIW events encountered, we observed increased productivity and chlorophyll a concentration concurrent with a decreased photochemical conversion efficiency and overall photophysiological competency. Moreover, the observed decrease in photosynthetic turnover rates toward the western section suggested a 70% decrease in growth rates compared to their maximum values under nutrient-replete conditions. This decrease aligned with the increased growth rates observed following 24 h incubation with added nitrate in the western section. These results support our hypotheses that nitrogen is the limiting factor in the region and that phytoplankton are in a state of balanced growth, waiting to “body surf” waves of nutrients which fuel growth and productivity.
URI: http://hdl.handle.net/10553/133251
ISSN: 2296-7745
DOI: 10.3389/fmars.2021.814663
Source: Frontiers in Marine Science [ISSN 2296-7745], v, 8
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