Description Location plot with satellite‐derived (a) mean sea level anomaly (m), (b) sea surface temperature (°C), and (c) chlorophyll a concentration (mg m−3 ). Arrows in (b) and (c) represent geostrophic...
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Mean Characteristics (±SD) Over the Top 100 m of the Water Column. The Mixed Layer Depth Is Calculated From the Minimum Depth to Which T < T(10 m) − 0.4 °C Following Condie and Dunn ()
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Conceptual diagram demonstrating P. atlanticum feeding, diel vertical migration, and contribution to active carbon transport in the R‐WCE (left), CCE (middle), and WCE (right). The majority of...
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Hours Spent at Day and Night Depths, and During Vertical Migration (Between Surface and Depth), Derived From EK60
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Pyrosoma atlanticum size distribution in the (a) R‐WCE, (b) CCE, and (c) WCE. R‐WCE = anti‐cyclonic warm core eddy that formed from the retroflection of the East Australian Current; CCE = cold core...
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Depth profiles of (a) temperature (°C), (b) salinity, and (c) chlorophyll a (mg m−3) in the R‐WCE (black), CCE (blue), and WCE (red). Shaded values indicate standard deviation around the mean....
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Mean (±SD) log biomass of (a) total chlorophyll a (black bars) and phytoplankton >10 μm (gray bars) and (b) Pyrosoma atlanticum (black bars) and all other micronekton (gray bars) at the R‐WCE, CCE,...
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description (a) Relationship between length and wet weight for Pyrosoma atlanticum showing data points (asterisks) and line of best fit (R2 = 0.9). (b) Relationship between respiration rate and wet weight for...
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Active Downward Carbon Flux for P. atlanticum From Nighttime Weighted Mean Depth (WMD) to Daytime WMD (See Figure )
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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Description Depth profile of mean Pyrosoma atlanticum biomass (mg WW·m−3) during the day (white bars) and night (black bars) at the (a) R‐WCE, (b) CCE, and (c) WCE with chlorophyll a (mg m−3) overlaid (dotted...
Article Title: Large Vertical Migrations of Pyrosoma atlanticum Play an Important Role in Active Carbon Transport
Publication Title: Journal of Geophysical Research: Biogeosciences

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