Pacific Southern Ocean coccolithophore-derived particulate inorganic carbon (PIC): A novel comparative analysis of in-situ and satellite-derived measurements

Polar plankton communities are already experiencing the impact of ocean acidification and global warming. Coccolithophores are the main type of calcifying phytoplankton in the Southern Ocean (SO) and they play a key role in the carbon cycle through the production of particulate organic, and inorgani...

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Bibliographic Details
Main Authors: Saavedra-Pellitero, Mariem, Baumann, Karl-Heinz, Bachiller-Jareno, Nuria, Lovell, Harold, Vollmar, Nele Manon, Malinverno, Elisa
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2023
Subjects:
article
Verlagsveröffentlichung
Southern Ocean
Drake Passage
Pacific
New Zealand
Antarc*
Antarctica
Ocean acidification
Online Access:https://doi.org/10.5194/egusphere-2023-2801
https://noa.gwlb.de/receive/cop_mods_00070686
https://noa.gwlb.de/servlets/MCRFileNodeServlet/cop_derivate_00069028/egusphere-2023-2801.pdf
https://egusphere.copernicus.org/preprints/2023/egusphere-2023-2801/egusphere-2023-2801.pdf
Description
Summary:Polar plankton communities are already experiencing the impact of ocean acidification and global warming. Coccolithophores are the main type of calcifying phytoplankton in the Southern Ocean (SO) and they play a key role in the carbon cycle through the production of particulate organic, and inorganic carbon (PIC). Coccolithophores account for most of the optical PIC backscattering in the sea, so remote sensing is potentially an excellent monitoring tool. However, in situ measurements in the SO are sparse in space and time due to the harsh weather conditions. Here, we combine micropalaeontology and remote-sensing to evaluate critical discrepancies between coccolithophore and satellite-derived PIC in the Pacific SO in non-bloom conditions. Plankton samples were collected from two latitudinal transects: from New Zealand to Antarctica (December 2004–January 2005) and across the Drake Passage (February–March 2016). Coccolithophore species specific PIC estimates were compared, based on 1) Scanning Electron Microscope cocolith morphometric analyses and 2) remote sensing PIC values acquired from NASA’s Ocean Color Web service. Considering that the SO is the cloudiest region on Earth (which limits the amount of satellite data available), in-situ and satellite-derived PIC datasets show very good agreement in both transects, particularly in the Subantarctic and Polar Front zones. Emiliania huxleyi morphogroup B substantially contributes to the sea-surface PIC content south of the Subantarctic Front in both transects, whereas E. huxleyi types A, A overcalcified, and other taxa (e.g. Calcidiscus leptoporus), only contribute to coccolithophore PIC in the northernmost stations. Of particular interest are strong peaks in satellite-derived PIC south of the Polar Front, which do not show up in the coccolithophore data. We suggest that the high reflectance signal from this southernmost region (which could have been initially attributed to coccolithophores) may be due to the prevalence of small opal particles or unknown highly ...

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