Scientific Data (Aug 2024)

CASCADE: Dataset of extant coccolithophore size, carbon content and global distribution

  • Joost de Vries,
  • Alex J. Poulton,
  • Jeremy R. Young,
  • Fanny M. Monteiro,
  • Rosie M. Sheward,
  • Roberta Johnson,
  • Kyoko Hagino,
  • Patrizia Ziveri,
  • Levi J. Wolf

DOI
https://doi.org/10.1038/s41597-024-03724-z
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 17

Abstract

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Abstract Coccolithophores are marine calcifying phytoplankton important to the carbon cycle and a model organism for studying diversity. Here, we present CASCADE (Coccolithophore Abundance, Size, Carbon And Distribution Estimates), a new global dataset for 139 extant coccolithophore taxonomic units. CASCADE includes a trait database (size and cellular organic and inorganic carbon contents) and taxonomic-unit-specific global spatiotemporal distributions (Latitude/Longitude/Depth/Month/Year) of coccolithophore abundance and organic and inorganic carbon stocks. CASCADE covers all ocean basins over the upper 275 meters, spans the years 1964-2019 and includes 33,119 gridded taxonomic-unit-specific abundance observations. Within CASCADE, we characterise the underlying uncertainties due to measurement errors by propagating error estimates between the different studies. This error propagation pipeline is statistically robust and could be applied to other plankton groups. CASCADE can contribute to (observational or modelling) studies that focus on coccolithophore distribution and diversity and the impacts of anthropogenic pressures on historical populations. Additionally, our new taxonomic-unit-specific cellular carbon content estimates provide essential conversions to quantify the role of coccolithophores on ecosystem functioning and global biogeochemistry.