Data Types
Oceanographers measuring bulk rates of carbon fixation and respiration as well as elemental composition, i.e. how much particulate carbon, nitrogen, or phosphorus is present in a given volume of water, provide foundational information about ocean biogeochemical cycles. These bulk measurements can be coupled with targeted methods to further assess rates of transformation[1]. More recently, new tools in analytical chemistry, molecular microbiology, and bioinformatics are enhancing our ability to integrate process-based mechanisms and biomass estimates of functional groups of interest into the study of ocean biogeochemistry[2].
In addition, advances in sequencing and mass spectrometry technologies over the last decades have accelerated the study of microbial communities. These high-throughput, data-rich approaches enable assessment of community taxonomic and functional composition, metabolic potential and diversity, and phylogeny and evolutionary history across the global oceans.
Laboratory-based
- ¹⁴Carbon uptake (NPP)
- ¹⁸O-labelled water (GOP)
- Winkler light-dark dissolved O₂ bottle
- Phytoplankton carbon biomass (Cphyto) x growth rate (µ)
- ¹³Carbon uptake
- Gross Primary Production (GPP) - triple oxygen
- Net community production (NCP)
In situ measurements
Global optics-based
Omics-based
- ↑ Naomi M. Levine, Harriet Alexander, Erin M. Bertrand, Victoria J. Coles, Stephanie Dutkiewicz, Suzana G. Leles and Emily J. Zakem. 2025. Microbial Ecology to Ocean Carbon Cycling: From Genomes to Numerical Models.Annual Review of Earth and Planetary Science, Vol. 53:595-624, https://doi.org/10.1146/annurev-earth-040523-020630
- ↑ Moran MA, Kujawinski EB, Stubbins A, Fatland R, Aluwihare LI, et al. 2016. Deciphering ocean carbon in a changing world. PNAS 113:(12):3143–51, https://doi.org/10.1073/pnas.1514645113