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Temporal and spatial scales of correlation in marine phytoplankton communities

TitleTemporal and spatial scales of correlation in marine phytoplankton communities
Publication TypeJournal Article
Year of Publication2019
AuthorsKuhn A.M, Dutkicwicz S., Jahn O., Clayton S., Ryncarson T.A, Mazloff MR, Barton A.D
Date Published2019/12
Type of ArticleArticle; Early Access
ISBN Number2169-9275
Accession NumberWOS:000503600900001
Keywordscarbon; diversity; evolution; global; growth; north-atlantic; ocean color; oceanography; patterns; phytoplankton; phytoplankton correlation scales; phytoplankton dispersal; Phytoplankton diversity; phytoplankton traits; plankton model; surface temperature anomalies; time scales; variability
Abstract

Ocean circulation shapes marine phytoplankton communities by setting environmental conditions and dispersing organisms. In addition, processes acting on the water column (e.g., heat fluxes and mixing) affect the community structure by modulating environmental variables that determine in situ growth and loss rates. Understanding the scales over which phytoplankton communities vary in time and space is key to elucidate the relative contributions of local processes and ocean circulation on phytoplankton distributions. Using a global ocean ecosystem model, we quantify temporal and spatial correlation scales for phytoplankton phenotypes with diverse functional traits and cell sizes. Through this analysis, we address these questions: (1) Over what timescales do perturbations in phytoplankton populations persist? and (2) over what distances are variations in phytoplankton populations synchronous? We find that correlation timescales are short in regions of strong currents, such as the Gulf Stream and Antarctic Circumpolar Current. Conversely, in the subtropical gyres, phytoplankton population anomalies persist for relatively long periods. Spatial correlation length scales are elongated near ocean fronts and narrow boundary currents, reflecting flow paths and frontal patterns. In contrast, we find nearly isotropic spatial correlation fields where current speeds are small, or where mixing acts roughly equally in all directions. Phytoplankton timescales and length scales also vary coherently with phytoplankton body size. In addition to aiding understanding of phytoplankton population dynamics, our results provide global insights to guide the design of biological ocean observing networks and to better interpret data collected at long-term monitoring stations.

DOI10.1029/2019jc015331
Student Publication: 
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