UC Santa Cruz

The seasonal and geographical dynamics of phytoplankton have important implications for primary production, carbon sequestration, and predicting future ocean change. The distribution of phytoplankton is influenced by their environmental needs and preferences and can be examined at various levels, from strain or species to size class or broad taxonomic grouping. The first two chapters of this thesis focus on phytoplankton distribution by taxonomic group as determined by 16S and 18S rRNA gene amplicon sequencing. In chapter one, a time-series study of the seasonally oligotrophic northwestern Sargasso Sea underscores the importance of prasinophytes, a polyphyletic group of green algae. Prasinophytes (mostly Class II Mamiellophyceae) comprised approximately half the eukaryotic phytoplankton amplicons during the time of year where deep mixing brings nutrients to the surface. At the end of the deep mixing, the mixed layer shoaled quickly, which could lead to carbon export when the algae were trapped at depth. The focus of the second chapter is expanded to include other phytoplankton groups in addition to prasinophytes. This chapter explores the eukaryotic phytoplankton communities of various tropical habitats, from the green-algae-dominated salt ponds to the mangroves, reefs, and offshore habitats where stramenopiles become more relatively abundant. The Stramenopile group dictyochophytes were examined at high taxonomic resolution previously not reported for this region, with much of that group found to be comprised of uncultured environmental clades. The third chapter moves from the field to the laboratory, measuring the cell quotas of cultured representatives of Mamiellophyceae under nutrient replete, limiting, and starved conditions. Together, these chapters seek to increase the knowledge of prasinophytes across geographic areas and environmental parameters.