Abstract
Phaeocystis globosa forms dense, monospecific blooms in temperate, northern waters. Blooms are usually dominated by the colonial morphotype—nonflagellated cells embedded in a secreted mucilaginous mass. Colonial Phaeocystis blooms significantly affect food‐web structure and function and negatively impact fisheries and aquaculture, but factors regulating colony formation remain enigmatic. Destructive P. globosa blooms have been reported in tropical and subtropical regions more recently and warm‐water blooms could become more common with continued climate change and coastal eutrophication. We therefore assessed genetic pathways associated with colony formation by investigating differential gene expression between colonial and solitary cells of a warm‐water P. globosa strain. Our results illustrate a transcriptional shift in colonial cells with most of the differentially expressed genes downregulated, supporting a reallocation of resources associated with forming and maintaining colonies. Dimethylsulfide and acrylate production and pathogen interaction pathways were upregulated in colonial cells, suggesting a defensive role for producing colonies. We identify several protein kinase signaling pathways that may influence the transition between morphotypes, providing targets for future research into factors affecting colony formation. This study provides novel insights into genetic mechanisms involved in Phaeocystis colony formation and provides new evidence supporting a defensive role for Phaeocystis colonies.
Highlights
Phaeocystis globosa forms dense, monospecific blooms in temperate, northern waters
This study investigated gene expression associated with colony formation in Phaeocystis globosa for the first time and discovered a large transcriptional shift associated with colony production
Future studies may extend this work by investigating P. globosa gene expression in colonial and solitary cells in a time course study through the waxing and waning of a bloom and under different nutrient and grazing regimes, potentially using mesocosms or metatranscriptomic methods in natural communities
Summary
Phaeocystis globosa forms dense, monospecific blooms in temperate, northern waters. Blooms are usually dominated by the colonial morphotype—nonflagellated cells embedded in a secreted mucilaginous mass. Myriad factors have been studied with regard to their roles in influencing colony formation in Phaeocystis species, including nutrient and light availability (Bender et al 2018; Cariou et al 1994; Wang et al 2011), temperature (Verity and Medlin 2003), mechanical stress (Cariou et al 1994), grazing cues (Long et al 2007; Tang 2003; Wang et al 2015), and viral infection (Brussaard et al 2005, 2007). These studies used different Phaeocystis species, strains, and morphotypes with a range of experimental conditions, which yielded variable and sometimes contradictory results. Colony formation can defend against pathogens and grazers, but it is costly (Wang et al 2015), suggesting that colony formation is likely a complex response to interacting biotic and abiotic factors (Long et al 2007)
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