Litcius/Paper detail

Single cell dynamics and nitrogen transformations in the chain forming diatom Chaetoceros affinis

Rickard Stenow, Elizabeth K. Robertson, Martin J. Whitehouse, Helle Ploug

2023The ISME Journal11 citationsDOIOpen Access PDF

Abstract

Abstract Colony formation in phytoplankton is often considered a disadvantage during nutrient limitation in aquatic systems. Using stable isotopic tracers combined with secondary ion mass spectrometry (SIMS), we unravel cell-specific activities of a chain-forming diatom and interactions with attached bacteria. The uptake of 13C-bicarbonate and15N-nitrate or 15N-ammonium was studied in Chaetoceros affinis during the stationary growth phase. Low cell-to-cell variance of 13C-bicarbonate and 15N-nitrate assimilation within diatom chains prevailed during the early stationary phase. Up to 5% of freshly assimilated 13C and 15N was detected in attached bacteria within 12 h and supported bacterial C- and N-growth rates up to 0.026 h−1. During the mid-stationary phase, diatom chain-length decreased and 13C and 15N-nitrate assimilation was significantly higher in solitary cells as compared to that in chain cells. During the late stationary phase, nitrate assimilation ceased and ammonium assimilation balanced C fixation. At this stage, we observed highly active cells neighboring inactive cells within the same chain. In N-limited regimes, bacterial remineralization of N and the short diffusion distance between neighbors in chains may support surviving cells. This combination of “microbial gardening” and nutrient transfer within diatom chains represents a strategy which challenges current paradigms of nutrient fluxes in plankton communities.

Topics & Concepts

DiatomBiologyNitrateAmmoniumChaetocerosPlanktonPhytoplanktonNitrogen assimilationNutrientAssimilation (phonology)BotanyAlgaeBicarbonateMesocosmEnvironmental chemistryEcologyChemistryPhilosophyEndocrinologyOrganic chemistryLinguisticsMarine and coastal ecosystemsDiatoms and Algae ResearchMicrobial Community Ecology and Physiology