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Physical mixing in coastal waters controls and decouples nitrification via biomass dilution

Sebastian Haas, Brent M. Robicheau, Subhadeep Rakshit, Jennifer Tolman, Christopher K. Algar, Julie LaRoche, Douglas W.R. Wallace

2021Proceedings of the National Academy of Sciences53 citationsDOIOpen Access PDF

Abstract

Significance Changes in both quantity and speciation of nitrogen in coastal waters impact phytoplankton communities, contributing to eutrophication and harmful algal blooms. Multidisciplinary oceanographic time series of high resolution are rare but crucial for identifying complex mechanisms that underlie such anthropogenic impacts. Analysis and modeling of such a time series from a seasonally stratified fjord showed that dilution of nitrifier biomass by variable winter mixing altered the timing and rates of nitrification, which converts ammonia to nitrite and nitrate. This reveals a link among climate-sensitive physical dynamics, nitrifier abundance, and diversity, with controls on phytoplankton ecology. The findings imply that explicit measurement and modeling of microbial communities will be required to project impacts of climate change on coastal ecosystems.

Topics & Concepts

NitrificationBiogeochemical cycleWater columnEnvironmental scienceNitrogen cycleEnvironmental chemistryEutrophicationNitrospiraNitrateAnammoxEcologyNitriteDenitrificationChemistryNutrientDenitrifying bacteriaBiologyNitrogenOrganic chemistryWastewater Treatment and Nitrogen RemovalMicrobial Community Ecology and PhysiologyMarine and coastal ecosystems
Physical mixing in coastal waters controls and decouples nitrification via biomass dilution | Litcius