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Unsolved mysteries in marine nitrogen fixation

Jonathan P. Zehr, Douglas G. Capone

2023Trends in Microbiology17 citationsDOIOpen Access PDF

Abstract

Biological nitrogen (N 2 ) fixation is critical in global biogeochemical cycles and in sustaining the productivity of the oceans. There remain many unanswered questions, unresolved hypotheses, and unchallenged paradigms. The fundamental balance of N input and losses has not been fully resolved. One of the major N 2 -fixers, Trichodesmium , remains an enigma with intriguing biological and ecological secrets. Cyanobacterial N 2 fixation, once thought to be primarily due to free-living cyanobacteria, now also appears to be dependent on microbial interactions, from microbiomes to unicellular symbioses, which remain poorly characterized. Nitrogenase genes associated with diverse non-cyanobacterial diazotrophs (NCDs) are prevalent, but their significance remains a huge knowledge gap. Answering questions, new and old, such as those discussed here, is needed to understand the ocean's N and C cycles and their responses to environmental change.

Topics & Concepts

DiazotrophBiologyTrichodesmiumNitrogen fixationNitrogenaseCyanobacteriaBiogeochemical cycleEcologySymbiosisHolobiontBacteriaPaleontologyMarine and coastal ecosystemsWastewater Treatment and Nitrogen RemovalMicrobial Community Ecology and Physiology
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