Wolfgang Koeve scite author profile

The marine nitrogen (N) inventory is thought to be stabilized by negative feedback mechanisms that reduce N inventory excursions relative to the more slowly overturning phosphorus inventory. Using a global biogeochemical ocean circulation model we show that negative feedbacks stabilizing the N inventory cannot persist if a close spatial association of N₂ fixation and denitrification occurs. In our idealized model experiments, nitrogen deficient waters, generated by denitrification, stimulate local N₂ fixation activity. But, because of stoichiometric constraints, the denitrification of newly fixed nitrogen leads to a net loss of N. This can enhance the N deficit, thereby triggering additional fixation in a vicious cycle, ultimately leading to a runaway N loss. To break this vicious cycle, and allow for stabilizing negative feedbacks to occur, inputs of new N need to be spatially decoupled from denitrification. Our idealized model experiments suggest that factors such as iron limitation or dissolved organic matter cycling can promote such decoupling and allow for negative feedbacks that stabilize the N inventory. Conversely, close spatial co-location of N₂ fixation and denitrification could lead to net N loss

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Trapping efficiencies of sediment traps from the deep Eastern North Atlantic:

Scholten¹,

Fietzke²,

Vogler

et al. 2001

Deep Sea Research Part II: Topical Studies in Oceanography

161

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Wolfgang Koeve

Future ocean acidification will be amplified by hypoxia in coastal habitats

Basin‐wide particulate carbon flux in the Atlantic Ocean: Regional export patterns and potential for atmospheric CO₂ sequestration

C:N ratios in the mixed layer during the productive season in the northeast Atlantic Ocean

Overlooked runaway feedback in the marine nitrogen cycle: the vicious cycle

Trapping efficiencies of sediment traps from the deep Eastern North Atlantic:

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About

Wolfgang Koeve

Future ocean acidification will be amplified by hypoxia in coastal habitats

Basin‐wide particulate carbon flux in the Atlantic Ocean: Regional export patterns and potential for atmospheric CO2 sequestration

C:N ratios in the mixed layer during the productive season in the northeast Atlantic Ocean

Overlooked runaway feedback in the marine nitrogen cycle: the vicious cycle

Trapping efficiencies of sediment traps from the deep Eastern North Atlantic:

Contact Info

Product

Resources

About

Basin‐wide particulate carbon flux in the Atlantic Ocean: Regional export patterns and potential for atmospheric CO₂ sequestration