Litcius/Paper detail

Latitudinal gradient in the respiration quotient and the implications for ocean oxygen availability

Allison R. Moreno, Catherine A. Garcia, Alyse A. Larkin, Jenna A. Lee, Wei‐Lei Wang, J. Keith Moore, François Primeau, Adam C. Martiny

2020Proceedings of the National Academy of Sciences39 citationsDOIOpen Access PDF

Abstract

Climate-driven depletion of ocean oxygen strongly impacts the global cycles of carbon and nutrients as well as the survival of many animal species. One of the main uncertainties in predicting changes to marine oxygen levels is the regulation of the biological respiration demand associated with the biological pump. Derived from the Redfield ratio, the molar ratio of oxygen to organic carbon consumed during respiration (i.e., the respiration quotient, [Formula: see text]) is consistently assumed constant but rarely, if ever, measured. Using a prognostic Earth system model, we show that a 0.1 increase in the respiration quotient from 1.0 leads to a 2.3% decline in global oxygen, a large expansion of low-oxygen zones, additional water column denitrification of 38 Tg N/y, and the loss of fixed nitrogen and carbon production in the ocean. We then present direct chemical measurements of [Formula: see text] using a Pacific Ocean meridional transect crossing all major surface biome types. The observed [Formula: see text] has a positive correlation with temperature, and regional mean values differ significantly from Redfield proportions. Finally, an independent global inverse model analysis constrained with nutrients, oxygen, and carbon concentrations supports a positive temperature dependence of [Formula: see text] in exported organic matter. We provide evidence against the common assumption of a static biological link between the respiration of organic carbon and the consumption of oxygen. Furthermore, the model simulations suggest that a changing respiration quotient will impact multiple biogeochemical cycles and that future warming can lead to more intense deoxygenation than previously anticipated.

Topics & Concepts

OxygenBiomeRespirationGlobal warmingQuotientEnvironmental scienceCarbon fibersRespiratory quotientCarbon cycleAtmospheric sciencesHabitatEffects of global warming on oceansEcologyClimate changeOceanographyEcosystemBiologyChemistryGeologyMathematicsBotanyAlgorithmBiochemistryOrganic chemistryComposite numberPure mathematicsMarine and coastal ecosystemsOcean Acidification Effects and ResponsesIsotope Analysis in Ecology