Nicolas Cassar scite author profile

Abstract. Interannual anomalies in the sea–air carbon dioxide (CO2) exchange have been estimated from surface-ocean CO2 partial pressure measurements. Available data are sufficient to constrain these anomalies in large parts of the tropical and North Pacific and in the North Atlantic, in some areas covering the period from the mid 1980s to 2011. Global interannual variability is estimated as about 0.31 Pg C yr−1 (temporal standard deviation 1993–2008). The tropical Pacific accounts for a large fraction of this global variability, closely tied to El Niño–Southern Oscillation (ENSO). Anomalies occur more than 6 months later in the east than in the west. The estimated amplitude and ENSO response are roughly consistent with independent information from atmospheric oxygen data. This both supports the variability estimated from surface-ocean carbon data and demonstrates the potential of the atmospheric oxygen signal to constrain ocean biogeochemical processes. The ocean variability estimated from surface-ocean carbon data can be used to improve land CO2 flux estimates from atmospheric inversions.

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The Southern Ocean Biological Response to Aeolian Iron Deposition

Cassar

Bender

Barnett

et al. 2007

Science

208

162

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Biogeochemical rate processes in the Southern Ocean have an important impact on the global environment. Here, we summarize an extensive set of published and new data that establishes the pattern of gross primary production and net community production over large areas of the Southern Ocean. We compare these rates with model estimates of dissolved iron that is added to surface waters by aerosols. This comparison shows that net community production, which is comparable to export production, is proportional to modeled input of soluble iron in aerosols. Our results strengthen the evidence that the addition of aerosol iron fertilizes export production in the Southern Ocean. The data also show that aerosol iron input particularly enhances gross primary production over the large area of the Southern Ocean downwind of dry continental areas.

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Nicolas Cassar

Interannual sea–air CO<sub>2</sub> flux variability from an observation-driven ocean mixed-layer scheme

The Southern Ocean Biological Response to Aeolian Iron Deposition

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Nicolas Cassar

Interannual sea–air CO&lt;sub&gt;2&lt;/sub&gt; flux variability from an observation-driven ocean mixed-layer scheme

The Southern Ocean Biological Response to Aeolian Iron Deposition

Contact Info

Product

Resources

About

Interannual sea–air CO<sub>2</sub> flux variability from an observation-driven ocean mixed-layer scheme