Abstract
Abstract. The roles of iron and light in controlling biomass and primary productivity are clearly established in the Southern Ocean. However, their influence on net community production (NCP) and carbon export remains to be quantified. To improve our understanding of NCP and carbon export production in the Subantarctic Zone (SAZ) and the northern reaches of the Polar Frontal Zone (PFZ), we conducted continuous onboard determinations of NCP as part of the Sub-Antarctic Sensitivity to Environmental Change (SAZ-Sense) study, which occurred in January–February 2007. Biological O2 supersaturation was derived from measuring O2/Ar ratios by equilibrator inlet mass spectrometry. Based on these continuous measurements, NCP during the austral summer 2007 in the Australian SAZ was approximately 43 mmol O2 m−2 d−1. NCP showed significant spatial variability, with larger values near the Subtropical front, and a general southward decrease. For shallower mixed layers (<50 m), dissolved Fe concentrations and Fe sufficiency, estimated from variable fluorescence, correlated strongly with NCP. The strong correlation between NCP and dissolved Fe may be difficult to interpret because of the correlation of dissolved Fe to MLD and because the concentration of iron may not be a good indicator of its availability. At stations with deeper mixed layers, NCP was consistently low, regardless of iron sufficiency, consistent with light availability also being an important control of NCP. Our new observations provide independent evidence for the critical roles of iron and light in mediating carbon export from the Southern Ocean mixed layer.
Highlights
The Subantarctic Zone (SAZ) and Polar Frontal Zone (PFZ) represent important high-nutrient low chlorophyll (HNLC) regions of the world’s oceans
Macronutrient concentrations below the mixed layer were higher than surface waters, in the Subtropical Zone (STZ) and SAZ zones, non-limiting silicate concentrations occurred at depths >150 m which was well below the euphotic depth
We find a statistically significant correlation of volumetric net community production (NCP) with Fv/Fm when the mixed layer depth (MLD) is less than 50 m (r = 0.78, n = 8, p = 0.02), which is consistent with iron limitation of net community productivity (Fig. 3f)
Summary
The Subantarctic Zone (SAZ) and Polar Frontal Zone (PFZ) represent important high-nutrient low chlorophyll (HNLC) regions of the world’s oceans. Over glacial-interglacial timescales, changes in the degree of stratification and availability of iron and light putatively shaped productivity in these regions (Mitchell et al, 1991; Sigman and Boyle, 2000; Martinez-Garcia et al, 2009). N. Cassar et al.: The influence of iron and light on net community production in subantarctic waters influences the nutrient content of subantarctic mode water, which is believed to be a dominant source of nutrients to ocean ecosystems at low latitudes (Sarmiento et al, 2004). In order to improve our understanding of productivity and carbon biogeochemistry in the SAZ and PFZ, the SAZ-Sense (Sub-Antarctic Sensitivity to Environmental Change) study was conducted in January and February 2007 onboard the Australian icebreaker RSV Aurora Australis
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