Biological production in the Bellingshausen Sea from oxygen-to-argon ratios and oxygen triple isotopes

Castro-Morales, K.; Cassar, N.; Shoosmith, D. R.; Kaiser, J.

We present estimates of mixed-layer net community oxygen production ( N) and gross oxygen production ( G) of the Bellingshausen Sea in March and April 2007. N was derived from oxygen-to-argon (O 2/Ar) ratios; G was derived using the dual-delta method from triple oxygen isotope measurements. In addition, O 2 profiles were collected at 253 CTD stations. N is often approximated by the biological oxygen air–sea exchange flux ( Fbio based on the O 2/Ar supersaturation, assuming that significant horizontal or vertical fluxes are absent. Here we show that the effect of vertical fluxes alone can account for Fbio values < 0 in large parts of the Bellingshausen Sea towards the end of the productive season, which could otherwise be mistaken to represent net heterotrophy. Thus, improved estimates of mixed-layer N can be derived from the sum of Fbio, Fe (entrainment from the upper thermocline during mixed-layer deepening) and Fv (diapycnal eddy diffusion across the base of the mixed layer). In the winter sea ice zone (WSIZ), the corresponding correction results in a small change of Fbio = (30 ± 17) mmol m −2 d −1 to N = (34 ± 17) mmol m −2 d −1. However, in the permanent open ocean zone (POOZ), the original Fbio value of (−17 ± 10) mmol m −2 d −1 gives a corrected value for N of (−2 ± 18) mmol m −2 d −1. We hypothesize that in the WSIZ, enhanced water column stability due to the release of freshwater and nutrients from sea ice melt may account for the higher N value. These results stress the importance of accounting for physical biases when estimating mixed-layer marine productivity from in situ O 2/Ar ratios.



Castro-Morales, K. / Cassar, N. / Shoosmith, D. R. / et al: Biological production in the Bellingshausen Sea from oxygen-to-argon ratios and oxygen triple isotopes. 2013. Copernicus Publications.


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