Sources of molecularly uncharacterized organic carbon in sinking particles from three ocean basins: A coupled Δ14C and δ13C approach

Several recent studies have suggested dramatically different ideas about the source and nature of molecularly uncharacterized organic carbon (MUC) in sinking marine particles (POC). Carbon isotope data coupled with hydrolysis has indicated MUC is lipid-like material, suggesting selective preservation [Hwang, J. and Druffel, E.R.M., 2003. Lipid-like material as the source of the uncharacterized organic carbon in the ocean? Science, 299: 881-884.]. In contrast, NMR-based work has strongly indicated non-selective degradation, with amino acid dominating resistant material [Hedges, J.l. et al., 2001. Evidence for non-selective preservation of organic matter in sinking marine particles. Nature. 409: 801-804.]. This study set out to explore this seeming paradox, and to examine the hypothesis that the nature of MUC may vary strongly between margin and open ocean regions. We examined the coupled elemental, stable and radiocarbon isotopic compositions of three fractions of sinking POC: lipids, acid soluble (AS) material (a proxy for hydrolyzable biomolecules). and acid insoluble (Al) material (a proxy for the MUC). Delta C-14 and delta C-13 measurements were made on three time-series of sediment trap samples in widely separate ocean regions: Santa Barbara Basin, Cariaco Basin, and an oceanic site in the Eastern Subtropical Atlantic off Dakar, Africa. Delta C-14 compositions of Al fractions at all sites indicated substantial contribution by pre-aged marine carbon sources (40-60% of total sinking POC), not derived from direct export of surface productivity. Comparison of delta C-13 and Delta C-14 values with coexisting lipid and AS signatures also suggested widely different Al compositions from different ocean environments. Al material in coastal California waters consistently appeared lipid-like, in agreement with several studies near the same region [Hwang, J. and Druffel, E.R.M., 2003. Lipid-like material as the source of the uncharacterized organic carbon in the ocean? Science, 299: 881-884.: Hwang, J., Druffel, E. R.M., Eglinton, T.I. and Repeta. DJ., 2006b. Source(s) and cycling of the nonhydrolyzable organic fraction of oceanic particles. Geochimica et Cosmochimica Acta, 70: 5162-5168.]. In contrast, our oceanic site's Al isotopic signatures were more consistent with non-selective preservation of a range of biochemical classes. Al compositions in Cariaco Basin proved to be variable with time, suggesting a complex and variable mixture of Al sources. These results suggest a major divergence between coastal and oceanic Al sources and composition. Taken together, we propose that the dominant mechanism influencing molecularly uncharacterized material is non-selective preservation during initial water column transit; influenced to varying degrees by subsequent addition of allochthonous and C-14-depleted organic carbon sources. In our coastal margin sites, all Al properties point to resuspended sediment as the most likely source of total uncharacterizable POC. In our more oceanic site, where particles have much longer transit times, incorporation of old DOC into POC, in addition to resuspended sediment. may have a substantial influence on overall Delta C-14 ages. We propose that major differences between Al compositions in different locations is tied to variation in availability of such pre-aged OC sources, linked to regional oceanographic conditions and strongly influenced by proximity to continental shelves. The strong correlations we observe between %Al vs. %AS composition and elemental and isotopic values also implies that substantial amounts of POC collected via sediment traps in some locations is not exported directly from surface production, but added from other pre-aged reservoirs. (c) 2008 Elsevier B.V. All rights reserved.