Abstract
Extensive studies in the 1980s-1990s led to the characterization of latitudinal variations in sea surface δ13C values of particulate organic carbon (δ13CPOC), and relationships were found with CO2 concentrations, temperature, growth rates, and cell geometries. Surprisingly, no large-scale efforts have been made to describe variations in δ13CPOC values over depth in the water column. Here we compile published examples demonstrating a widespread isotopic pattern in particulate organic carbon of the upper water column. In 51 vertical profiles, δ13CPOC values in the lower euphotic zone on average are 1.4‰ lower than δ13CPOC values in the upper euphotic zone of open ocean settings. In a majority of locations this downward decrease in δ13CPOC values is > 2‰ and up to 5‰, larger than the commonly recognized vertical δ13C variation in dissolved inorganic carbon over the same depths. We briefly review hypotheses and supporting evidence offered by previous studies of individual water columns: The observed patterns could result from vertical differences in photosynthetic growth rates or community composition, biochemical composition of organic matter due to degradation, isotopic disequilibrium within the dissolved inorganic carbon pool, particle dynamics, or seasonal vertical mixing. Coordinated isotopic, biological, and seawater chemistry data are sparse, and consistent drivers of this widespread isotopic pattern are currently elusive. Further work is needed to adequately characterize the environmental conditions coinciding with this pattern, to test its origins, and to determine if the magnitude of upper water column δ13CPOC variations could be a useful marker of upper ocean carbon cycle dynamics.
Highlights
Particulate organic carbon (POC) is the major carrier of carbon from the surface to the deep ocean; quantifying particulate organic carbon (POC) and understanding its origins and degradation are important priorities
We examined the overall magnitude of variation in δ13C values of particulate organic carbon (δ13CPOC) values found within individual water columns, i.e., the upper water column max-min range in δ13CPOC values ( δ13CPOC maxmin)
While our compilation of published data here is likely not exhaustive, it is to our knowledge the first global examination of vertical profiles of δ13CPOC in the upper water column
Summary
Particulate organic carbon (POC) is the major carrier of carbon from the surface to the deep ocean (the biological pump); quantifying POC and understanding its origins and degradation are important priorities. Hypothesized mechanisms for creating vertical δ13CPOC patterns include both photosynthetic and degradative processes In this short review we compile data from published studies reporting δ13CPOC values in the upper 250 m of open-ocean water columns in order to explore whether global patterns or environmental drivers can be detected, briefly review existing hypotheses for the observed vertical patterns, and make suggestions for future work. We compiled suspended δ13CPOC data from 11 published studies representative of the global open ocean and containing 51 vertical profiles of δ13CPOC extending from near-surface waters to depths of 250 m. (B,C) Normalized δ13CPOC values among all compiled data: medians (center vertical lines), interquartile range (boxes), 99% intervals (brackets), and outliers (individual points); (B) when grouped by standardized euphotic zone depth intervals (100% Ez, depth at which irradiance is 0.1% of surface values); (C) when grouped by local mixed layer depth (MLD) and maximum annual mixed layer depth (MLDmax).
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