Abstract. Phosphorus is often invoked as the ultimate limiting nutrient,
modulating primary productivity on geological timescales. Consequently, along
with nitrogen, phosphorus bioavailability exerts a fundamental control on
organic carbon production, linking all the biogeochemical cycles across the
Earth system. Unlike nitrogen that can be microbially fixed from an
essentially infinite atmospheric reservoir, phosphorus availability is
dictated by the interplay between its sources and sinks. While authigenic
apatite formation has received considerable attention as the dominant
sedimentary phosphorus sink, the quantitative importance of reduced
iron-phosphate minerals, such as vivianite, has only recently been
acknowledged, and their importance remains underexplored. Combining
microscopic and spectroscopic analyses of handpicked mineral aggregates with
sediment geochemical profiles, we characterize the distribution and
mineralogy of iron-phosphate minerals present in methane-rich sediments
recovered from the northern South China Sea. Here, we demonstrate that
vivianite authigenesis is pervasive in the iron-oxide-rich sediments below
the sulfate–methane transition zone (SMTZ). We hypothesize that the downward
migration of the SMTZ concentrated vivianite formation below the current
SMTZ. Our observations support recent findings from non-steady-state
post-glacial sedimentary successions, suggesting that iron reduction below
the SMTZ, probably driven by iron-mediated anaerobic oxidation of methane
(Fe-AOM), is coupled to phosphorus cycling on a much greater spatial scale
than previously assumed. Calculations reveal that vivianite acts as an
important burial phase for both iron and phosphorus below the SMTZ,
sequestering approximately half of the total reactive iron pool. By
extension, sedimentary vivianite formation could serve as a mineralogical
marker of Fe-AOM, signalling low-sulfate availability against methanogenic
and ferruginous backdrop. Given that similar conditions were likely present
throughout vast swathes of Earth's history, it is possible that Fe-AOM and
vivianite authigenesis may have modulated methane and phosphorus availability
on the early Earth, as well as during later periods of expanded marine oxygen
deficiency. A better understanding of vivianite authigenesis, therefore, is
fundamental to test long-standing hypotheses linking climate, atmospheric
chemistry and the evolution of the biosphere.
Photo-thermal catalysis provides a promising strategy for the efficient conversion of carbon dioxide (CO2) into value-added chemicals under mild conditions. Here, we successfully encapsulate iridium (Ir) nanoparticles of ca.1.5 nm...
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