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Natural organobromine in marine sediments: New evidence of biogeochemical Br cycling
Author(s) -
Leri Alessandra C.,
Hakala J. Alexandra,
Marcus Matthew A.,
Lanzirotti Antonio,
Reddy Christopher M.,
Myneni Satish C. B.
Publication year - 2010
Publication title -
global biogeochemical cycles
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.512
H-Index - 187
eISSN - 1944-9224
pISSN - 0886-6236
DOI - 10.1029/2010gb003794
Subject(s) - biogeochemical cycle , cycling , oceanography , natural (archaeology) , environmental science , environmental chemistry , biogeochemistry , sediment , carbon cycle , geochemical cycle , geology , earth science , ecosystem , ecology , chemistry , geomorphology , geography , paleontology , biology , archaeology
Organobromine (Br org ) compounds, commonly recognized as persistent, toxic anthropogenic pollutants, are also produced naturally in terrestrial and marine systems. Several enzymatic and abiotic bromination mechanisms have been identified, as well as an array of natural Br org molecules associated with various marine organisms. The fate of the carbon‐bromine functionality in the marine environment, however, remains largely unexplored. Oceanographic studies have noted an association between bromine (Br) and organic carbon (C org ) in marine sediments. Even so, there has been no direct chemical evidence that Br in the sediments exists in a stable form apart from inorganic bromide (Br inorg ), which is widely presumed conservative in marine systems. To investigate the scope of natural Br org production and its fate in the environment, we probed Br distribution and speciation in estuarine and marine sediments using in situ X‐ray spectroscopy and spectromicroscopy. We show that Br org is ubiquitous throughout diverse sedimentary environments, occurring in correlation with C org and metals such as Fe, Ca, and Zn. Analysis of sinking particulate carbon from the seawater column links the Br org observed in sediments to biologically produced Br org compounds that persist through humification of natural organic matter (NOM). Br speciation varies with sediment depth, revealing biogeochemical cycling of Br between organic and inorganic forms as part of the burial and degradation of NOM. These findings illuminate the chemistry behind the association of Br with C org in marine sediments and cast doubt on the paradigmatic classification of Br as a conservative element in seawater systems.