AUTHOR=Monteverde Danielle R. , Gómez-Consarnau Laura , Cutter Lynda , Chong Lauren , Berelson William , Sañudo-Wilhelmy Sergio A. 

TITLE=Vitamin B1 in marine sediments: pore water concentration gradient drives benthic flux with potential biological implications

JOURNAL=Frontiers in Microbiology

VOLUME=6

YEAR=2015

URL=https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2015.00434

DOI=10.3389/fmicb.2015.00434

ISSN=1664-302X

ABSTRACT=<p>Vitamin B<sub>1</sub>, or thiamin, can limit primary productivity in marine environments, however the major marine environmental sources of this essential coenzyme remain largely unknown. Vitamin B<sub>1</sub> can only be produced by organisms that possess its complete synthesis pathway, while other organisms meet their cellular B<sub>1</sub> quota by scavenging the coenzyme from exogenous sources. Due to high bacterial cell density and diversity, marine sediments could represent some of the highest concentrations of putative B<sub>1</sub> producers, yet these environments have received little attention as a possible source of B<sub>1</sub> to the overlying water column. Here we report the first dissolved pore water profiles of B<sub>1</sub> measured in cores collected in two consecutive years from Santa Monica Basin, CA. Vitamin B<sub>1</sub> concentrations were fairly consistent between the two years ranging from 30 pM up to 770 pM. A consistent maximum at ~5 cm sediment depth covaried with dissolved concentrations of iron. Pore water concentrations were higher than water column levels and represented some of the highest known environmental concentrations of B<sub>1</sub> measured to date, (over two times higher than maximum water column concentrations) suggesting increased rates of cellular production and release within the sediments. A one dimensional diffusion-transport model applied to the B<sub>1</sub> profile was used to estimate a diffusive benthic flux of ~0.7 nmol m<sup>−2</sup> d<sup>−1</sup>. This is an estimated flux across the sediment-water interface in a deep sea basin; if similar magnitude B-vitamin fluxes occur in shallow coastal waters, benthic input could prove to be a significant B<sub>1</sub>-source to the water column and may play an important role in supplying this organic growth factor to auxotrophic primary producers.</p>