%0 Figure %A Newsome, Laura %A Morris, Katherine %A R. Lloyd, Jonathan. %D 2015 %T Uranium-phosphate biomineralisation experiment: TEM images (a, b, c), k3 weighted EXAFS data (d), non-phase shift corrected Fourier transform of EXAFS data (e) and XRD spectra (f). %U https://plos.figshare.com/articles/figure/_Uranium_phosphate_biomineralisation_experiment_TEM_images_a_b_c_k_3_weighted_EXAFS_data_d_non_phase_shift_corrected_Fourier_transform_of_EXAFS_data_e_and_XRD_spectra_f_/1470197 %R 10.1371/journal.pone.0132392.g002 %2 https://ndownloader.figshare.com/files/2157818 %K Anaerobic Conditions %K Serratia strain %K uranium biominerals %K autunite group %K Shewanella species %K 0.5 mM %K phosphatase activity %K uranium Biominerals Precipitated %K glycerol phosphate %K reductive precipitation %K electron donor %K uranium removal %K Environmental Isolate %K uk %K 1 mm %K uranium biomineralisation experiments %K fermentative conditions %K groundwater contamination %K uranyl phosphate minerals %K uranium contamination %K sediment sample representative %K uranyl phosphates %X

Dashed lines in XAS spectra represent the best fit of the data. * are peaks from uranyl phosphates (S6 Fig shows the peak pattern). Experiments were conducted in an anaerobic freshwater minimal medium with glycerol phosphate as the electron donor and both fumarate and U(VI) as electron acceptors. Results confirmed the precipitate to be a uranyl phosphate biomineral of the autunite group.

%I PLOS ONE