TY  - JOUR
A1  - Frischer, M E
A1  - Danforth, J M
A1  - Newton Healy, M A 
A1  - Saunders , F 
T1  - Whole-cell versus total RNA extraction for analysis of microbial community structure with 16S rRNA-targeted oligonucleotide probes in salt marsh sediments
Y1  - 2000//
N1  - R825513C025
JF  - APPLIED ENVIRONMENTAL MICROBIOLOGY
VL  - 66
IS  - 7
SP  - 3037
EP  - 3043
ER  - 


TY  - JOUR
A1  - King, J K
A1  - Kostka, J E
A1  - Frischer, M E
A1  - Saunders, F M
T1  - Sulfate-reducing bacteria methylate mercury at variable rates in pure culture and in marine sediments.
N1  - R825513C025
JF  - APPLIED AND ENVIRONMENTAL MICROBIOLOGY
J1  - APPL ENVIRON MICROB
VL  - 66
SP  - 2430
EP  - 2437
ER  - 


TY  - CONF
A1  - King,  
A1  - J.,  
A1  - Saunders,  
A1  - F.M.,  
A1  - Frischer,  
A1  - M.,  
A1  - Kostka,  
A1  - J.,  
T1  - Identification of Sulfate-reducing Phylogenetic groups most capable of methylating mercury in pure culture and organic-acid preconditioned sediment slurries.
N1  - R825513C025
ER  - 


TY  - CONF
A1  - Sauer,  
A1  - B.,  
A1  - Kostka,  
A1  - J.,  
A1  - Gentzler,  
A1  - S.,  
A1  - Cowden,  
A1  - L.,  
A1  - Frischer,  
A1  - M.,  
A1  - Saunders,  
A1  - F., M .
T1  - Constructed saltmarsh mesocosms in determining fate of methyl mercury in contaminated estuaries.
N1  - R825513C025
ER  -