Wildung, R. E., Gorby, Y. A., Krupka, K. M., Hess, N. J., Li, S. W., Plymale, A. E., ...
To help provide a fundamental basis for use of microbial dissimilatory reduction processes in separating or immobilizing 99Tc in waste or groundwaters, the effects of electron donor and the presence...
Microbiological Degradation of Organic Components in Oil Shale Retort Water: Organic Acids
Rogers, J. E., Riley, R. G., Li, S. W., Mann, D. C., Wildung, R. E.
The losses of benzoic acid and a homologous series of both mono- and dibasic aliphatic acids in oil shale retort water were monitored with time (21 days) in liquid culture (4% retort water, vol/vol)...
Soil and plant factors influencing the accumulation of heavy metals by plants.
The use of plants to monitor heavy metal pollution in the terrestrial environment must be based on a cognizance of the complicated, integrated effects of pollutant source and soil-plant variables. To...
Wildung, R. E., Gorby, Y. A., Krupka, K. M., Hess, N. J., Li, S. W., Plymale, A. E., ...
To help provide a fundamental basis for use of microbial dissimilatory reduction processes in separating or immobilizing 99Tc in waste or groundwaters, the effects of electron donor and the presence...
Microbiological Degradation of Organic Components in Oil Shale Retort Water: Organic Acids
Rogers, J. E., Riley, R. G., Li, S. W., Mann, D. C., Wildung, R. E.
The losses of benzoic acid and a homologous series of both mono- and dibasic aliphatic acids in oil shale retort water were monitored with time (21 days) in liquid culture (4% retort water, vol/vol)...
Soil and plant factors influencing the accumulation of heavy metals by plants.
The use of plants to monitor heavy metal pollution in the terrestrial environment must be based on a cognizance of the complicated, integrated effects of pollutant source and soil-plant variables. To...