1. Bull. Spec. CORESTA Congress, Brighton, 1998, p. 133, P19

    Monitoring of whole microbial communities using fatty acid methyl ester (FAME) analysis

    ONG K. L.; FORTNUM B.A.; KLUEPFEL D.A.
    Clemson University, Dept. of Plant Pathology and Physiology, Pee Dee REC, Florence, SC, USA.
    Fatty Acid Methyl Ester (FAME) analysis was evaluated as a tool to rapidly monitor the rhizosphere microbial community of three plant species (tobacco, corn and soybean) grown in soil with a resident population of Ralstonia solanacearum. Fatty acids were ...
  2. Bull. Spec. CORESTA Congress, Brighton, 1998, p. 180, ST03

    Time fast evolved gas analysis/FTIR method: an experimental study of cellulose pyrolysis

    LI S.; LYONS-HART J.; BANYASZ J.; SHAFER K.
    Philip Morris USA, Research Center, Richmond, VA, USA
    A real time fast evolved gas analysis/Fourier Transform infrared (FAST EGA/FTIR) method was developed and applied to study the gas phase component evolution of cellulose pyrolysis. Experiments were conducted under different pyrolytic conditions. Efforts ...
  3. Bull. Spec. CORESTA Congress, Brighton, 1998, p. 193, STPOST3

    Phosphine abatement at Philip Morris

    PAINE J.B. III; APPLE W.B.; BERKENPAS K.J.; BRIDGES C.T.; EDWARDS W.B. III; HOWE C.R.; KOVAL G.A.; PODRAZA K.F.
    Philip Morris USA, Research Center, Richmond, VA, USA
    Philip Morris has developed and implemented abatement technology to control residual phosphine gas after the fumigation of tobacco warehouses. In parallel with this, we investigated the use of electrochemical cell sensor monitors, to replace the more ...