Characterization of plant suspension cultures using the focused beam reflectance technique

Development of bioreactor systems utilizing plant suspension cultures has been hindered by the lack of on-line sensors for monitoring important process variables such as biomass concentration and aggregate size. An optical technique, the focused beam reflectance method (FBRM developed by Lasentec Inc., Redmond, WA), was used to characterize several plant suspension cultures: rice (Oryza sativa), tobacco (Nicotiana benthamiana) and wild Chinese cucumber (Trichosanthes kirilowii). These cultures differ in a number of respects such as individual cell size and morphology, aggregate shape and size distribution, initial culture density, and color. For plant suspensions comprised of relatively spherical aggregates (rice and cucumber), the area under the cube-weighted FBRM chord length distribution was linearly correlated to biomass concentration (R2>0.99) while the mean of the cube-weighted FBRM chord length distribution was nonlinearly related to aggregate size.