Effect of Relative Humidity on Sporulation of Fusarium oxysporum in Various Formulations and Effect of Water on Spore Movement Through Soil

Fusarium oxysporum f. sp. erythroxyli is being investigated as a mycoherbicide for the narcotic plant coca. Sporulation of the fungus in seven formulations containing different organic substrates and movement of its propagules through soil were studied. The formulations were a granular wheat flour/kaolin (pesta); an extruded wheat and rice flour (C-6); and five alginate pellet products containing corn cobs, soybean hull fiber, canola meal, rice flour, or rice flour plus canola oil. Formulations were incubated at 25°C for 6 weeks in desiccators with various salt solutions to provide nine relative humidities (RH), ranging from 100% (pure deionized water) to 0% (anhydrous (CaSO4). Hyphae of F. oxysporum f. sp. erythroxyli grew out of alginate pellets with canola meal, rice, and rice plus canola oil as early as 24 h at 100% constant RH. Alginate pellets of rice plus canola oil and granular C-6 and pesta formulations consistently produced more microconidia, macroconidia, and CFU than the other four formulations at all RH tested. The C-6 formulation produced more propagules than the other formulations at low RH (<53%). Canola meal pellets produced more spores than three other formulations when exposed to fluctuating RH (100 to 75%). The effect of percolating water on spore movement through soil was studied using a plant-pathogenic isolate of F. oxysporum f. sp. niveum. To determine the effect of water percolation on propagule movement, formulations were placed on soil columns and artificial rain was applied. In general, 10-fold fewer CFU were recovered at a 8- to 10-cm depth compared with a 0- to 2-cm depth.

Pruning Western White Pine in British Columbia to Reduce White Pine Blister Rust Losses: 10-Year Results

Survey lines were located in areas that had been pruned to control blister rust (Cronartium ribicola) 10 yr previously and adjacent control (unpruned) areas in 10 stands of western white pine. Stands were classified as densely stocked, moderately stocked, or open. Cankers were tallied and their position noted. The success of pruning varied from stand to stand. Since the stands had not been pruned at an early age, there was only a 4 and 5% reduction in threatening cankers and stem cankers respectively, as few new cankers were initiated. Stands with the greatest increase in cankering had Ribes spp., were open grown, or possessed a high component of small white pine. Repruning these specific stands may be worthwhile, but in general, entering stands again to do either pruning or scribing would produce few additional healthy trees. Doing both treatments, however, may significantly enhance the number of healthy stems. To optimize the benefits of pruning, stands should be entered early and pruning should continue until a sufficient number of stems are pruned to a height of 3 m to ensure full stocking. Other species may be impediments to spore movement within stands, and thus they should not be pruned. Dense stands initially had less rust than open stands and could be entered later, but once spaced, they also need to be pruned to 3 m to minimize rust infection. West. J. Appl. For: 13(2):60-63.