Identification and characteristics of a novel Burkholderia strain with broad-spectrum antimicrobial activity.

A Burkholderia strain isolated from soil is capable of inhibiting the growth of bacteria, plant-pathogenic fungi, pathogenic yeasts, and protozoa. Inhibition does not involve cell contact or the presence of living cells, suggesting that at least a substantial portion of the antimicrobial activity is due to the excretion of extracellular compounds.

Competitive ability and survival in soil of pseudomonas strain 679-2, a dominant, nonobligate bacterial predator of bacteria.

A copper-resistant, nonobligate, bacterial predator of bacteria was isolated from soil. It was a Pseudomonas species, designated strain 679-2. It attacked most other nonobligate bacterial predators and hence could control their predatory and other activities in nature.

Protozoan Response to the Addition of Bacterial Predators and Other Bacteria to Soil.

Representatives of several categories of bacteria were added to soil to determine which of them might elicit responses from the soil protozoa. The various categories were nonobligate bacterial predators of bacteria, prey bacteria for these predators, indigenous bacteria that are normally present in high numbers in soil, and non-native bacteria that often find their way in large numbers into soil. The soil was incubated and the responses of the indigenous protozoa were determined by most-probable-number estimations of total numbers of protozoa.

Response in Soil of Cupriavidus necator and Other Copper-Resistant Bacterial Predators of Bacteria to Addition of Water, Soluble Nutrients, Various Bacterial Species, or Bacillus thuringiensis Spores and Crystals.

Soil was incubated with various species of bacteria, Bacillus subtilis, or Bacillus thuringiensis spores and crystals. These were added to serve as potential prey for indigenous, copper-resistant, nonobligate bacterial predators of bacteria in the soil. Alternatively, the soil was incubated with soluble nutrients or water only to cause potential indigenous prey cells to multiply so the predator cells would multiply.