Management of late blight of potato and tomato by antibiotics produced by streptomyces species
Abstract
This was a study undertaken to formulate antibiotics produced by Streptomyces sp. and test their efficacy
in control oflate blight disease of tomato and potato. It was also meant to establish mammalian toxicity
of these antibiotics. The study was carried out in the laboratory and in the greenhouse.
The isolates used were tentatively identified as Streptomyces sahachiroi ( isolate CS35) and Streptomyces
hygrostaticus or S. mitakaensis ( isolate 28P). They produced antibiotics on soybean media with 2%
glucose incubated for 7 days on a shaker at 120 Lp.m at room temperature. Isolates 28P and CS35
produced mean inhibitory zones of diameters 18.85 mm and 17.60 mm respectively on Pythium sp. after
48 hours of incubation by paper disc method oftesting antagonism.
Partial purification of antibiotic culture filtrates increased activity by 48.9% and 34.4% for 28P and CS35
respectively. Concentration of the antibiotics to 50% by removal of water caused an increase in activity
by 48% and 41% for the antibiotics from 28P and CS35 isolates respectively.
Filtrates concentrated through freeze-drying dissolved in propylene glycol with minimal sedimentation.
Solubility of the filtrates from 28P and CS35 in propylene glycol was Ig/6ml and l g/Sml respectively.
These formulated products were free flowing, easy to apply on the crop as a spray and still retained the
antibiotic activity.
Application of the formulated filtrates at 10,000ppm and 5000ppm was found to reduce the incidence and
severity of late blight of potato and tomato in the green house. The higher concentration gave better
effects though phytotoxicity seen as wilting from the leaf margins was also observed. Reduction of
disease incidence in tomato plants treated with formulated antibiotics of isolate 28P and CS35 at
5000ppm was 34% and 33% respectively. In potato, the reduction in blight incidence was 55% and 52%
by the two isolates respectively. Reduction in the incidence of late blight was comparable though not as
effective as Ridomil (metalaxyl), which gave a reduction of 69% and 58% in potato and tomato
respectively, and Milraz (cyanoacetamide) with a reduction of 60% and 52%. Both products are
acyalanines used in the market for control of the disease.
In mammalian toxicity studies, it was found that the LDso for culture filtrates from antibiotics of 28P and
CS35 were 3.94g and 3.27g/kg body weight of mice respectively, classified as slightly toxic according to
Loomis (1974) scale of practical classification of toxicities.
Citation
Master of Science in Agricultural Plant PathologyPublisher
University of Nairobi Department of plant science and crop protection