Jr. Burns et Dm. Benson, Biocontrol of damping-off of Catharanthus roseus caused by Pythium ultimumwith Trichoderma virens and binucleate Rhizoctonia fungi, PLANT DIS, 84(6), 2000, pp. 644-648
Four isolates of Trichoderma (Gliocladium) virens (G-45, G-65, G-85, and G-
93) and two isolates of binucleate Rhizoctonia spp. (BNR621 and P9023) were
evaluated for biocontrol of preemergence damping-off of Catharanthus roseu
s (vinca) caused by Pythium ultimum. Putative biocontrol agents were amende
d to a soilless mix 1, 3, or 6 days prior to seeding and pathogen infestati
on to determine if colonization of the mix before infestation was important
for biocontrol efficacy. Biocontrol of preemergence damping-off of vinca w
ith the four isolates of T. virens was variable. Only isolate G-93 gave con
trol of preemergence damping-off (10 to 18% disease) regardless of the leng
th of time the mix was amended prior to seeding and infestation compared to
the infested control (43% disease). In contrast, preemergence damping-off
war, 10 to 15% with SoilGard (based on isolate GL-21 of T. virens). For iso
late G-65, preemergence damping-off of vinca was 0% in lots of mix amended
1 day prior to seeding, but over 60% in lots of mix amended 6 days prior to
seeding, compared to 43% in the infested control. With the exception of is
olate G-65 in the lot amended 6 days before seeding, the isolates of T. vir
ens were as effective as metalaxyl (19% damping-off) for control of P. ulti
mum in lots of mix amended 1 to 6 days before seeding. In contrast to T. vi
rens, biocontrol efficacy of isolates BNR621 and P9023 of binucleate Rhizoc
tonia spp. in a Pesta formulation improved as lots of mix were amended up t
o 6 days before seeding and infestation. As length of initial amendment inc
reased from 1 to 6 days, preemergence damping-off decreased from 37 to 16%
for BNR621, and from 42 to 22% for P9023. Preemergence damping-off was obse
rved in vinca in control treatments with only the putative biocontrol agent
s (BNR621, 14% disease and P9023, 19.6%); therefore, additional bedding pla
nt species were evaluated for susceptibility to the BNR isolates. In the ab
sence of P. ultimum, isolates BNR621 and P9023 in a Pesta formulation cause
d an average 82.5, 56.5, and 5.8% damping-off of snapdragon, petunia, and i
mpatiens, respectively. Our results suggest that binucleate Rhizoctonia iso
lates, although effective for biocontrol of P. ultimum on vinca, should be
evaluated for pathogenicity on a crop by crop basis before use on other cro
ps.