S. Vogelgsang et al., Effect of soil incorporation and dose on control of field bindweed (Convolvulus arvensis) with the preemergence bioherbicide Phomopsis convolvulus, WEED SCI, 46(6), 1998, pp. 690-697
The preemergence efficacy of soil surface applications of a Phomopsis convo
lvulus granular formulation to control field bindweed seedlings was compare
d with its efficacy when inoculum granules were incorporated in soil. In ad
dition, the effect of different doses of soil-applied granules was also det
ermined. Under controlled environment conditions, incorporation of the fung
al granules resulted in aboveground biomass reductions between 88 and 96%,
with no significant differences observed between incorporation depths of 1.
5 and 3 cm. Granule applications on the soil surface were less effective, r
educing aboveground biomass 40 to 83%. In a parallel field experiment condu
cted over two growing seasons, however, surface applications of inoculum gr
anules resulted in greater weed control compared with soil incorporation of
the granules. In spring and summer trials conducted in 1996, surface appli
cations resulted in a 93 and 100% aboveground biomass reduction, respective
ly, whereas incorporated granules reduced biomass 62 and 97%. Similar trend
s were observed in 1997. Different soil-applied doses of P. convolvulus did
not affect the level of weed control under both controlled environment and
field conditions. In 1995 and 1996 field trials, all rates used (30, 20, a
nd 10 g 0.25m(-2) plot) resulted in substantial (30 to 100%) field bindweed
aboveground biomass reductions. Findings in this study indicate that under
field conditions, preemergence applications of the bioherbicide P. convolv
ulus on the soil surface provide effective control of field bindweed.