Soybean sudden death syndrome (SDS), caused by Fusarium solani f. sp. glyci
nes, is a problem in some soybean-growing areas in the United States. Resis
tance is an important control strategy. In this study, root colonization of
six soybean cultivars by E solani f. sp. glycines was determined. Cultivar
s included susceptible P3981, CM497, and Spencer and field resistant LS90-1
920, Pharaoh, and Ripley. All cultivars were tested in field experiments at
different locations in southern Illinois in 1997 and 1998. Roots were coll
ected at six sampling times and were dried and ground to isolate and enumer
ate the pathogen on a selective medium. SDS foliar disease index (FDX), the
area under the F. solani f. sp, glycines population curve (AUPC), the inci
dence of colonized roots at 45 days after planting (RCI45), and the root co
lonization rate (RCR) were used to compare cultivars. FDX on the three resi
stant cultivars was significantly lower than on the three susceptible culti
vars. Means of AUPC on the three resistant cultivars were significantly low
er than those on the susceptible CM497 and P3981. RCI45 of Pharaoh was sign
ificantly lower than those of P3981 and Spencer. RCRs of all three resistan
t cultivars were significantly lower than that of P3981, and RCR of Ripley
was also significantly lower than that of CM497. Based on combination of al
l cultivars, AUPC was significantly correlated with RCI45 and RCR.