Sclerotinia stem rot [caused by Sclerotinia sclerotiorum (Lib,) de Bary] is
considered the second most important cause of yield loss in soybean [Glyci
ne mar (L,) Merr], Soybean cultivars show variability in susceptibility, bu
t no complete resistance to the disease has been reported and little inform
ation on the genetics of resistance is available, The objective of this stu
dy was to identify putative quantitative trait loci (QTLs) associated with
Sclerotinia stem rot resistance in soybean. Recombinant inbred lines (RILs)
from five populations were developed by crossing Williams 82, a susceptibl
e cultivar, with five cultivars exhibiting partial resistance: Corsoy 79, D
assel, DSR173, S19-90, and Vinton 81, The F-2 to F-5 generations were advan
ced by single seed descent. Parental polymorphism was tested with 507 simpl
e sequence repeat (SSR) primers from the integrated linkage map of soybean,
and primers were selected for progeny screening in the five populations on
the basis of polymorphism and distribution in the genome. Five hundred RIL
s, consisting of 100 F-5t6 lines from each population, were evaluated for r
esistance to Sclerotinia sclerotiorum isolate 143 by a detached leaf method
in the laboratory to measure lesion area on leaves inoculated with myceliu
m plugs, Single degree-of-freedom contrasts in PROC MIXED and interval anal
ysis were used to detect putative QTLs, Twenty-eight putative QTLs for resi
stance to Sclerotinia stem rot of soybeans were identified on 15 different
linkage groups in five RIL populations by single degree-of-freedom contrast
s. Alleles involved in reduction of lesion size came from both the resistan
t and susceptible parents, and transgressive segregates were identified in
two populations. The amount of phenotypic variation explained by individual
QTLs ranged From 4 to 10%, Seven QTLs on seven different linkage groups we
re identified in multiple populations with some QTL regions corresponding w
ith mapped resistance genes and resistance gene analogs, The results sugges
t that several genes control resistance to Sclerotinia stem rot and that ma
rkers could facilitate an initial screen of segregating breeding population
s.