Waterlogging is a widespread limiting factor for wheat production throughout the world.To identify quantitative trait loci(QTLs) associated with waterlogging tolerance at early stages of growth,survival rate(SR),germination rate index(GRI),leaf chlorophyll content index(CCI),root length index(RLI),plant height index(PHI),root dry weight index(RDWI),shoot dry weight index(SDWI),and total dry weight index(DWI) were assessed using the International Triticeae Mapping Initiative(ITMI) population W7984/Opata85.Significant and positive correlations were detected for all traits in this population except RLI.A total of 32 QTLs were associated with waterlogging tolerance on all chromosomes except 3A,3D,4B,5A,5D,6A,and 6D.Some of the QTLs explained large proportions of the phenotypic variance.One of these is the QTL for GRI on 7A,which explained 23.92% of the phenotypic variation.Of them,22 alleles from the synthetic hexaploid wheat W7984 contributed positively.These results suggested that synthetic hexaploid wheat W7984 is an important genetic resource for waterlogging tolerance in wheat.These alleles conferring waterlogging tolerance at early stages of growth in wheat could be utilized in wheat breeding for improving waterlogging tolerance. Waterlogging is a substantial limiting factor for wheat production throughout the world. To identify quantitative trait loci (QTLs) associated with waterlogging tolerance at early stages of growth, survival rate (SR), germination rate index (GRI), leaf chlorophyll content index (CCI , root length index (RLI), plant height index (PHI), root dry weight index (RDWI), shoot dry weight index (SDWI), and total dry weight index (DWI) were assessed using the International Triticeae Mapping Initiative ) population W7984 / Opata85. Identification and positive correlations were detected for all traits in this population except RLI. A total of 32 QTLs were associated with waterlogging tolerance on all chromosomes except 3A, 3D, 4B, 5A, 5D, 6A, and 6D. Some of the QTLs large part proportations of the phenotypic variance. One of the is the QTL for GRI on 7A, which explained 23.92% of the phenotypic variation. Of them, 22 alleles from the synthetic hexaploid wheat W7984 synthe tic hexaploid wheat W7984 is an important genetic resource for waterlogging tolerance in wheat. These alleles conferring waterlogging tolerance at early stages of growth in wheat could be utilized in wheat breeding for improving waterlogging tolerance.