Abstract: The large yellow croaker Larimichthys crocea is one of the most important fish species in Chinese mariculture,and the research about correlation analysis between growth-related traits and microsatellite markers is very rare.In this study,the genotype distribution of twenty-two microsatellite markers was investigated in an F₁ family of large yellow croaker Larimichthys crocea of 20-month old,and the correlation between growth-related traits and microsatellite markers was also analyzed using statistical method.The results are as follows:A total of 60 alleles were detected,and the average number of alleles and effective number of alleles were 2.73 and 2.37,respectively.The average observed heterozygosity(H_o)and expected heterozygosity(H_e)were 0.75 and 0.73,respectively.The genotype distribution of partly loci deviated severely from Mendel’s Laws,which suggested these loci might link with the adaptive gene,and LYC0446 may link with recessive homozygous lethal genes.We discovered that LYC0077 had significant impact on body weight,body length and body height(P<0.05),and the allele A(165 bp)had highest phenotype value and can be used as a molecular marker in selection breeding; LYC0015 and LYC0243 had significant impact on body height(P<0.05),and no significant effect on body length and body weight,and the allele C(110 bp)for LYC0015 and the allele A(160bp)for LYC0243 have positive effect on growth-related traits.Three genotypes of these loci with favorable effect on growth-related traits were also determined,BC for LYC0015,AA for LYC0077 and AB for LYC0243 respectively.The best genotype combinations(BC/AA/AB)for LYC0015,LYC0077 and LYC0243 were also selected according to body weight,which conformed to the Additive Effects Model.The results presented here provide a starting point for the eventual mapping of economically important genes and marker-assistant selection(MAS)in large yellow croaker.