Claim 1: a method for identifying a soy Plant consisting of a genotype associated with tolerance to glyphosate and dicamba tolerant Reproductive, which comprises: detecting a soy Plant a allele in at least one Genetic locus associated with tolerance to dicamba and tolerates Ncia Reproductive to glyphosateWhere the genetic Locus in a genomic region is flanked by the Liaison Group l locus m0205928 (SEQ ID no. 4) and bu765955 (SEQ ID no. 12) and indicates that the plant consists of a genotype associated with tolerance to dicamba.Claim 6: The Method according to claim 1,Wherein the genotype associated with tolerance to dicamba comprises at least one polymorphic allele of a marker in at least a first sub region of the link l which is flanked by the locus m0205928 (SEQ ID no. 4) and m0129138 (SEQ ID no. 6) and / or at least a The Least polymorphic allele of a marker in a Second Sub Region of the Link Group lLocus is flanked by bu551363 (SEQ ID no. 9) and bu765955 (SEQ ID no. 12) and / or at least one polymorphic allele of a marker in at least a Third sub region of the region of the link l which is flanked by the locus bu55345 (SEQ ID no. 7) and m0114388 (SEQ ID No. 8).Claim 16: a method for producing a soy Plant comprising at least one Locus in the Genome of tolerance to dicamba introgresada comprising the steps of: (a) Crossing a first floor with a Locus of soybean tolerance to dicamba soy with 2nd Floor comprising: a l Ocus of dicamba in sensitivity to a genomic region of L flanked by the Liaison GroupM0205928 locus (SEQ ID no. 4) and m0129138 (SEQ ID no. 6) and / or at least one polymorphic allele of at least a bookmark in a subregion of the Second Region of the link l which is flanked by the locus bu551363 (SEQ ID no. 9) and bu765955 (SEQ ID no. 12) and / or At least one polymorphic allele d And at least one marker in the Third sub region of the region of the Link Group is flanked by L LOcus bu55345 (SEQ ID no. 7) and m0114388 (SEQ ID No. 8) and at least one polym
