Mendel observed that, when peas with more than one trait were crossed, the progeny did not always match the parents. It states that when there are 2 different alleles in a cell, one will mask the effect of the other. This gave the information on how alleles of a gene pair express itself. When he cross-bred pea plants of round green seeds with wrinkled yellow seeds, he got F1 generation with all such seeds which were yellow and round. When a cross was made between a pea plant with Round and yellow seeds and a pea plant with wrinkled and green seeds, the F1 progeny plants all had Round and Yellow seeds. Mendel gave the law of independent assortment from the dihybrid cross. And in the F1 progeny, round yellow seeds are … This is because different traits are inherited independently – this is the principle of independent assortment. This is the dominant gene, while the gene whose effect is masked is known as the recessive gene.In the F1 generation of the monohybrid cross, the plants had Pp alleles, but were still purple in color. When the F1 plants were self pollinated , Mendel got the F2 generation. asked Oct 14, 2019 in Biology by Suchita ( … Mendel cross-bred pea plants showing two different characteristics, rether than just one. How do Mendel’s experiments show that the (a) traits may be dominant or recessive, (b) traits are inherited independently? This indicated that round and yellow trait were the dominant traits. For example, he cross-bred pea plants with round, yellow seeds and plants with wrinkled, green seeds. He demonstrated that traits are transmitted faithfully from parents to offspring independently of other traits and in dominant and recessive patterns. And hence he concluded that traits are inherited independently Similar Questions 30 circular plates, each of radius 14 cm and thickness 3cm are placed one … This bore out Mendel's suspicion that different traits were inherited independently of one another, leading him to posit the law of independent assortment. This law states that the factors controlling different characteristics are inherited independently of each other. However, the heterozygote phenotype occasionally does appear to be intermediate between the two parents. In the first experiment, Mendel examined only one trait at a time. Mendel’s results, that traits are inherited as dominant and recessive pairs, contradicted the view at that time that offspring exhibited a blend of their parents’ traits. In later experiments, Mendel took two contrasting traits and crossed them like the previous one. The F2 progeny consisted of some plants with round and … The results of this set of experiments led to Mendel's second law of inheritance called the law of independent assortment. Fig Independent inheritance of two separate traits, shape and colour of seeds. (AI 2015) Answer: (a) When Mendel crossed pollinated pure tall pea plants with pure dwarf pea plants, only tall … In 1865, Mendel presented the results of his experiments with nearly 30,000 pea plants to the local Natural History Society. How do Mendel’s experiments show that the (a) traits may be dominant or recessive, (b) traits are inherited independently. Mendel performed an experiment in which he made crosses of pea plant with the round yellow seeds and one with the wrinkled green seeds. In Mendel's second set of experiments, he experimented with two characteristics at a time. How does Mendel’s experiment show that traits are inherited independently? This is the first law. Law of Dominance.