Each trait is controlled entirely by a single gene on the chromosome. Thus their phenotype is determined only by the combination of the two genes for that trait inherited on the pair of chromosomes received one from each parent, the genotype.
Many other traits are controlled in much more complex ways involving multiple interacting genes, possibly even on different chromosomes. This can make them very difficult to predict or even nearly impossible to predict in some cases.
To a large degree Mendel was very lucky to have picked those specific traits to study!
Mendel studied pea plants. He chose strains that bred true for traits like pea color, flower color, and height. By crossing plants that bred true for these traits he was able to determine that offspring were not a "blend" of their parents and that traits were passed on by what we now know as genes in patterns that could be predicted from one generation to the next.
Gregor Mendel's pea plant experiment allowed him great control, as pea plants can self-pollinate or cross-pollinate, and he was able to pollinate them at will. He studied the characteristics of each plant he would cross-pollinate, perform the pollination and plant the resulting seeds, then study the characteristics of the resulting plants.
Gregor Mendel, an Austrian monk and biologist, conducted experiments on pea plants in the 19th century that laid the foundation for the study of genetics. His work established the fundamental principles of inheritance and how traits are passed from parent to offspring.
Mendel did his experiments by using pea plants with various traits like the color of the flower, the shape of the seeds, the height of the plants etc and studied how those traits behave when crossed. For example, what happens when a short plant with red color flowers was crossed with a tall plant with purple colored flower etc.
Mendel studied dominant and recessive traits in pea plants and flowers that had traits that had either or phenotypes. For example, a pea plant could have round or wrinkled offspring. He would then breed the round and wrinkled together and see what happened.
Because they were simple, easy to recognise phenotypes controlled by one set of alleles
Mendel studied sweet peas. He studied the inheriance of certain traits in pea plants. His studies of the passing of certain traits formed the basis for our understanding of dominant and recessive genes in plants and animals.
Gregor Mendel studied pea plants to understand how traits are inherited. He used pea plants because they have easily observable traits that can be controlled for breeding experiments, making them ideal for studying patterns of inheritance. Mendel's work with pea plants laid the foundation for modern genetics.
Mendel studied sweet peas. He studied the inheriance of certain traits in pea plants. His studies of the passing of certain traits formed the basis for our understanding of dominant and recessive genes in plants and animals.
He studied dominant and recessive genes. He studied pea plants and the traits that they obtained from previous generations.
one way that humans are more complex than pea plants that mendel studied is that many human traits are affected by several different genes, whereas the traits of the peas are affected by generally only one gene.
Gregor Mendel studied seven traits in pea plants. These traits were flower color, flower position, seed color, seed shape, pod color, pod shape, and plant height. Mendel's work with these traits laid the foundation for the field of genetics.
He studied plants and was a gardener.
Gregor Mendel compared traits such as seed shape, seed color, pod shape, pod color, flower position, and stem height in pea plants. He studied how these traits were inherited and passed on from one generation to the next.
The original generation for pea plants in Mendel's experiment is called the P generation, or parental generation. This generation consisted of the true-breeding plants that Mendel used to establish the traits he studied. The P generation was crossed to produce the F1 generation, which exhibited the traits inherited from the P generation.
Gregor Mendel studied pea plants in his experiments on the inheritance of traits. Through controlled breeding experiments, he discovered the basic principles of heredity, known as Mendelian genetics.
Gregor Mendel took two different colored pea plants: one had traits for white plants and the other had traits for a red plant. When Mendel cross bred the two plants, a plant with traits for a pink plant grew. This is how Mendel contributed to the understanding of inherited traits.