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- it has a very short life span . say about 3-4 months.so it can show immediate results after the experiment.
- it is a bisexual plant but sexual reproduction can be easily carried out.here it is also very easy to find a pure line.
- moreover it has 7 pair of contrasting characters.
Peas were used by Gregor Mendel in his experiments on heredity because they were easy to grow, had clear and distinct traits, and could self-pollinate or be cross-pollinated manually. This allowed Mendel to control which traits were passed from one generation to the next, helping him establish the principles of inheritance.
the garden pea is a good subject for studying heredity because
- it grows easly
- produces many offspring
- matures quickly
- several characters of peas exist in different formsand the male
- and female reproductive systems are inside the same flower
Gregor Mendel was a keen naturalist and gardener. He also was the abbot of the
Augustinian Abbey of St Thomas in Brno (nowadays in the Czech Republic), so he had enough authority to carry out experiments in their gardens.
He noticed that peas had certain characteristics or "characters" such as how high they grew, whether their flowers were red or white, whether the seeds were smooth or wrinkled, or green or yellow, and so on. When a pea shows a particular character, say red flower colour, we call that the red phenotype of the peas. Very importantly, Mendel noticed that there was not much sign of mixing of phenotypes. You didn't get half-wrinkled peas, or half-red flowers, or greenish-yellow pea seeds. Yes, you did get pink snapdragons as well as red and white, but not some pinker than others.
This was important because it showed that the characters were NOT like ink, that can be mixed any way you like; they were more like marbles. You could have one colour of marble, or another, but if you had a red marble and a white marble, that did not give you two pink marbles.
Now, the peas in Mendel's gardens had a number of characters that behaved like that. and Mendel noticed a lot of things about how the characters behaved. In particular he described several most important things:
Far and away the most important was the independentassortment of the inheritance of the genes. That meant that say, characters such as flower colour and the tallness of the plant each behaved as if the other did not matter. You could not make a flower redder or whiter by by making it taller or shorter. It was as though each plant inherited and passed on a token (actually two tokens, nowadays we call them genes) for tallness or shortness, and two tokens for colour. And whether you had tall tokens or short made no difference to whether you had red tokens or white.
Secondly, he discovered what we call the laws of segregation; there are particular rules for how those tokens get passed on. For example, if your pea plant had white-flowered parents, plants grown from its seeds would produce only white flowers, but there were different rules for certain examples of red flowers. This was perhaps the second most important thing he discovered.
Thirdly he found that if you took a red plant that produced only red flowers in its offspring (the plants growing from its seed) that is to say what we call a "true-breeding" red (or a homozygous red), and you crossed it with a white-flowering plant, you got only red flowers when you grew the seed, but the grandchildren of those pea plants gave both red and white flowers according to certain rules. When he discovered those rules in peas, he gave the rules a name, the rules of dominance. He said that red was dominant to white.
There was a lot more to it all than that of course, and we have discovered books-full about genetics since then, but it happened that peas were particularly suitable for such studies;
they produced at least one new generation per year, so that one could study the descendants of particular seeds, and crossbreed them to see what happened.
They had several characters that gave different phenotypes that one could easily tell apart.
Later we discovered far more complicated patterns of heredity in many different living things, but his basic idea of genes and how they work remains important to this day, and is one of the greatest discoveries in the history of Biology.
Incidentally, Mendel did some very clever experimental work in making those discoveries; the answers did not just appear magically on a cheat sheet that he could work from.
The pea plant (Pisum sativum) is a good choice for stuyding heredity because it:
A. Is easy to grow
B. Develops quickly
C. Produces many offspring
D. Has many traits that appear in two easily distinguishable forms
E. All of the above are correct
Garden peas are good subjects for studying heredity because they are simple. The traits if exhibited are easily seen and observed.
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What do gregor mendels peas have to do with the study of heredity?
The peas had passed traits down like red or white and short or tall.
Why is the probality used in the study of heredity?
To test the significance of inherited characters in the populations
What is a scientist who studies heredity called?
A scientist who studies heredity is called a geneticist. Geneticists study genetics in general, which includes heredity.A scientist that studies heredity is called a geneticist. They study general genetics. Heredity is the genetic transfer of characteristics from generation to another.
Which best illustrates how Gregor Mendel used creativity that lead to scientific discovery?
He used pea plants to study the patterns of heredity.
What living thing did Gregor Mendel study the characteristics?
Gregor Mendel studied the characteristics of pea plants. He is known as the father of modern genetics because of his work with pea plants, which helped establish the principles of heredity.
What rhymes with Grendel?
Spindle Mendel, the monk with the peas and heredity study. enkindle
What do gregor mendels peas have to do with the study of heredity?
The peas had passed traits down like red or white and short or tall.
What do Gregory Mendel's peas have to do with the study of heredity?
It Simbolises the birth right of a human. Like the sperm and the egg.
What is the study of heredity?
Genetics is the study of heredity. It was largely started by the work of an Austrian monk called Gregor Mendel. His experiments with peas showed that there are predictable patterns in the way traits are inherited. Since then we have uncovered much of the molecular basis of inheritance.
Is the study of heredity?
Genetics is the study of heredity. It was largely started by the work of an Austrian monk called Gregor Mendel. His experiments with peas showed that there are predictable patterns in the way traits are inherited. Since then we have uncovered much of the molecular basis of inheritance.
What is the study of heredity called?
The study of heredity is called genetics. It involves the study of genes, genetic variation, and heredity in living organisms.
Mendel carefully blank his experiments and the peas he used?
Mendel carefully designed his experiments and the peas he used.
What plant did Mendel study to learn the basic mechanisms of heredity?
Mendel choose the garden pea because the garden peas have a number of characteristics that are expressed in one of ways.
Who studied heredity?
The study of heredity is known as Genetics, which is one of the Biological Sciences. The people who study heredity are known as Geneticists.
Why is the probality used in the study of heredity?
To test the significance of inherited characters in the populations
Who experimented with peas and came up with the laws of heredity?
gregory mendel
What did gregor Mendel use p plants to study what?
Gregor Mendel used pea plants to study heredity.
