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Since squash plants do not self-pollinate, they cannot produce a true-breeding generation (known as the P generation in Mendel's experiment). Thus, there will be two consequences: 1. Obtaining a pure-breeding squash plant will be hard or nearly impossible. 2. Recessive traits will show up earlier in the generations. For example, in Mendel's pea-plant experiment, recessive traits reappeared in the F2 (second filial) generation. In this case, recessive traits could appear in the F1 (first filial) or P (parental) generation... or even earlier.
A trait like this must be homozygous dominate.
Well, gregor mendel studied the heredity of living things. He used for about 28,000 pea plants to cross-pollinate and self pollinate them. He also used and made the punnet square which helped him in the first and second expiriment. In the 1st expiriment he cross pollinate two pea plants and one trait appear in all of the offspring. That was called the dominant trait and the trait that disappear was called the recessive trait. When he did his 2nd expiriment the recessive trait appear again! If you want to lear more go to: http://library.thinkquest.org/C0118084/History/Mendel.htm That web will help you!
Mendel was doing research in his lab... and found that when two parents with contrasting characters are crossed only one character is expressed in F1 generation and in F2 generation both characters appear in separate plants in a definite proportion. the one which dominated in F1 was a dominant character and thus the Principle of Dominance was discovered.
Mendel's Law - The first law of Mendel states that "In a cross of parents that are pure for contrasting traits, only one form of the trait will appear in the next generation. Offspring that are hybrid for a trait will have only the dominant trait in the phenotype."
Since squash plants do not self-pollinate, they cannot produce a true-breeding generation (known as the P generation in Mendel's experiment). Thus, there will be two consequences: 1. Obtaining a pure-breeding squash plant will be hard or nearly impossible. 2. Recessive traits will show up earlier in the generations. For example, in Mendel's pea-plant experiment, recessive traits reappeared in the F2 (second filial) generation. In this case, recessive traits could appear in the F1 (first filial) or P (parental) generation... or even earlier.
No
Regigigas does not appear in Ruby. Regigigas is a fourth Generation Pokemon, and Ruby is a Third Generation Game.
It is out already. The next generation might appear next March.
Pokemon Silver edition can trade between any Generation 1 or 2 game. Note that when trading with Red,Blue or Yellow the Silver players Pokemon in his/her party must only be Generation 1 and not have learned any moves that didn't appear in the Generation 1 games and not be holding any items that didn't appear in the Generation 1 games.
20
Not at the begging but later on at about the next generation they appear to be nutral
Gible is a 4th generation Pokémon and thus does not appear in Pokémon Sapphire.
A trait like this must be homozygous dominate.
There are currently no 8th generation consoles available or in development. The current console generation is the seventh generation, and it includes the Nintendo Wii, the PlayStation 3, and the Xbox 360. Due to an increased emphasis on peripheral development in this generation (such as Kinect and the PlayStation Move), eighth generation consoles are unlikely to appear for several more years.
You cannot get Giratina in Pokemon Emerald. Emerald is a third generation Pokemon game, and Giratina didn't appear until the fourth generation, with Diamond and Pearl.
No, Rotom is a Generation IV Pokemon (Diamond/Pearl/Platinum) and does not appear in the earlier games.