true breeding!
A recessive trait reappears in the 2nd generation. The classic example of this would be Gregor Mendel's pea plant cross. He took 2 pea plants, one short and one tall, cut out some of their reproductive parts so they couldn't self pollinate, and crossed their pollen. However, instead of getting a medium sized plant, he got 4 tall plants. This generation is the first, or F1, generation. Where did the short trait go? Did it simply disappear? Or was it being masked? To find out, he let the F1 generation self-pollinate. Surprisingly, there were 3 tall and 1 short plants in the F2 generation. Although the short trait was recessive, it reappeared in the second generation.
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.
Niche
A battery that produces electricity
No Gland produces Pepsin, however the Stomach produces Pepsin to break down proteins when you eat a steak for example.
Not necessarily. Many plants now days have been hybridized and will eventually revert to their 'orginal' colors.
This is an example of a symbiotic relationship.
A recessive trait reappears in the 2nd generation. The classic example of this would be Gregor Mendel's pea plant cross. He took 2 pea plants, one short and one tall, cut out some of their reproductive parts so they couldn't self pollinate, and crossed their pollen. However, instead of getting a medium sized plant, he got 4 tall plants. This generation is the first, or F1, generation. Where did the short trait go? Did it simply disappear? Or was it being masked? To find out, he let the F1 generation self-pollinate. Surprisingly, there were 3 tall and 1 short plants in the F2 generation. Although the short trait was recessive, it reappeared in the second generation.
A recessive trait reappears in the 2nd generation. The classic example of this would be Gregor Mendel's pea plant cross. He took 2 pea plants, one short and one tall, cut out some of their reproductive parts so they couldn't self pollinate, and crossed their pollen. However, instead of getting a medium sized plant, he got 4 tall plants. This generation is the first, or F1, generation. Where did the short trait go? Did it simply disappear? Or was it being masked? To find out, he let the F1 generation self-pollinate. Surprisingly, there were 3 tall and 1 short plants in the F2 generation. Although the short trait was recessive, it reappeared in the second generation.
Yes, honey bees can pollinate plants other than flowers. For example, in California, honey bees are absolutely essential to pollinate the almond trees.
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.
Niche
In most plants, the sporophyte generation is dominant. In fern, for example, the fern itself is the sporophyte. This organism produces spores that fall to the substrate below and grow into a separate organism called a gametophyte. The gametophyte produces sperm and eggs in order to produce a new sporophyte which grows out of the gametophyte's body, destroying it. It is important to note that the gametophyte is haploid and the sporophyte is dploid.
example of fourth generation techniques
The third generation Greek goddess of earth is a minor god whose name i do not know. However, Hestia is the third generation goddess of hearth and home. First generation goddess of the earth is Gaia (Gaea). First generation example=Ouranos (Uranus). Second generation example=Kronos (Cronos). Third generation example=Zeus. Fourth generation example=Janus (who is Roman by the way).
As the thermal generations increase it will trigger the melting process of glaciers, human activities that produces heat are growing during the last decade , for example factories and transportaion vehicles, where they produce carbon monoxide that is a part of the increase of thermal generation.
edvac is an exmple of whic generation computer ?