Given what we know, we can confirm that if a population of animals has a short gestational period and travel in large groups, this will result in increased mating leading to higher birth rates and an increase in individuals.
<h3>How is the gestational period related to birth rates?</h3>
- The gestational period refers to the time it takes an organism to fully develop a newborn.
- This means that a pregnant female of this animal group will not take very long to give birth.
- This also implies a short recovery period.
- This results in the females being able to breed more often and thus will increase birth rates.
Therefore, given that the females in the group will carry the fetus for very short amounts of time due to the short gestational periods, they will become available to breed more often and thus will result in higher birth rates and increased population size.
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The storage form of carbohydrates is Glycogen in animals and humans in plants. <span>
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The answer to this question would be: favorable, low<span>
Exponential growth happens when the resource is enough and competition is low. The example for this condition is when a small population move to a resourceful area. If the area having many resources, that means the area is favorable.
A low density population will need less resource. It is hard to get exponential growth in a high density population as the competition for the resource will be high.</span>
Answer:
(b) Phylum Urochordata: x i =77 ; y i =25 The data is representing the number of miRNA's (mitochondrial RNA's) or "x i,"
Explanation:
Answer:
Phenotypic ratio = 1 Red : 1 Pink
Explanation:
This phenomenon exhited by the gene coding for flower colour in four o'clock plants is called INCOMPLETE DOMINANCE i.e. the red flower allele (R) is not completely dominant over the white flower allele (r), hence, a third intermediate pink phenotype (Rr) is formed in an heterozygous state. The red and white flowers will only be expressed in a RR and rr genotypes respectively.
In a cross between a red-flowered 4 o'clock plant (RR) and a pink-flowered 4 o'clock plant (Rr), the gametes:
R and R will be produced by the red-flowered plant while gamete R and r will be produced by the pink-flowered plant. Using this gamete in a punnet square, one will have four possible offsprings in which two will be phenotypically red-flowered (RR) and two phenotypically pink-flowered (Rr). i.e. 2RR:2Rr
Hence, the phenotypic ratio is 1:1 Red to Pink flower
