Answer:
the process by which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water. Photosynthesis in plants generally involves the green pigment chlorophyll and generates oxygen as a byproduct.
Explanation:
The plant leaves are green because that color is the part of sunlight reflected by a pigment in the leaves called chlorophyll.
Answer:
B
Explanation:
A. The population grows exponentially until it approaches 5,000 individuals, and then the population size begins to decrease.
B. The population grows exponentially until it approaches 5,000 individuals, and then its growth rate decreases.
C. The population grows at a constant rate until it approaches 5,000 individuals, and then its growth rate increases.
D. The population grows at a constant rate until it approaches 5,000 individuals, and then the population size remains stable.
<em>The population of the monarch butterfly would grow exponentially until it approaches 5,000 individuals and then its growth rate decreases.</em>
The carrying capacity refers to the maximum number of individuals of a species that an environment can support based on its resources. At the initial stage after the newly introduced butterflies get acclimatized to their new environment, their population would grow exponentially because there would adequate resources in the environment.
<u>As the population size gets close to the carrying capacity, resources become limited and competition sets in. Hence, the population growth slows down until it reaches the carrying capacity and starts to oscillate around it.</u>
The correct option is B.
Answer:
1/4 or 25%.
Explanation:
It is an example of<u> incomplete dominance </u>which is a form of Non-Mendelian inheritance pattern. In this kind of inheritance, the dominant allele is unable to mask the expression of recessive allele completely so the heterozygous off-springs rather than acquiring dominant phenotype acquire a phenotype which is a blend or we can say intermediate between dominant and recessive phenotype.
Let us suppose homozygous brown-eyed sheep has genotype 'BB' and homozygous green-eyed sheep has genotype 'bb'. Their cross will produce all progeny with 'Bb' genotype which have an intermediate eye color which is blue.
The cross between two blue eyed sheep is depicted as under:
Bb x Bb
/ \ / \
Progeny: BB Bb Bb bb
From the results of cross above, we can easily infer that 1 out of the 4 probable progeny 1 will have brown eyes. So the probability is 1/4 or 25%.
