<u>Reactivity </u><u>is the degree of change that occurs in </u><u>autonomic</u><u>, neuroendocrine, and/or immune responses as a result of stress.</u>
How does the autonomic nervous system response to stress?
- The fight-or-flight reaction, commonly known as the autonomic nervous system, is what causes arousal and produces testosterone in the male anatomy.
- It also stimulates the sympathetic nervous system.
- The hormone cortisol, which is made by the adrenal glands, is released by the body in response to stress.
What is the stress response system?
- The body's emergency response system is known as the stress response, also known as the "fight or flight" response.
- In an emergency, it will keep you secure. Your body and mind will react physically and mentally to the events you see.
Can stress cause autonomic?
- Stress-related autonomic reactions frequently result in medical attention.
- The results of autonomic stress responses can include sensations of heat and cold, palpitations, tachycardia, nausea, abdominal pain, diarrhea, and constipation.
Learn more about autonomic nervous system
brainly.com/question/1034520
#SPJ4
Answer is Homologous.
A diploid individual having two different alleles for a specific trait is called heterozygous. An allele is the alternative form of the same gene. The cells in diploid organisms contain sets of homologous chromosomes, which are paired chromosomes. Each chromosome of a homologous pair has the same genes on the same positions. Although homologous chromosomes have the same genes, they may have different alleles for those genes.
Example: The gene for seed color trait in a pea plant exists in pair. One gene or allele for yellow seed (R) and the other for green seed color (r). A heterozygous plant would contain alleles for seed color (Rr). Gene R is present one chromosome and its allele (r) is present on the other chromosome of the homologous pair.
Answer:
Yes
Explanation:
If both of the parents have a recessive trait that decides fur color, then there is a 25% chance that the offspring will receive the recessive traits from each parent and will not receive either of the dominant traits.
