Maintaining coordinated chemical homeostasis is critical for multicellular organisms to survive. Thus, certain variables are held tightly within a set value. 1.You place an organism to acclimatize in a hot environment. As a result, that individual increases its sweating efficiency. Would this sweating efficiency be maintained after placing this same animal in a cold environment for an extended period? Please explain your answer in less than 150 characters (including spaces).
Maintaining coordinated chemical homeostasis is critical for multicellular organisms to survive. Thus, certain variables are held tightly within a set value.
1.You place an organism to acclimatize in a hot environment. As a result, that individual increases its sweating efficiency. Would this sweating efficiency be maintained after placing this same animal in a cold environment for an extended period? Please explain your answer in less than 150 characters (including spaces).
2. You find an organism adapted to a hot environment, with a high sweating efficiency. Is this sweating ability transmitted to its progeny? Please explain your answer in less than 150 characters (including spaces).
3.Negative feedback loops are the most common mechanism to maintain hemostasis. Would the negative feedback below effectively control body temperature? Please name the missing element in your answer in less than 150 characters (including spaces).
4.Your body temperature changes during the day. Is your body temperature under strict homeostatic control? Please explain your answer in less than 150 characters (including spaces).
Trending now
This is a popular solution!
Step by step
Solved in 2 steps
