Answer:
When taking out of natural habitat and put into an unfamiliar habitat several adaptations and behavioral changes can occur; however, it would depend on circumstances. Compare and contrast.
Explanation:
If you are provided with adequate medical, shelter, food, water, and access to leave whenever to seek these some of these luxury's than adaptation and behavioral changes would be the lesser. However, granted that you just go there with nothing you would would have to fight for survival - to live peacefully. You would have to adapt to your surroundings by learning to camouflage to avoid predators, you would have to learn to hunt for food and water, adapt to the sounds because of your sensory system will be off, you would have to be able build a shelter and learn ways to adapt to the climate. Eventually your body will adapt to withstand the many diseases, the food, and climate of the amazon rain-forest.
Behavioral changes of aggressiveness and alertness can be seen at an elevated level with having to prey and avoid predators -Darwin's survival of the fittest. The behavioral changes go along side with having to shift foraging patterns to avoid predators. Environmental changes can impair sensory systems or interfere with the physiological process which can weaken the ability of survival it can either make you paranoid or you can adapt; thus, changing your behavioral response.
Hope this helps!
Answer:
landslide
This is so easy you can answer this if you study and cheat on class
Why did early scientists believe that plants were fundamentally different than animals?
<span>Scientists did not know animals had cells too.</span>
I believe the answer is During<span> prophase
</span>The nucleus during mitosis. Micrographs illustrating the progressive stages ofmitosis<span> in a plant cell. </span>During<span> prophase, the chromosomes condense, the </span>nucleolus<span>disappears, and the </span>nuclear envelope<span> breaks down. At metaphase, the condensed chromosomes </span>
Answer:
Vesicles
Explanation:
Serotonin is a neurotransmitter that transports signals or messages between neurons.
Most neuronal cells have vesicles in their interior, which are organelles that store neurotransmitters for exportation -by exocytosis- or from recycling -by endocytosis-. These vesicles also protect the neurotransmitter from the enzymatic action.
Vesicles form in the cellular soma, from where they are transported to nervous terminals. Once the vesicle releases the neurotransmitter to the intercellular space, their membrane remains available in the plasmatic membrane to be reused.
The neurotransmitter concentration in the vesicle interior is related to the storage system and the <u>transport system</u>. There are <u>specialized transporter proteins in the vesicle membrane</u> that are involved with the introduction of the molecule to the organelle.
In the exposed example, transporter Trans B might be located in the vesicle membranes, and hence could be found in the cytosol of the cells.
