The comparison of temporary respirator adaptations in the Lama Glama and the Deer Mouse.
Knowing how high altitude animals work under hypoxic stress and the mechanisms that allow them to adapt, to these physiological difficulties. (D4)
The Lama Glama: The blood cell of the Lama Glama have a very large amount of haemoglobin, this can be found in the blood stream and also the blood corpuscles, these have helped the Lamas survive where the oxygen level is poor, as found at high altitude levels.
The higher altitude that lamas live at have a caused them too have an expanded lung capacity. meaning they can take in larger amounts of oxygen than animals who's habitats are at sea level and use that oxygen to circulate into the blood, thus stabilizing their respirator system in their environment. They also have made adaptations in lowering P50 to help them more readily get oxygen from the environment, research has shown that Erythrocytes and high haemoglobin amounts helps the process of extracting oxygen, this makes the Lama have a higher level of oxygen, and smaller amounts of organic phosphate DPG.
The higher altitude that lamas live at have a caused them too have an expanded lung capacity. meaning they can take in larger amounts of oxygen than animals who's habitats are at sea level and use that oxygen to circulate into the blood, thus stabilizing their respirator system in their environment. They also have made adaptations in lowering P50 to help them more readily get oxygen from the environment, research has shown that Erythrocytes and high haemoglobin amounts helps the process of extracting oxygen, this makes the Lama have a higher level of oxygen, and smaller amounts of organic phosphate DPG.
The Deer Mouse:
The Deer Mouse: Deer mice have a complicated and also the most capacious small mammal and as they live anywhere this means they can live low land and high land, this is because, of how they are able to adapt the haemoglobin polymorphism that deer mice have utilized. Deer mice, have a low amount of haemoglobin, in their blood, The Deer mouses haemoglobin does not show, the hydrogen bonds. High altitude, promiscuous matriculates, show a strong bond between blood oxygen relationship to altitude.
High altitude, mice showed the highest blood oxygen relationship relating to, a lower P50 amount.
The deer mice exhibit, a similar blood oxygen affinity to the Lama, Deer mice are able to take oxygen at low pressure, and have to balance this in order not to make it not possible for them to release the oxygen into the tissues.
High altitude, mice showed the highest blood oxygen relationship relating to, a lower P50 amount.
The deer mice exhibit, a similar blood oxygen affinity to the Lama, Deer mice are able to take oxygen at low pressure, and have to balance this in order not to make it not possible for them to release the oxygen into the tissues.