Transport Systems (The Blood)
0 Pages | Leaving School | 26/12/2024

The Blood


Transport systems in plants and animals

transportIn the body, substances are transported around by the circulatory system which consists of the heart, blood vessels and blood. Substances are either transported into the body to the cells or from the cells and out of the body. Today, technological and biomedical research has enabled us to see when there are problems with the circulatory system. Similarly, plants also use transport systems for water and nutrients.

By the end of this section you should understand:

  • how to analyse data on the production and use of artificial blood products
  • how to evaluate artificial hearts and heart valves
  • the use of stents

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The Blood

Blood performs many very important functions in the body:

  • it transport oxygen and nutrients to the cells and takes waste products away from the cells
  • it carries hormones and chemicals to where they’re needed in the body
  • it helps to maintain the body’s temperature so that it doesn’t get too hot or too cold
  • it’s a vital part of the immune system

Blood composition

Blood is composed of four main substances:

  • plasma
  • red blood cells
  • white blood cells
  • platelets

Plasma

Blood plasma is a fluid in which red blood cells, white blood cells and platelets are transported. However, plasma also transports a number of other important substances:

  • carbon dioxide from the organs to the lungs
  • soluble products of digestion from the small intestine to the other organs
  • the waste product urea from the liver to the kidneys

Red blood cells

TransportThe role of red blood cells is vital for delivering oxygen and getting rid of carbon dioxide. They’re able to do this due to the fact that they’re packed with a protein called haemoglobin. The main component of haemoglobin is iron which is very good at carrying both oxygen and carbon dioxide. It’s also the reason why red blood cells are red.

In the lungs, the haemoglobin combines with the oxygen to form oxyhaemoglobin. When the oxygenated blood travels round the body the oxyhaemoglobin splits back up into haemoglobin and oxygen and the oxygen can then enter the cells

The shape of a red blood cell is a biconcave disc: this means that its surface to volume ratio is large so gases can diffuse in and out of it more quickly. Their small size and flexibility also mean that they can move through capillaries and get closer to the cells.

Another interesting fact about red blood cells is the fact that they don’t have a nucleus. In fact, they don’t contain any organelles which means that they have more room for haemoglobin.

White blood cells

TransportWhite blood cells are much larger than red blood cells and contain a nucleus. There are two main types, granulocytes and lymphocytes, both of which are produced in the bone marrow.

The main function of white blood cells is as part of the immune system. They travel in the bloodstream so that they can reach affected tissue. They’re able to fight off bacteria and viruses by either producing antibodies or devouring the germ themselves. They can also attack cells which have become infected or mutated.

Platelets

TransportPlatelets are also formed in the bone marrow and are small fragments of cells. Like red blood cells they don’t have a nucleus and reactions take place in their cytoplasm.

One of their main functions is blood clotting. If cells are damaged the platelets stick themselves to the inner surface of the blood vessel forming a plug. A good example is when you cut yourself. The platelet plug stops all your blood from leaking out. This plug also helps prevent infectious organisms from entering your body.

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