Topic 7

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MinorCow

Cards (100)

Why do multicellular organisms need specialised exchange surfaces?
Diffusion doesn't have a fast enough rate
Why does diffusion not work in multicellular organisms?
Small surface area to volume ratio, high metabolic rate, large distance between where the oxygen and carbon dioxide is and where it needs to be
Features of efficient exchange surfaces
Increased surface area, thin layer, good blood supply or ventilation to maintain gradient
Example of thing with increased surface area
Root hair cells
Example of thing with a thin layer
Alveoli
Example of thing with good blood supply/ventilation
Gills, alveoli
Components of the mammalian gaseous exchange system (Muscles etc)
Cartilage, ciliated epithelium, goblet cells, smooth muscle, elastic fibres
Parts of the mammalian gaseous exchange system
Nasal cavity, trachea, bronchus, bronchioles, alveoli
Important features of the nasal cavity
Large surface area, good blood supply which warms the blood to body temperature, hairy lining to secrete mucus to trap dust, moist surfaces which increase the humidity to reduce evaporation from the exchange surfaces
What does the trachea do?
Main airway carrying clean, warm and moist air from the nose down into the chest
Things in the trachea
Cartilage, ciliated epithelium
What does cartilage do in the trachea?
Stops the trachea from collapsing, incomplete rings to allow food to move down the oesophagus behind the trachea
What does the ciliated epithelium do in the trachea?
Goblet cells secrete mucus on the lining of the trachea to trap dust and microorganisms, cilia waft the mucus away from the lungs towards the throat
Things in the bronchi
Cartilage, ciliated epithelium
Things in the bronchioles
Smooth muscle, thin layer of flattened epithelium
What does the smooth muscle do in the bronchioles?
When the smooth muscle contracts, the bronchioles constrict. When it relaxes, the bronchioles dilate. This changes the amount of air reaching the lungs.
What does the thin layer of flattened epithelium do in the bronchioles?
Makes some gaseous exchange possible
What does the alveoli do?
Main gas exchange surfaces of the body
Adaptations of alveoli
200-300 micrometres, large surface area so high surface area to volume ratio, good blood supply, good ventilation, thin layers, lung surfactant
Features of the alveoli
Collagen, elastin fibres
What do the elastin fibres do in the alveoli?
Allow alveoli to expand when inhaling, can recoil to original size when exhaling, helps expel air
Role of lung surfactant
It makes it possible for the alveoli to remain inflated
Parts of the body involved in mammal ventilation
Rib cage, internal and external intercostal muscles, diaphragm
What moves air in and out f the lungs?
Pressure changes in the thorax due to breathing movements
Ventilation
Movement of air
Role of rib cage in ventilation
Semi-rigid case within which pressure can be lowered with respect to the air outside it
Role of the diaphragm in ventilation
To form the floor of the thorax
Diaphragm
Broad, domed sheet of muscle
Where can you find the internal and external intercostal muscles?
Between the ribs
What lines the thorax?
Pleural membranes
Pleural cavity
Space between the pleural membranes
Role of the pleural cavity
To contain lubricating fluid to allow membranes to slide over each other as you breathe
Process of inspiration
Diaphragm contracts so it flattens and lowers, external intercostal muscles contract, ribs moved up and out, volume of thorax increases, pressure in thorax reduced so it is lower than air pressure, air drawn through the gaseous exchange system to equalise the pressure gradient
Is inspiration active?
Yes
Is expiration active?
No
Process of expiration
Diaphragm relaxes and moves up, external intercostal muscles relax, ribs move down and inwards under gravity, elastic fibres in the alveoli return to normal length, volume of thorax decreases, pressure inside thorax greater than air pressure, air moves out of lungs to even out pressure gradient
Process of forced expiration
Internal intercostal muscles contract, ribs pulled down hard and fast, abdominal muscles contract, diaphragm forced up, increased pressure in lungs
Triggers of asthma
House dust mites, cigarette smoke, pollen, stress
Process of an asthma attack
Cells lining the bronchioles release histamines, epithelial cells become inflamed and swollen, histamines stimulate goblet cells, more mucus, smooth muscle in bronchiole walls contract, airways narrow and fill with mucus
Ways to treat asthma
Relievers, preventers