Exchange Surfaces Flashcards

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1
Q

Why do multicellular organisms require specialised gas exchange surfaces?

A

Their smaller surface area to volume ratio means the distance that needs to be crossed is larger and substances cannot easily enter the cells as in a single celled organism

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2
Q

How is surface area to volume ratio calculated?

A

Ratio = surface area / volume

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3
Q

Name three features of an efficient gas exchange surface.

A

1) large surface area - e.g root hair cells
2) thin/short distance e.g alveoli
3) steep concentration gradient, maintained by blood supply or ventilation e.g gills

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4
Q

Describe the trachea and its function in the mammalian gaseous exchange system.

A

. Wide tube supported by c-shaped cartilage to keep the air passage open during pressure changes
. Lined by ciliates epithelium cells which move mucus, produced by goblet cells, towards the throat to be swallowed, preventing lung infections
. Carries air to the bronchi

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5
Q

Describe the bronchi and their function in the mammalian gaseous exchange system.

A

. Like the trachea they are supported by rings of cartilage and are lined by ciliates epithelium cells and goblet cells
. However they are narrower and there are two of them, one for each lung
. Allow passage of air into the bronchioles

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6
Q

Describe the bronchioles and their function in the mammalian gaseous exchange system.

A

. Narrower than the bronchi
. Do not need to be kept open by cartilage, therefore mostly have only smooth muscle and elastic fibres so that they can contract and relax easily during ventilation
. Allow passage of air into the alveoli

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7
Q

Describe the alveoli and their function in the mammalian gaseous exchange system

A

. Mini air sacs, lined with epithelium cells, site of gas exchange
. Walls only one cell thick, covered with a network of capillaries, 300 million in each lung, all of which facilitates gas diffusion

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8
Q

Explain the process of inspiration and the changes that occur throughout the thorax

A

. External intercostal muscles contract (while internal relax), pulling the ribs up and out
. Diaphragm contracts and flattens
. Volume of the thorax increases
. Air pressure outside the lungs is therefore higher than the air pressure inside, so air moves in to rebalance

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9
Q

Explain the process of expiration and the changes that occur throughout the thorax

A

. External intercostal muscles relax (while internal intercostal muscles contract), bringing the ribs down and in
. Diaphragm relaxes and domes upwards
. Volume of the thorax decreases
. Air pressure inside the lungs is therefore higher than the air pressure outside, so air moves out to rebalance

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10
Q

What does a spirometer used for?

A

It is used to measure lung volume

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11
Q

How does a spirometer work?

A

A person breathes into an airtight chamber which leaves a trace on a graph which shows the volume of the breaths

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12
Q

Define vital capacity

A

The maximum volume of air that can be taken in or expelled from the lungs in one breath. Can be calculated from the spirometer graph by finding the maximum amplitude

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13
Q

Define tidal volume

A

The volume of air we breathe in and out during each breath at rest. Can be calculated from the spirometer graph by finding the amplitude at rest

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14
Q

Define breathing rate

A

The number of breaths we take per minute. Can be calculated from the spirometer graph by counting the number of peaks in one minute

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15
Q

Name and describe the two main features of a fish’s gas transport system

A

Gills = located within the body, supported by arches, multiple projections of gill filaments which are stacked up in piles
Lamellae = at right angles to the gill filaments, give an increased surface area. Blood and water flow across them in opposite directions (countercurrent exchange system)

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16
Q

Explain the process of gas exchange in fish

A

. Buccal cavity volume increased to enable water to flow in, reduced to increase pressure
. Water is pumped over the lamellae by the operculum, oxygen diffuses into the bloodstream
. Waste carbon dioxide diffuses into the water and flows back out the gills

17
Q

How does the countercurrent exchange system maximise oxygen absorbed by the fish?

A

Maintains a steep concentration gradient, as water is always next to blood of a lower oxygen concentration. Keeps rate of diffusion constant and enables 80% of available oxygen to be absorbed.

18
Q

Name and describe the three main features of an insect’s gas transport system.

A

. Spiracles = holes on the body’s surface which may be opened or closed by a valve for gas or water exchange
. Trachea = large tubes extending through all body tissues, supported by rings to prevent collapse
. Tracheoles = smaller branches dividing off the tracheae

19
Q

Explain the process of has exchange in insects

A

. Gases move in and out of the tracheae through the spiracles
. A diffusion gradient allows oxygen to diffuse into the body tissue while waste CO2 diffuse out
. Contraction of muscles in the tracheae allows mass movement of air in and out