Hormones

Question 1

ADH

Answer 1

Anti-Diuretic Hormone.

Produced in the Brain - controls water content of the body (osmoregulation) reabsorbed by the Kidneys.

Question 2

Auxins

Answer 2

Plant hormones that control cell elongation.


Question 3

Capillaries

Answer 3

Small, permeable blood vessels

• present in bodily organs that allow the diffusion of substances like O2 and glucose.


Question 4

Cortex

Answer 4

The outer layer of the Kidney

• between the Renal Medulla and Renal Capsule.


Question 5

Glycogen

Answer 5

Storage of carbs in the liver.

Can be broken down to glucose when sugar reserves are low.


Question 6

Homeostasis

Answer 6

This is the body maintaining a constant internal environment in response to changes inside and outside

Needed for the proper functioning of Cells and Enzymes.


Question 7

Insulin

Answer 7

Hormone produced in the Pancreas that decreases Blood Glucose levels.


Question 8

Medulla 


Answer 8

Inner part of the Kidney.

Question 9

Nervous System

Answer 9

Body system

Includes; Brain, Spinal Cord and Nerves.

Question 10

Oestrogen

Answer 10

Female Sex Hormone

• produced in the ovaries; responsible for Puberty in girls and the regulation of the Menstrual Cycle.


Question 11

Osmoregulation

Answer 11

A homeostatic process that controls the amount of water in body fluids (e.g. blood).

Question 12

Osmosis

6 marks

Answer 12

Diffusion of water molecules from a dilute (high) to a more concentrated (low) solution across a semi-permeable membrane - in & out of Cells

Area of high to low concentration- down a gradient.

Question 13

Pancreas

Answer 13

Organ that monitors Blood Glucose concentrations and produces Insulin.


Question 14

Phototropism 


Answer 14

The response of a plant to light.

Question 15

Renal Artery 


Answer 15

Carries Blood to the Kidneys.

Question 16

Respiration 


Answer 16

Series of chemical reactions that happen in every living cell

• to release energy from Food Molecules.

Question 17

Single Circulatory System

Answer 17

Found in Fish

Heart consists of 1 Atria + 1 Ventricle.
- Blood is pumped to the gills to become oxygenated.

Question 18

Testosterone 


Answer 18

Male Sex Hormone

• produced in the Testes; responsible for puberty in boys.

Question 19

Hormones

Answer 19

Chemical messengers released by Glands into the Blood and carried to specific organ(s).

Question 20

What acts slower than the Nervous System?

Answer 20

Hormones

Example; Sex hormones (testosterone and oestrogen) act over years.

Question 21

What plays a role in Homeostasis?

Answer 21

Hormones

Question 22

2 examples of Hormones in the Homeostatic role:

Explained

Answer 22

Insulin – controlling blood glucose concentrations.

ADH – controlling the water content of the body, referred to as osmoregulation.

Question 23

2 examples of Hormones in the Homeostatic role:

Simplified

Answer 23

Insulin

ADH

Question 24

Glucose is needed in blood to?

Answer 24

Supply cells with glucose for respiration.

Question 25

Blood glucose concentrations too high =

Answer 25

Cells damaged due to a loss of water by osmosis.

Question 26

The pancreas continually monitors what?

Answer 26

Level of glucose in blood.

Question 27

How insulin works

Answer 27

Normal blood glucose concen. + meal high in carb is eaten.

Blood glucose (BG) concen. increases as glucose is absorbed from the ileum.

Pancreas makes insulin after detecting BG increase.

Insulin acts in the liver to reduce BG concen.

Normal BG concen. restored.

Question 28

Insulin acts in the liver to reduce blood glucose concentration by:

Answer 28

Increasing glucose absorption from the blood by the liver and muscles;

* converting excess glucose to glycogen which is stored mainly in liver but also muscle;
* increasing respiration in the liver.

Question 29

When blood glucose concentrations are low

Answer 29

Less insulin is produced + processes do not take place or slow down.

Question 30

Low blood glucose levels helps raise

Answer 30

Concentration of glucose in the blood.

Question 31

Normal BG concent. -> Eat high carb meal =

Answer 31

BG increases as Glucose is absorbed from Ileum

• > Pancreas makes Insulin after detecting increase
• > Insulin (in Liver) reduces BG concent.
• > Normal BG concent. restored

Question 32

Negative Feedback

Answer 32

Mechanism to ensure the concentration of a substance does not deviate too far from normal.

Usually involves a hormone and continual monitoring of the substance being controlled.

Question 33

Why is - the mechanism to ensure the concentration of a substance does not deviate too far from normal - known as Negative Feedback

Answer 33

Because an increase in hormone decreases the substance being controlled.

Question 34

Example of Negative Feedback in Human Organs

Answer 34

Pancreas adjusting amount of insulin it makes depending on the BG concentration.

Question 35

Example of Negative Feedback in Hormones

Answer 35

Increase in insulin decreases blood glucose concentration.

Question 36

Increase in insulin =

Answer 36

Decrease in BG concentration.

Question 37

Pancreas adjusting the amount of insulin it makes depending on the BG concentration.

Answer 37

Example of Negative Feedback

Question 38

Diabetes

Answer 38

Underproduction of insulin needed to control BG concentration.

Question 39

Symptoms of Diabetes

Answer 39

• Glucose in the urine
• High blood glucose levels
• Being thirsty
• Overactive bladder/need to pee a lot
• Lethargy

Question 40

Why Diabetics find Glucose in the urine

Answer 40

BG concentration is so high that some is filtered out by the kidneys and passed into the urine.

Question 41

Lethargy

Answer 41

Feeling tired/having low energy

Question 42

When does Type 1 Diabetes typically develop?

Answer 42

Childhood

Question 43

When does Type 2 diabetes typically develop?

Answer 43

Geriatric/senior years

Question 44

Progressive Form of Diabetes

Answer 44

Type 2

Question 45

What is Type 2 Diabetes linked to?

Answer 45

• Poor Diet
• Lack of Exercise
• Obesity

Question 46

Effects of Type 1 Diabetes on the Body

Answer 46

Pancreas stops producing insulin.

Question 47

Effects of Type 2 Diabetes on the Body

Answer 47

Pancreas gradually produces less insulin

• Insulin is less effective.

Question 48

Type 1 Diabetes Treatment

Answer 48

• Control Carb intake

- Injection of insulin

Question 49

Type 2 Diabetes Treatment

Answer 49

• Control Carb intake
• Increase exercise in order to lose weight
• Tablets
• Injection of insulin

Question 50

Future of Type 2 Diabetes

Answer 50

• Increase in No. Of sufferers due to an increase in obesity
• Becoming more common in young people

Question 51

Why are more people being diagnosed with Type 2 Diabetes?

Answer 51

Increase in Obesity

Question 52

More people in this age group are being diagnosed with Diabetes

Answer 52

Young people

Question 53

Hypoglycaemia Causes

Answer 53

• Too much insulin is injected

- Not enough food is eaten regularly

Question 54

What can happen when too much insulin is injected or not enough food is eaten regularly?

Answer 54

BG concentration can drop too low

Hypoglycaemic attack may occur

Question 55

Dangerous Effects of Hypoglycaemic attack

Answer 55

• Unconsciousness/coma

- Death

Question 56

Serious long-term effects can arise if

Answer 56

BG concentrations remain too high over a long period

• if diabetic for a long time or diabetes has been undiagnosed or uncontrolled.

Question 57

Long term effects of Hyperglycaemia

Answer 57

• Eye damage/blindness
• Heart disease
• Stroke
• Kidney damage

Question 58

Causes of Complications due to High BG Concentrations

Answer 58

Damage to the capillaries that supply to that part of the body.

Question 59

Poor control of water in the body (osmoregulation) can lead to…?

Answer 59

Osmotic damage of body cells.

Question 60

How is water gained through drinking lost?

Answer 60

Evaporation in Lungs.

Question 61

How is water gained from eating lost?

Answer 61

Evaporation of sweat.

Question 62

How is water gained from respiration lost?

Answer 62

Production of urine/faeces.

Question 63

In normal conditions; the amount of water gained balances with…?

Answer 63

…the amount lost.

Question 64

Osmoregulation balances…?

Answer 64

Amount of water found in the body; bodily fluids and cells.

Question 65

During exercise water is lost via?

Answer 65

Sweat.

Question 66

Drinking more water increases the amount of…?

Answer 66

Water in the body.

Question 67

During hot weather or exercise/too little water in body

- Osmoregulation Functions:

Answer 67

Kidney releases a small volume of concentrated water

• makes us thirsty so we increase water intake.

Question 68

Too much water in the body;

Osmoregulation Function:

Answer 68

Kidney produces a large volume of dilute urine.

Question 69

More water retained =

Answer 69

Water levels increase.

Question 70

More water is lost =

Answer 70

Water levels decrease.

Question 71

ADH

Answer 71

Anti-diuretic Hormone

Question 72

Reabsorption of water back into the blood (at medulla) is controlled by…?

Answer 72

ADH

Question 73

ADH is produced by

Answer 73

Part of the brain that monitors water levels in the Blood

• from where it is carried to the Kidneys (target organ)

Question 74

Urine

Answer 74

Waste product secreted by Kidneys.

Question 74

Kidney Functions:

Answer 74

• Remove waste from the body

- Osmoregulation

Question 75

How the Kidney works:

Answer 75

• Blood enters Kidney via the Renal Artery.
• Liquid and many dissolved substances are filtered out in the Cortex.
• In Medulla; Water and some of the substances are reabsorbed back into the Blood in a controlled way until normal concentrations are reached.
• Any water and dissolved substances left over pass into the urine, which collects in the renal pelvis.

Question 76

When brain detects lower than normal water levels in the blood;

Answer 76

ADH is produced.

Question 77

Urine passes out from the Bladder to…?

Answer 77

The Urethra

Question 77

ADH Function

Answer 77

Produced after Brain detects lower than normal water levels in blood

• then carried to the Kidneys
  
  • controls reabsorption of water back into the Blood at Medulla

Question 80

Urine passes urine from the Kidney into

Answer 80

The Ureter

Question 81

Urine is stored

Answer 81

In the Bladder.

Question 81

Urine passes from the Ureter into

Answer 81

The Bladder

Question 83

Kidneys

Answer 83

2 bean-shaped organs that filter waste from the blood and produce urine.

Question 84

Ureters


Answer 84

2 thin tubes that take pee from the kidney to the bladder.

Question 85

Bladder

Answer 85

Organ (a sac) that collects urine as it is produced by the kidneys

• released when a mammal urinates.


Question 86

Urethra

Answer 86

Tube that carries urine from the bladder out of the body when you pee.

Question 87

Urinary Tract Order

Answer 87

1. Kidneys
2. Ureters
3. Bladder
4. Urethra

Question 88

Urinary Tract (Order);
Explained

Answer 88

Kidneys: 2 bean-shaped organs that filter waste from the blood and produce urine

Ureters: 2 thin tubes that take pee from the kidney to the Bladder

Bladder: sac that holds pee until it’s time to go to the bathroom

Urethra: tube that carries urine from the Bladder out of the body when you pee

Question 89

In the medulla -

Simplified:

Answer 89

1. ADH causes more water to be reabsorbed from Urine back into Blood.
2. When Brain detects higher than normal water levels in blood = less or no ADH is produced.
3. Less water is reabsorbed back into Blood.
4. Produces larger volume of Dilute Urine and returns Blood Water levels to normal.

Question 90

ADH causes more water to be reabsorbed from the Urine back into the Blood.

This Produces:

Answer 90

Lower volume of more Concentrated Urine and returns blood water levels to normal.

Question 91

When brain detects higher than normal water levels in blood (e.g. from drinking more than normal):

Answer 91

Less or no ADH is produced.

Question 92

Once less or no ADH is produced.

Answer 92

Less water is reabsorbed back into the Blood.

Question 93

Less ADH produced, less water is absorbed into the Blood.

As a result:

Answer 93

The body produces a larger volume of Dilute Urine and returns blood water levels to normal.

Question 94

More ADH, more water reabsorbed into the Blood.

As a result:

Answer 94

Lower volume of more Concentrated Urine and returns blood water levels to normal.

Question 95

Balancing low Blood Water levels, high levels of concentrated urine -

Answer 95

More ADH produced and Osmoregulation occurs;

Less concentrated urine released from body.

More water absorbed into Blood.

Question 96

Balancing high Blood Water levels, low levels of concentrated urine:

Answer 96

Less/no ADH produced and Osmoregulation occurs;

More concentrated urine released from body.

Less water absorbed into Blood.

Question 97

Plants respond to stimuli slowly:

Answer 97

• Roots grow towards water.
• Shoots grow away from gravity.
• Shoots grow towards light (phototropism).

Question 98

How Phototropism works:

Answer 98

• Plant responds to unidirectional light

- Plant shoot bends towards light.

Question 99

Example of Unidirectional Light

Answer 99

Plant on windowsill.

Question 100

Advantages of Phototropism

Answer 100

More light

More photosynthesis

More growth

Question 101

How does a shoot bend towards unidirectional light?

Answer 101

Shoot tip is sensitive to light and produces auxin – if the tip is covered phototropism doesn’t occur.

Light causes the uneven distribution of auxin – it moves downwards and accumulates on the shaded side.

Auxin causes cells on shaded side to elongate faster than on the illuminated side – this is known as differential growth.

Stem bends towards light.

Question 102

If the Shoot tip is covered

Answer 102

Phototropism doesn’t occur.

Question 103

Where is Auxin produced?

Answer 103

Shoot tip

Question 104

What causes the uneven distribution of auxin?

Answer 104

Light

Question 105

Where does more auxin accumulate?

Answer 105

Shaded side of plant.

Question 106

Cells on the shaded side of the plant grow to…?

Answer 106

Be more elongated.

Question 107

Cells on the non-shaded side of the plant grow to…?

Answer 107

A normal length.

Question 108

How does auxin move

Answer 108

Downwards and accumulates on the shaded side.

Question 109

Differential growth

Answer 109

Auxin causes cells on shaded side to elongate faster than on the illuminated side.

Question 110

Stem bends towards…?

Answer 110

The light.