Biology (Unit 2) R#1

Question 1

What are the two types of vascular tissues in plants?

Answer 1

Xylem and Phloem.

Question 2

What is the function of the xylem?

Answer 2

It transports water and mineral ions from roots to leaves and provides structural support.

Question 3

What is the function of the phloem?

Answer 3

It transports sucrose and amino acids from leaves to the rest of the plant (translocation).

Question 4

How does water enter root hair cells?

Answer 4

By osmosis, from high water potential in the soil to lower water potential in the root.

Question 5

How are mineral ions absorbed by root hair cells?

Answer 5

By active transport, using energy.

Question 6

What are the adaptive features of root hair cells? (3 points)

Answer 6

1. Large surface area for faster absorption.
2. Thin walls for a short diffusion distance.
3. Large number of mitochondria to produce energy for active transport.

Question 7

What is transpiration?

Answer 7

The evaporation of water from the spongy mesophyll cells and its diffusion out through the stomata.

Question 8

Why is transpiration important?

Answer 8

• Cools down the plant.
• Creates a transpiration pull (suction) that helps transport water and minerals from root to leaf.

Question 9

How does temperature affect transpiration?

Answer 9

Higher temperatures increase kinetic energy of particles, leading to faster evaporation and increased transpiration.

Question 10

How does light intensity affect transpiration?

Answer 10

Higher light intensity keeps stomata open longer, allowing more water to escape, increasing transpiration.

Question 11

How does wind affect transpiration?

Answer 11

Wind removes water particles near the stomata, maintaining a steep concentration gradient and increasing transpiration.

Question 12

How does humidity affect transpiration?

Answer 12

High humidity reduces the concentration gradient, leading to lower transpiration rates.

Question 13

What is a mass potometer used for?

Answer 13

To measure the mass decrease of water due to transpiration over time.

Question 14

What is a bubble potometer used for?

Answer 14

To measure the distance an air bubble moves in a capillary tube over time, indicating the rate of water uptake.

Question 15

What is the purpose of the reservoir in a bubble potometer?

Answer 15

It resets the bubble’s position for repeated measurements.

Question 16

Why do large animals need a transport system?

Answer 16

They have a small surface area to volume ratio and large distances between organs, making diffusion too slow for oxygen and glucose to reach all cells efficiently.

Question 17

What are the three main types of blood vessels?

Answer 17

Arteries, veins, and capillaries.

Question 18

What are the structural adaptations of arteries?

Answer 18

1. Thick walls to withstand high pressure.
2. Elastic fibers to stretch and recoil.
3. Narrow lumen to maintain high pressure.

Question 19

What are the structural adaptations of veins?

Answer 19

1. Thin walls to be squeezed by skeletal muscles.
2. Wide lumen to decrease resistance.
3. Valves to prevent backflow of blood.

Question 20

What are the structural adaptations of capillaries?

Answer 20

1. Thin walls for a short diffusion distance.
2. Pores between cells for rapid gas exchange.

Question 21

Describe the pathway of blood circulation in the body.

Answer 21

Vena cava → Right atrium → Right ventricle → Pulmonary artery → Lungs → Pulmonary vein (oxygenated blood) → Left atrium → Left ventricle → Aorta → Body organs → Veins (deoxygenated blood) → Vena cava.

Question 22

What are the two types of heart valves and their locations?

Answer 22

Atrioventricular valves (in heart chambers):
* Tricuspid valve: Between the right atrium and ventricle.
* Bicuspid valve: Between the left atrium and ventricle.

Semi-lunar valves: At the start of arteries.

Question 23

What is the function of the septum?

Answer 23

It prevents the mixing of oxygenated and deoxygenated blood.

Question 24

What happens if there is a hole in the septum?

Answer 24

Oxygenated and deoxygenated blood mix, decreasing oxygen levels, leading to less aerobic respiration and less energy production.

Question 25

Why does the left ventricle have thicker walls than the right ventricle?

Answer 25

* The left ventricle pumps blood at high pressure to the whole body * The right ventricle pumps at lower pressure to the lungs to prevent damage.

Question 26

How does exercise affect heart rate?

Answer 26

During exercise, heart rate increases to pump more blood carrying oxygen and glucose to muscles for increased aerobic respiration, providing energy for muscle contraction.

Question 27

How do you measure heart rate?

Answer 27

Press your middle and index fingers on an artery (e.g., wrist or neck), count beats for one second, multiply by 2, and take an average of multiple readings.

Question 28

What happens in coronary heart disease?

Answer 28

Cholesterol builds up in coronary artery walls, reducing elasticity, leading to less oxygen reaching the heart muscle, decreasing aerobic respiration and increasing anaerobic respiration, lactic acid buildup, and potential heart attack.

Question 29

What are the risk factors for CHD?

Answer 29

* Smoking * Stress * Obesity * Lack of exercise * High consumption of animal fats in diet

Question 30

What does plasma transport?

Answer 30

* Nutrient molecules from intestines to body cells. * Hormones from glands to target organs. * CO₂ from cells to lungs. * Waste (urea) from liver to kidney.

Question 31

What is the function and adaptations of red blood cells?

Answer 31

Function: * Transport oxygen. Adaptations: * Biconcave shape for larger surface area and faster diffusion. * No nucleus to maximize space for hemoglobin.

Question 32

What are the two types of white blood cells and their functions?

Answer 32

Phagocytes: * Engulf and digest pathogens using enzymes (phagocytosis) and absorb their products. Lymphocytes: * Produce antibodies that bind to specific antigens. * Label pathogens for phagocytosis. * Form memory cells that recognize pathogens upon re-exposure and produce antibodies faster (second immune response).

Question 33

How does vaccination work?

Answer 33

1. Injecting dead or weakened pathogens. 2. Lymphocytes identify the pathogen, produce antibodies, and create memory cells for faster future responses.

Question 34

What are the advantages of blood clotting?

Answer 34

1. Prevents excessive bleeding. 2. Prevents entry of pathogens.

Question 35

What is the mechanism of blood clotting?

Answer 35

* Platelets stick to the edges of the cut blood vessel. * Platelets release enzymes that convert **soluble fibrinogen** into **insoluble fibrin**, forming a mesh that traps blood cells.

Question 36

What is the function of the central nervous system (CNS)?

Answer 36

The CNS (brain and spinal cord) coordinates body responses by processing information from receptors and sending signals to effectors.

Question 37

What is the correct pathway of a nerve impulse?

Answer 37

Stimulus → Receptor → Sensory Neurone → CNS → Motor Neurone → Effector → Response

Question 38

What are receptors?

Answer 38

Cells that receive stimulus and convert it into electric impulses. Light, sound, heat and touch receptors

Question 39

What are effectors?

Answer 39

Tissues that bring up a response. Ex: muscles, glands

Question 40

What is the role of a sensory neurone?

Answer 40

It transmits electrical impulses from receptors to the CNS.

Question 41

What is a synapse?

Answer 41

* A synapse is a small gap between two neurones. * Impulses cross synapses by neurotransmitters.

Question 42

What is a reflex arc?

Answer 42

A rapid, automatic response to stimuli that bypasses the brain for quicker reaction to protect the body from danger.

Question 43

What is the function of a relay neurone?

Answer 43

It connects sensory and motor neurones within the CNS to relay impulses.

Question 44

How do hormones travel in the body?

Answer 44

Hormones are secreted by glands and travel through the bloodstream to target organs.

Question 45

What is the function of adrenaline?

Answer 45

* It prepares the body for "fight or flight" * Increases heart rate, breathing rate, and blood glucose levels. * Dialates pupils for better vision

Question 46

How does insulin regulate blood glucose levels?

Answer 46

Insulin stimulates the liver to convert excess glucose into glycogen for storage.

Question 47

How does hormonal coordination differ from nervous coordination?

Answer 47

* Feature |Nervous |Hormonal * Signal Type|Electrical|Chemical * Speed |Fast |Slow * Transport |Neurone|Blood * Duration |Short |Long-lasting

Question 48

What is the function of the cornea?

Answer 48

It refracts (bends) light to help focus it on the retina.

Question 49

What is the function of the retina?

Answer 49

It contains light receptors (rods & cones) that convert light into electrical impulses.

Question 50

What do rods and cones detect?

Answer 50

* Rods: Black & white vision (dim light). * Cones: Color vision (bright light).

Question 51

What happens to the pupil in bright light?

Answer 51

The pupil constricts (gets smaller) because circular muscles contract and radial muscles relax.

Question 52

What happens to the pupil in dim light?

Answer 52

The pupil dilates (gets larger) because circular muscles relax and radial muscles contract.

Question 53

What happens to the lens when focusing on a distant object?

Answer 53

* Ciliary muscles relax. * Suspensory ligaments tighten. * Lens becomes thinner (less convex).

Question 54

What happens to the lens when focusing on a near object?

Answer 54

* Ciliary muscles contract. * Suspensory ligaments loosen. * Lens becomes thicker (more convex).

Question 55

What is homeostasis?

Answer 55

The regulation of internal conditions to maintain a stable environment.

Question 56

How does the body respond to overheating?

Answer 56

* Sweating: Sweat evaporates, cooling the body. * Vasodilation: Blood vessels widen, increasing heat loss.

Question 57

How does the body respond to overcooling?

Answer 57

* Vasoconstriction: Blood vessels narrow to retain heat. * Shivering: Muscle contractions generate heat. * Hairs stand up: Traps air for insulation.

Question 58

What is tropism?

Answer 58

Tropism is a plant’s growth response to a stimulus, such as light or gravity.

Question 59

What is phototropism?

Answer 59

Phototropism is a plant’s growth response to light.

Question 60

How do plant stems respond to light?

Answer 60

Plant stems bend towards the light, showing **positive phototropism.**

Question 61

What is the advantage of positive phototropism?

Answer 61

It allows more light absorption, leading to increased photosynthesis and growth.

Question 62

Which plant hormone is responsible for phototropism?

Answer 62

Auxins control phototropism by regulating cell elongation.

Question 63

Where are auxins produced?

Answer 63

Auxins are produced at the tip of the stem.

Question 64

What happens to auxins in response to strong directional light?

Answer 64

Auxins diffuse away from the light and accumulate on the shaded side of the stem.

Question 65

How do auxins cause bending towards the light?

Answer 65

Auxins stimulate cell elongation on the shaded side, making the stem bend towards the light

Question 66

What is geotropism?

Answer 66

Geotropism is a plant’s growth response to gravity.

Question 67

How do plant roots respond to gravity?

Answer 67

Roots grow downwards, showing **positive geotropism.**

Question 68

Why is positive geotropism in roots beneficial?

Answer 68

* Anchors the plant securely in the soil. * Helps roots absorb water and mineral ions.

Question 69

What are the main characteristics of sexual reproduction in plants? (6)

Answer 69

Sexual reproduction in plants: * Involves 2 parents * Produces non‑identical offspring * Variation occurs * Gametes are present * Fertilization occurs * Is a slow process.

Question 70

What are the main characteristics of asexual reproduction in plants? (6)

Answer 70

Asexual reproduction in plants: * Involves 1 parent * Produces identical offspring * No variation * No gametes are present, * No fertilization occurs * Is a rapid process

Question 71

What advantages does sexual reproduction offer in plants? (2)

Answer 71

* Sexual reproduction increases variation, which enhances adaptation to changes in the environment * Increases resistance to diseases.

Question 72

What advantages does asexual reproduction offer in plants? (2)

Answer 72

* Asexual reproduction is a rapid process * Since offspring are identical, favourable features are passed on

Question 73

What is the function of the anther in sexual reproduction of plants?

Answer 73

The anther produces pollen, which contains the male gamete.

Question 74

What is the function of the stigma in sexual reproduction of plants?

Answer 74

The stigma receives pollen during pollination.

Question 75

What is the role of the ovary in sexual reproduction of plants?

Answer 75

The ovary contains **ovules**, which house the female gamete.

Question 76

What is pollination in the context of plant sexual reproduction?

Answer 76

Pollination is the transfer of pollen from the anther to the stigma.

Question 77

What are the distinguishing features of insect-pollinated flowers? (5)

Answer 77

Insect-pollinated flowers have: * large bright petals * A sticky stigma * The anther and stigma are inside the flower * They have nectar * Pollen is large and sticky

Question 78

What are the distinguishing features of wind-pollinated flowers? (5)

Answer 78

Wind-pollinated flowers have: * Small dull petals * Feathery stigma * The anther and stigma hang outside the flower * They have no nectar * Pollen is smooth and small

Question 79

What occurs during fertilization in plants? (long)

Answer 79

* Fertilization is the fusion of male and female nuclei to form a zygote. * It begins when pollen lands on the stigma, then the pollen grows a tube down the style, reaches the ovary, and enters the ovule through the micropyle. * Once the ovule is fertilized, it becomes a seed and the ovary becomes a fruit.

Question 80

What role does water play in the germination of a seed?

Answer 80

Water activates enzymes and acts as a medium for chemical reactions necessary for germination.

Question 81

Why is an optimum temperature important for seed germination?

Answer 81

An optimum temperature is necessary for optimum enzyme activity during germination.

Question 82

How does oxygen contribute to seed germination?

Answer 82

Oxygen is required for aerobic respiration, which releases energy for the growing seed.

Question 83

What are examples of asexual reproduction in plants using natural methods?

Answer 83

Natural examples include strawberry runners and potato tubers.

Question 84

What is an artificial example of asexual reproduction in plants?

Answer 84

An artificial example is taking cuttings (note the correct spelling).

Question 85

What is the function of the ovaries?

Answer 85

They form ova by meiosis and secrete oestrogen.

Question 86

What is the function of the fallopian tubes (oviducts)?

Answer 86

They are the site of fertilization.

Question 87

What is the function of the uterus?

Answer 87

It is the site of implantation.

Question 88

What happens to the cervix during childbirth?

Answer 88

It dilates.

Question 89

What is the function of the vagina?

Answer 89

It is involved in copulation and sperm deposition.

Question 90

What are secondary sexual characteristics in females?

Answer 90

* Breast enlargement * Axial and pubic hair * Widening of the pelvis * Beginning of menstruation

Question 91

What hormone is released at the beginning of the menstrual cycle?

Answer 91

FSH (Follicle Stimulating Hormone).

Question 92

What are the functions of FSH?

Answer 92

* Stimulates maturation of ova * Stimulates development of the follicle * Stimulates secretion of oestrogen

Question 93

What are the functions of oestrogen?

Answer 93

* Repairs the uterine lining * Stops FSH secretion

Question 94

What hormone is secreted on day 13 of the cycle?

Answer 94

LH (Luteinizing Hormone).

Question 95

What are the functions of LH?

Answer 95

* Causes ovulation (release of an ovum from the follicle) * Stimulates secretion of progesterone

Question 96

What is the function of progesterone?

Answer 96

It maintains the thickness of the uterine lining.

Question 97

What are the functions of the placenta?

Answer 97

* Gas exchange (oxygen to foetus, CO₂ to mother) * Nutrient transfer (glucose, amino acids) * Excretion

Question 98

What is the function of the umbilical cord?

Answer 98

* Umbilical artery: transports CO₂ and wastes away from foetus * Umbilical vein: transports O₂ and nutrients to the foetus

Question 99

What are the functions of the amniotic sac?

Answer 99

* Acts as a shock absorber * Regulates temperature * Allows foetal movement

Question 100

What is the function of the testis?

Answer 100

* Formation of sperm * Secretion of testosterone

Question 101

What is the function of seminal vesicles and the prostate gland?

Answer 101

Formation of seminal fluid.

Question 102

What is the function of the urethra in males?

Answer 102

Transport of both urine and semen.

Question 103

What are secondary sexual characteristics in males?

Answer 103

* Facial, axial, and pubic hair * Deepening of voice (Coarse deep voice) * Widening of shoulders

Question 104

What are the adaptive features of sperm?

Answer 104

* Nucleus: Contains haploid DNA (23 chromosomes) * Acrosome: Secretes enzymes to digest the egg membrane * Neck: Contains mitochondria to provide energy for movement * Flagellum: Helps in swimming

Question 105

What is excretion?

Answer 105

The removal of metabolic wastes, toxic substances, and substances in excess.

Question 106

Give two examples of metabolic waste.

Answer 106

Urea and carbon dioxide (CO₂).

Question 107

Name a toxic substance excreted by the body.

Answer 107

Alcohol.

Question 108

Name two substances excreted in excess.

Answer 108

Salts and water.

Question 109

What are the three main excretory organs?

Answer 109

Lungs, skin, and kidneys.

Question 110

What do the lungs excrete?

Answer 110

Carbon dioxide (CO₂).

Question 111

What does the skin excrete?

Answer 111

Sweat (water and salts).

Question 112

What does the kidney excrete?

Answer 112

Urine (water, salts, and urea).

Question 113

What is the main function of the urinary system?

Answer 113

To filter blood, remove waste, and regulate water balance.

Question 114

Which blood vessel supplies the kidney with oxygenated blood>

Answer 114

Renal artery.

Question 115

Which blood vessel carries filtered blood away from the kidney?

Answer 115

Renal vein.

Question 116

What tube carries urine from the kidneys to the bladder?

Answer 116

Ureter.

Question 117

What organ stores urine before excretion?

Answer 117

Bladder.

Question 118

Through which structure does urine exit the body?

Answer 118

Urethra.

Question 119

Where are nephrons located in the kidney?

Answer 119

In the cortex of the kidney.

Question 120

What is the function of nephrons?

Answer 120

They filter blood and form urine.

Question 121

Where does ultrafiltration occur?

Answer 121

In the glomerulus inside the Bowman’s capsule.

Question 122

Why does ultrafiltration occur?

Answer 122

Due to high blood pressure in the glomerulus.

Question 123

What substances are in the filtrate after ultrafiltration?

Answer 123

Water, urea, salts, glucose, and amino acids.

Question 124

Why don’t plasma proteins and blood cells pass into the filtrate?

Answer 124

They are too large to pass through the filtration membrane.

Question 125

Where does selective reabsorption take place?

Answer 125

In the proximal convoluted tubule.

Question 126

What substances are reabsorbed into the blood?

Answer 126

Glucose and amino acids.

Question 127

By what process are glucose and amino acids reabsorbed?

Answer 127

Active transport using energy.

Question 128

What is osmoregulation?

Answer 128

The process by which the body controls plasma concentration.

Question 129

What happens to plasma concentration when a person overheats?

Answer 129

Sweating causes plasma to become more concentrated.

Question 130

Which organ detects changes in plasma concentration?

Answer 130

The hypothalamus.

Question 131

What hormone is released to regulate water balance?

Answer 131

ADH (Antidiuretic Hormone).

Question 132

Which gland releases ADH?

Answer 132

The pituitary gland.

Question 133

How does ADH affect the kidney?

Answer 133

It increases the permeability of the collecting duct, allowing more water to be reabsorbed.

Question 134

What happens to urine when ADH levels are high?

Answer 134

The volume of urine decreases, and its concentration increases.

Question 135

Describe the overall structure of DNA.

Answer 135

DNA consists of two strands coiled together to form a double helix.

Question 136

What are the three components of a DNA monomer?

Answer 136

A DNA monomer (nucleotide) consists of: * A sugar (deoxyribose) * A phosphate group * A nitrogenous base.

Question 137

What are the four nitrogenous bases found in DNA?

Answer 137

* Adenine (A) * Thymine (T) * Cytosine (C) * Guanine (G)

Question 138

How do the nitrogenous bases hold the two DNA strands together?

Answer 138

Through base pairing: * Adenine (A) pairs with Thymine (T) * Cytosine (C) pairs with Guanine (G)

Question 139

How many strands does RNA have?

Answer 139

One strand.

Question 140

What type of sugar is found in RNA?

Answer 140

Ribose.

Question 141

What are the four nitrogenous bases found in RNA?

Answer 141

* Adenine (A) * **Uracil (U)** * Cytosine (C) * Guanine (G).

Question 142

Define a gene.

Answer 142

A segment of DNA occupying a specific location on a chromosome that codes for a protein.

Question 143

Define an allele.

Answer 143

Different forms of the same gene.

Question 144

In rats, black fur (B) is dominant to grey fur (b). What does the genotype BB represent?

Answer 144

Homozygous dominant (black fur).

Question 145

In rats, black fur (B) is dominant to grey fur (b). What does the genotype Bb represent?

Answer 145

Heterozygous dominant (black fur).

Question 146

Define a chromosome.

Answer 146

A strand of DNA carrying genes.

Question 147

Define a gene.

Answer 147

A length of DNA on a chromosome that codes for a specific protein (a sequence of bases of DNA that codes for a sequence of amino acids).

Question 148

Define phenotype.

Answer 148

An observable feature of an organism.

Question 149

Define genotype.

Answer 149

The allele combination an organism has (e.g., AA, Aa, or aa).

Question 150

Define a dominant allele.

Answer 150

The form of a gene that is expressed in the phenotype of a heterozygous genotype.

Question 151

Define a recessive allele.

Answer 151

The form of a gene expressed in the phenotype only in the absence of a dominant allele.

Question 152

Define codominance.

Answer 152

* A case where two alleles are neither dominant nor recessive to each other, and both are expressed in the phenotype. * The offspring shows a different phenotype than either parent.

Question 153

Give an example of codominance in human blood groups.

Answer 153

IA = Group A, IB = Group B, IO = Group O.

Question 154

What is polygenic inheritance?

Answer 154

A phenotype controlled by more than one gene, **resulting in continuous variation.**

Question 155

Briefly describe transcription.

Answer 155

DNA unzips and unwinds, and the sequence of bases of DNA is copied into mRNA.

Question 156

Briefly describe translation.

Answer 156

* mRNA leaves the nucleus and attaches to a ribosome in the cytoplasm. * tRNA with an anticodon brings a specific amino acid, and amino acids bind together to form a protein molecule.

Question 157

Define mutation.

Answer 157

A change in the sequence of bases in DNA, resulting in a change in the sequence of amino acids in a protein molecule, causing a change in the shape and function of the protein.

Question 158

How does mutation lead to variation within a species?

Answer 158

Mutation introduces new alleles, which can result in different traits.

Question 159

How does natural selection occur?

Answer 159

Individuals with favorable alleles survive and reproduce at a higher rate, increasing the number of individuals with those alleles in the population.

Question 160

Give an example of natural selection.

Answer 160

The development of antibiotic resistance in bacteria.

Question 161

Describe the key features of mitosis.

Answer 161

Produces 2 daughter cells, which are diploid and identical to the parent cell. | Example: growth/repair.

Question 162

Describe the key features of meiosis.

Answer 162

Produces 4 daughter cells, which are haploid and not identical to the parent cell. | Example: production of gametes.

Question 163

Define population, community, habitat, environment, ecosystem, and biodiversity

Answer 163

1. **Population:** the number of living organisms of the same species living in the same place and time 2. **Community:** different populations in a habitat 3. **Habitat:** a place where living organisms live 4. **Environment:** biotic and abiotic factors 5. **Ecosystem:** interaction between organisms and their environment 6. **Biodiversity:** the measure of the rage of species in an ecosystem

Question 164

How is population size in a habitat (estimate) investigated?

Answer 164

* Select a quadrat of a suitable size (Ex: 1m²) * The quadrat is placed randomly using random generator * Count number of organisms in the quadrat * Repeat and take average * Calculate total estimated number of organisms in habitat *   a. This is done by multiplying the average by the total area

Question 165

What are the effects of biotic and abiotic factors on the distribution of organisms?

Answer 165

**Abiotic factors:** * Temperature * Light intensity * Wind speed * Soil pH **Biotic factors:** * Competition over resources * Availability of nutrition * Predation (predators in ecosystem for species) * Diseases

Question 166

Which diagrams represent energy flow in an ecosystem?

Answer 166

* Food chain: a diagram showing the flow of energy from one organism to the next beginning with a producer 1. Ex: Plant → Primary consumer → Secondary consumer * Food web: a network of interconnected food chains

Question 167

Define producer, consumer, decomposer, herbivore, carnivore, and trophic level

Answer 167

* **Producer:** an organism that makes its own nutrients usually using energy from the sun (photosynthesis) * **Consumer:** an organism that gets its energy by feeding * **Decomposer:** an organism that gets its energy from decomposing dead or waste organic material * **Herbivore:** an animal that gets its energy by eating plants * **Carnivore:** an animal that gets its energy by eating animals * **Trophic level:** the position of an organism in a food chain, food web, or a pyramid of biomass/numbers

Question 168

State and explain the 3 types of ecological pyramids

Answer 168

**Pyramid of numbers:** shows the population of each trophic level **Pyramid of biomass:** shows the biomass (mass) of each trophic level **Pyramid of energy:** shows the energy transferred from one trophic level to the next 1. Only 10% is transferred between each trophic level 2. Energy is lost in the form of heat, and in the 8 life processes

Question 169

What processes occur in the carbon cycle?

Answer 169

* **Combustion:** fossil fuels and plants can be burnt for fuel releasing carbon dioxide into the atmosphere * **Decomposition:** bacteria/fungi convert complex molecules (waste/dead organic) into carbon dioxide * **Photosynthesis:** takes in carbon dioxide, so less carbon dioxide in atmosphere * **Respiration:** releases carbon dioxide to the atmosphere * **Feeding:** animals eat plants/other organisms * **Incomplete decomposition and fossilisation:** leads to formation of fossil fules

Question 170

What processes occur in the nitrogen cycle, and what organisms preform them?

Answer 170

* **Nitrification:** nitrifying bacteria oxidise the ammonia to nitrites, then to nitrates * **Denitrification:** denitrifying bacteria: convert nitrates in the soil to nitrogen * **Nitrogen Fixation:** nitrogen fixing bacteria convert nitrogen to ammonia * **Decomposers:** produce ammonia from nitrogen in proteins in dead organisms * **Lightning:** nitrogen fixation by nitrogen in air (Harber process)

Question 171

What human influences affect the environment regarding pollution?

Answer 171

**Pollution by sulfur dioxide:** * Sulfur dioxide reacts with water vapour to form acid rain * Acid rain increases the acidity of lakes and soil, this leads to death of fish and plants * Acid rain leads to erosion of buildings * Inhalation of sulfur dioxide causes asthma and lung damage **Pollution by carbon monoxide:** * Reacts with haemoglobin in the blood to form carboxyhaemoglobin which decreases the concentration of oxygen in the blood

Question 172

What are the greenhouse gases and how does the greenhouse gas effect work?

Answer 172

**Greenhouse gases:** * **Water vapour:** naturally exists * **Carbon dioxide:** burning fuels / In car exhausts * **Nitrous oxides:** fertilizers / Cattle waste / At high temperatures in car engines * **Methane:** released from cattle (livestock) / In rice paddy fields) * **CFCs:** when fridges are disposed of (they are used in fridges) / Aerosol sprays **Greenhouse gas effect:** Greenhouse gases form a layer of impenetrable gasses that trap the Sun’s radiation in the Earth’s atmosphere causing global warming

Question 173

What are the consequences of global warming?

Answer 173

1. Habitat destruction 2. Climate changes 3. Migration of animals 4. Extinction of animals

Question 174

What are the causes of eutrophication and sewage pollution?

Answer 174

* Overuse of fertilizers * Sewage disposal in water

Question 175

What is the process of eutrophication?

Answer 175

* Leaching of mineral ions into rivers and lakes * Overgrowing of algae (algal bloom) blocks sunlight * Underwater plants don’t photosynthesise and die * Increase in number of decomposers consuming O₂ in water causing death of fish

Question 176

What is the relation between sewage pollution and eutrophication?

Answer 176

* Sewage contains microorganisms which will consume O₂ causing death of fish * Sewage contains nutrients that will cause algal bloom

Question 177

What are the effects of deforestation?

Answer 177

* Leaching * Soil erosion as the roots of trees hold soil together * Less transpiration, so less water vapour in air, so less rain * Imbalance of CO₂ and O₂ in the atmosphere * Destruction of habitats and extinction of animals

Question 178

What three factors limit the rate of photosynthesis in crops grown in controlled environments?

Answer 178

* Temperature: Higher temperatures increase the reaction rate as particles gain kinetic energy, speeding up enzyme-catalyzed reactions. * Light intensity: Increased light boosts the rate of photosynthesis. * Carbon dioxide concentration: More CO₂ speeds up photosynthesis.

Question 179

How are temperature, light intensity, and CO₂ concentration controlled in glasshouses?

Answer 179

* Temperature: Artificial heaters are used to reach optimum levels. * Light intensity: Artificial lighting supplements natural light. * Carbon dioxide: CO₂ levels are increased by burning paraffin wax.

Question 180

What additional environmental factor should be controlled in glasshouses besides temperature, light, and CO₂?

Answer 180

Humidity control is crucial. Maintaining optimal humidity helps manage transpiration rates and prevents fungal diseases

Question 181

What benefits do polythene tunnels provide in outdoor crop production (3 points)?

Answer 181

* Protect crops from harsh weather (rain, wind, high temperatures). * Prevent the entry of pests. * Slightly increase the internal temperature.

Question 182

Why are fertilizers used in agriculture and what are some common examples (4 points)?

Answer 182

**Purpose:** To increase crop yield by providing essential nutrients. **Examples:** * Nitrates: For amino acid and protein synthesis. * Potassium: To strengthen plants and boost disease resistance. * Phosphorus: Important for ATP production and enzyme synthesis. * Magnesium: Needed for chlorophyll production.

Question 183

What ecological problem can result from the overuse of fertilizers?

Answer 183

Overuse can lead to **eutrophication**, which disrupts aquatic ecosystems.

Question 184

What are the main types of pests that can reduce crop yield (3 types)?

Answer 184

* Insects and animals that eat crops. * Weeds that compete for nutrients, water, and space. * Fungi that infect and cause diseases in crops.

Question 185

What are the two main approaches to controlling pests in agriculture?

Answer 185

* Chemical Control: Using pesticides such as insecticides, herbicides, and fungicides. * Biological Control: Introducing natural predators or competitive species to control pests.

Question 186

What are the types of pesticides and their primary effects on pest populations (3 advantages)?

Answer 186

* Insecticides: Kill insect pests. * Herbicides: Kill plant pests (weeds). * Fungicides: Kill fungal pests **Advantages:** 1. They can kill the entire pest population 2. Are inexpensive and easily accessible 3. Have immediate effect

Question 187

What are the disadvantages of using chemical pesticides (4 points)?

Answer 187

1. They are non-selective, affecting both harmful and beneficial organisms. 2. Require repeated application. 3. Pests may develop resistance over time. 4. They accumulate in food chains (bioaccumulation)

Question 188

What advantages does biological control offer over chemical pesticides (4 points)?

Answer 188

1. It is specific to the pest species. 2. Effects are long-lasting without needing reapplication. 3. No resistance develops in pests. 4. There is no bioaccumulation or pollution.

Question 189

What are the disadvantages of biological control methods (3 points)?

Answer 189

1. They do not completely eliminate the pest species. 2. They may disturb the existing food chain. 3. They take longer to show effectiveness.

Question 190

Describe the role of yeast in the production of bread. (4 points)

Answer 190

1. Yeast performs **anaerobic respiration**, producing ethanol and carbon dioxide. 2. Enzymes from yeast break down starch into glucose for energy. 3. The produced CO₂ is trapped in dough, causing it to rise. 4. During baking, ethanol evaporates and yeast dies due to high temperatures.

Question 191

How does lactobacillus contribute to yoghurt production (4 points)?

Answer 191

1. Equipment is sterilized, and milk is pasteurized to eliminate competing bacteria. 2. After cooling, lactobacillus is added to ferment lactose into lactic acid. 3. The increase in acidity causes the milk to clot and form yoghurt. 4. Cooling the yoghurt stops the fermentation process.

Question 192

What is an industrial fermenter and what conditions are controlled within it (6 points)?

Answer 192

**Industrial fermenter:** A container used to culture large quantities of microorganisms (bacteria and fungi). **Controls include:** 1. Aseptic precautions: Sterilization by steam. 2. Agitation: Stirring for even distribution of nutrients, heat, and organisms. 3. Temperature: Monitored by probes and regulated via a water jacket. 4. pH: Controlled with probes and buffer solutions. 5. Oxygenation: Ensuring sufficient O₂ for aerobic respiration. 6. Nutrition: Supply of essential nutrients and ammonia

Question 193

What measures are taken to ensure high yields in fish farming (7 points)?

Answer 193

1. Water quality: Use of filters and regular oxygen pumping. 2. Predation control: **Intraspecific:** Separating small and large fish. **Interspecific:** Using nets to prevent predation by other species. 3. Disease management: Adding antibodies. 4. Feeding: Providing food in small, regular amounts. 5. Waste management: Regular cleaning of tanks, nets, and fences. 6. Selective breeding: Using fish with desired traits for reproduction.

Question 194

What are the environmental concerns associated with fish farming?

Answer 194

Fish farming can lead to water pollution and may spread diseases to wild populations if not managed properly.

Question 195

What is selective breeding and how is it carried out (in animals & plants)?

Answer 195

**Definition:** Choosing individuals with desired traits to breed, then selecting offspring with those traits over many generations. **Application:** * **In plants:** Select and cross plants with favorable characteristics while preventing undesired ones from reproducing. * **In animals:** Choose and breed animals with desired traits, then select the best offspring for further breeding.

Question 196

What is genetic engineering and what is its main objective?

Answer 196

**Definition:** Modifying an organism’s genome by introducing a gene from another species to give a desired characteristic. **Goal:** To enhance traits such as crop yield, pest resistance, and nutritional value.

Question 197

Define transgenic, restriction enzymes, and ligase enzymes.

Answer 197

* Transgenic: The transfer of genetic material from one species to another. * Restriction enzymes: Enzymes that cut DNA at specific sites. * Ligase enzymes: Enzymes that join pieces of DNA together.

Question 198

How are genetically modified bacteria used to produce human proteins like insulin (4 points)?

Answer 198

1. The human insulin gene is cut with a restriction enzyme. 2. A bacterial plasmid is also cut using the same enzyme. 3. Ligase enzyme joins the human insulin gene with the plasmid, forming recombinant DNA. 4. The plasmid acts as a vector to transfer the insulin gene into bacteria, which then reproduce in a fermenter to produce insulin.

Question 199

What benefits do genetically modified crops offer (3 points)?

Answer 199

* Increased crop yield. * Enhanced resistance to pests and herbicides. * Ability to produce additional vitamins (e.g., golden rice rich in vitamin A).

Question 200

What is micropropagation and how is it performed (5 points)?

Answer 200

**It is plant cloning** **Process:** 1. Sterilize a Petri dish. 2. Use a scalpel to cut an explant from a plant with desired traits. 3. Transfer the explant into an agar gel containing auxins and nutrients. 4. Provide light and water to stimulate growth. 5. The explant develops roots and grows into a complete plant, producing many identical copies.

Question 201

What are the stages involved in cloning a mammal (4 points)?

Answer 201

1. Remove a diploid nucleus from a body cell. 2. Enucleate an ova (remove its nucleus). 3. Insert the diploid nucleus into the enucleated ova and stimulate it (often by an electric shock) to start dividing into an embryo by mitosis. 4. Implant the embryo into the uterus of a surrogate mother.

Question 202

What is pharming and how is it achieved using cloned transgenic animals (definition, steps, and example)?

Answer 202

**Pharming:** The process of producing useful human proteins by using transgenic animals. **Steps:** 1. Create a transgenic animal with a gene that causes it to produce a desired compound (e.g., in its milk). 2. Clone the animal to form a herd or flock, ensuring all individuals produce the same compound. **Examples:** Production of antibodies for cancer therapy or blood clotting factor IX for haemophilia.

Question 203

What are the benefits of using cloned transgenic animals in biotechnology (3 points)?

Answer 203

1. They produce genetically identical offspring. 2. Large numbers of clones can be generated quickly. 3. They can be used to produce organs for transplant and other therapeutic compounds.