Year 9 Biology Promotional Exam Study Guide
π BIOLOGICAL MOLECULES & NUTRITION
Key Definitions
- Balanced Diet: A diet containing all main nutrients in correct amounts and proportions to maintain good health
- Malnutrition: Result of not eating a balanced diet - wrong amounts, incorrect proportions, or lacking key nutrients
- Monosaccharide: Simple sugar (e.g., glucose)
- Disaccharide: Two simple sugars joined (e.g., maltose)
- Polysaccharide: Many simple sugars joined (e.g., starch, glycogen, cellulose)
The Big Three Organic Molecules
- CARBOHYDRATES π
- Made of carbon, hydrogen, oxygen
- Function: Energy source
- Examples: Glucose β Maltose β Starch/Glycogen/Cellulose
- PROTEINS π₯©
- Made of amino acids (20 different types)
- Function: Growth, repair, enzymes
- Structure: Amino acids β Polypeptide chains β Proteins
- LIPIDS π§
- Made of glycerol + 3 fatty acids = Triglyceride
- Function: Energy storage, insulation, cell membranes
- Types: Fats (solid) vs Oils (liquid)
Food Tests (Remember Colors!)
| Nutrient | Test | Starting Color | Positive Result |
|---|
| Glucose | Benedict's | Blue | Orange/Brick Red |
| Starch | Iodine | Orange-Brown | Blue-Black |
| Protein | Biuret | Blue | Violet/Purple |
| Lipids | Ethanol | Clear | Cloudy Emulsion |
| Vitamin C | DCPIP | Blue | Colorless |
Malnutrition Effects
- Obesity: Too much food
- Coronary Heart Disease: Too much saturated fat β cholesterol buildup
- Starvation: Too little food
- Kwashiorkor: Protein deficiency in children (edema, skin problems)
π± GROWTH & DEVELOPMENT
Key Definitions
- Growth: Increase in size and mass
- Development: Changes in complexity and function over time
- Embryo: Early stage of organism development
Growth Process
- Single cell β Cell division β Embryo β Baby β Adult
- Cells contain protein (need protein for growth)
- Energy needed for cell division
- Growth continues until 18-20 years old
Development Stages
- 0-1 year: Infant
- 2-4 years: Toddler
- 4-11 years: Child
- 12-17 years: Adolescent
- 18+ years: Adult
Exercise Benefits
- Uses energy (prevents fat storage)
- Strengthens heart and muscles
- Improves mental health
Smoking Dangers
- Nicotine: Addictive, damages blood vessels, heart disease
- Tar: Causes cancer (lung, throat, etc.)
- Carbon Monoxide: Reduces oxygen transport, less energy
- Particulates: Damage alveoli, breathing problems
π ECOLOGY & ENVIRONMENT
Key Definitions
- Ecosystem: Community of organisms + their physical environment
- Biodiversity: Variety of species in an ecosystem
- Habitat: Place where organism lives
- Population: All organisms of same species in an area
- Community: All populations in an area
Ecological Hierarchy
Individual β Population β Community β Ecosystem
Abiotic vs Biotic Factors
Abiotic (Non-living):
- Light intensity
- Temperature
- Moisture
- Soil pH
- Mineral content
Biotic (Living):
- Food availability
- Predators
- Pathogens
- Competition
Food Chains & Energy Transfer
Trophic Levels:
- Producers (plants/algae) - make own food
- Primary consumers (herbivores)
- Secondary consumers (carnivores)
- Tertiary consumers (apex predators)
- Decomposers (bacteria/fungi)
Energy Transfer Rules:
- Only 10% energy passes to next level
- 90% lost as heat, movement, waste
- Explains why food chains are short
Cycles in Nature
Carbon Cycle:
- COβ removed by photosynthesis
- COβ added by respiration, combustion, decomposition
Nitrogen Cycle:
- Nβ gas β Nitrates (by bacteria/lightning)
- Plants absorb nitrates
- Decomposers break down proteins β ammonia β nitrates
π HUMAN ENVIRONMENTAL IMPACT
Air Pollution
Sulfur Dioxide:
- Source: Burning fossil fuels
- Effects: Acid rain, kills aquatic life, corrodes buildings
Carbon Monoxide:
- Source: Incomplete combustion
- Effects: Binds to hemoglobin, reduces oxygen transport
Greenhouse Effect
Greenhouse Gases: COβ, methane, water vapor, nitrous oxide, CFCs
Effects: Global warming, climate change, rising sea levels, habitat loss
Water Pollution
Sewage:
- Bacteria use oxygen for decomposition
- Algae bloom blocks sunlight
- Result: Oxygen depletion, fish death
Eutrophication:
- Fertilizers β algae bloom β oxygen depletion
Deforestation Effects
- Soil erosion (no root structure)
- Leaching of nutrients
- Disrupted water/carbon cycles
- Loss of biodiversity
- Climate change
π¦ ENVIRONMENTAL PROBLEMS
Invasive Species
Definition: Non-native organisms that disrupt ecosystems
Characteristics: Rapid reproduction, high dispersal, no natural predators
Examples: Zebra mussel, Cane toad, Kudzu
Bioaccumulation
Definition: Build-up of toxic substances in organisms
Process: Toxins absorbed faster than eliminated
Examples: DDT, mercury, lead
Effects: Biomagnification up food chain
Ozone Depletion
Cause: CFCs destroy ozone molecules
Effects: Increased UV radiation, skin cancer, cataracts
Desertification
Definition: Fertile land becomes desert
Causes: Overgrazing, deforestation, poor farming
Effects: Loss of biodiversity, food insecurity
Bush Burning
Causes: Hunting, farming, construction, accidents
Effects: Destroys soil organic matter, erosion, extinctions
πΎ RESOURCES FROM LIVING THINGS
Plant Resources
Food Crops: Vegetables, fruits, grains, tubers
Cash Crops: Cotton, oil palm, cocoa, coffee
Others: Medicinal plants, timber, ornamental plants
Animal Resources
Food: Meat, eggs, dairy products
Materials: Hide, skin, bones, horns, feathers
Services: Beasts of burden, pets, manure
Economic Importance
- Food security
- Raw materials for industry
- Employment opportunities
- Income generation
- Tourism (zoos, parks)
𧬠DNA STRUCTURE (Extended)
DNA Basics
- Full name: Deoxyribonucleic acid
- Structure: Double helix (two strands)
- Function: Contains genetic instructions
Nucleotide Components
- Phosphate group
- Deoxyribose sugar
- Nitrogenous base (A, T, G, C)
Base Pairing Rules
- Adenine (A) pairs with Thymine (T)
- Guanine (G) pairs with Cytosine (C)
DNA Structure
- Phosphate + sugar = backbone
- Base pairs = rungs of ladder
- Hydrogen bonds hold strands together
π― EXAM SUCCESS TIPS
Remember for Food Tests
Always state BOTH starting color AND positive result color!
Energy Transfer
10% rule: Only 10% energy transfers between trophic levels
Cycles
Carbon cycle: Photosynthesis removes COβ, respiration adds COβ
Nitrogen cycle: Bacteria convert Nβ to nitrates for plants
Environmental Impact
Human activities β pollution β ecosystem damage β need for conservation
Key Processes
- Photosynthesis: COβ + HβO β glucose + Oβ
- Respiration: glucose + Oβ β COβ + HβO + energy
Good luck with your promotional exam! Remember to read questions carefully and use specific scientific terminology in your answers.