Biology Specification

Topic 1: The Nature and Variety of Living Organisms

(a) Characteristics of Living Organisms

• 1.1 Understand how living organisms share the following characteristics:
  • They require nutrition
  • They respire
  • They excrete their waste
  • They respond to their surroundings
  • They move
  • They control their internal conditions
  • They reproduce
  • They grow and develop

(b) Variety of Living Organisms

• 1.2 Describe the common features shown by eukaryotic organisms:

  Plants:

  • Multicellular organisms
  • Cells contain chloroplasts and carry out photosynthesis
  • Cells have cellulose cell walls
  • Store carbohydrates as starch or sucrose
  • Examples: flowering plants (e.g., maize, peas, beans)

  Animals:

  • Multicellular organisms
  • Cells do not contain chloroplasts and cannot carry out photosynthesis
  • No cell walls
  • Usually have nervous coordination and can move
  • Often store carbohydrate as glycogen
  • Examples: mammals (e.g., humans), insects (e.g., housefly, mosquito)

  Fungi:

  • Cannot carry out photosynthesis
  • Body organized into mycelium made from thread-like hyphae
  • Some examples are single-celled
  • Cells have walls made of chitin
  • Feed by saprotrophic nutrition
  • May store carbohydrate as glycogen
  • Examples: Mucor, yeast

  Protoctists:

  • Microscopic single-celled organisms
  • Some like Amoeba have animal-like features
  • Others like Chlorella have chloroplasts and are plant-like
  • Pathogenic example: Plasmodium (causes malaria)
• 1.3 Describe the common features shown by prokaryotic organisms (bacteria):
  • Microscopic single-celled organisms
  • Have cell wall, cell membrane, cytoplasm and plasmids
  • Lack nucleus but contain circular chromosome of DNA
  • Some can photosynthesize, most feed off other organisms
  • Examples: Lactobacillus bulgaricus (yoghurt production), Pneumococcus (causes pneumonia)
• 1.4 Understand the term 'pathogen':
  • Pathogens may include fungi, bacteria, protoctists and viruses

  Viruses:

  • Not living organisms
  • Small particles, smaller than bacteria
  • Parasitic, reproduce only inside living cells
  • Have protein coat and contain DNA or RNA
  • Examples: tobacco mosaic virus, influenza virus, HIV

Topic 2: Structure and Functions in Living Organisms

(a) Level of Organisation

• 2.1 Describe the levels of organisation in organisms:
  • Organelles → Cells → Tissues → Organs → Systems

(b) Cell Structure

• 2.2 Describe cell structures:
  • Nucleus
  • Cytoplasm
  • Cell membrane
  • Cell wall
  • Mitochondria
  • Chloroplasts
  • Ribosomes
  • Vacuole
• 2.3 Describe the functions of cell structures:
  • All structures listed above
• 2.4 Know the similarities and differences in the structure of plant and animal cells

(c) Biological Molecules

• 2.7 Identify chemical elements present in:
  • Carbohydrates
  • Proteins
  • Lipids (fats and oils)
• 2.8 Describe structure of biological molecules:
  • Starch and glycogen from simple sugars
  • Protein from amino acids
  • Lipid from fatty acids and glycerol
• PRACTICAL: Investigate food samples for presence of glucose, starch, protein and fat
• 2.10 Understand the role of enzymes as biological catalysts in metabolic reactions
• 2.11 Understand how temperature changes affect enzyme function, including changes to active site shape
• PRACTICAL: Investigate how enzyme activity is affected by changes in temperature
• 2.13 Understand how enzyme function is affected by pH changes altering the active site

(d) Movement of Substances Into and Out of Cells

• 2.15 Understand the processes of:
  • Diffusion
  • Osmosis
  • Active transport
• 2.16 Understand how factors affect rate of movement of substances:
  • Surface area to volume ratio
  • Distance
  • Temperature
  • Concentration gradient
• PRACTICAL: Investigate diffusion and osmosis using living and non-living systems

(e) Nutrition

Flowering Plants

• 2.18 Understand photosynthesis and its importance in converting light energy to chemical energy
• 2.19 Know word equation and balanced chemical symbol equation for photosynthesis
• 2.20 Understand how these affect rate of photosynthesis:
  • Carbon dioxide concentration
  • Light intensity
  • Temperature
• 2.21 Describe structure of leaf and explain adaptations for photosynthesis
• 2.22 Understand plants require mineral ions:
  • Magnesium ions for chlorophyll
  • Nitrate ions for amino acids
• PRACTICAL: Investigate photosynthesis:
  • Evolution of oxygen from water plant
  • Production of starch
  • Requirements of light, carbon dioxide and chlorophyll

Humans

• 2.24 Understand balanced diet should include appropriate proportions of:
  • Carbohydrate
  • Protein
  • Lipid
  • Vitamins
  • Minerals
  • Water
  • Dietary fibre
• 2.25 Identify sources and describe functions of:
  • Carbohydrate, protein, lipid
  • Vitamins A, C and D
  • Mineral ions: calcium and iron
  • Water and dietary fibre
• 2.26 Understand how energy requirements vary with:
  • Activity levels
  • Age
  • Pregnancy
• 2.27 Describe structure and function of human alimentary canal:
  • Mouth
  • Oesophagus
  • Stomach
  • Small intestine (duodenum and ileum)
  • Large intestine (colon and rectum)
  • Pancreas
• 2.28 Understand how food is moved through gut by peristalsis
• 2.29 Understand role of digestive enzymes:
  • Amylase and maltase: starch → glucose
  • Proteases: proteins → amino acids
  • Lipases: lipids → fatty acids and glycerol
• 2.30 Understand bile is produced by liver and stored in gall bladder
• 2.31 Understand role of bile:
  • Neutralising stomach acid
  • Emulsifying lipids
• 2.32 Understand how small intestine is adapted for absorption, including villus structure

(f) Respiration

• 2.34 Understand how respiration produces ATP in living organisms
• 2.35 Know that ATP provides energy for cells
• 2.36 Describe differences between aerobic and anaerobic respiration
• 2.37 Know word equation and balanced chemical symbol equation for aerobic respiration
• 2.38 Know word equation for anaerobic respiration in:
  • Plants
  • Animals
• PRACTICAL: Investigate evolution of carbon dioxide and heat from respiring seeds or other organisms

(g) Gas Exchange

Humans

• 2.46 Describe structure of thorax:
  • Ribs
  • Intercostal muscles
  • Diaphragm
  • Trachea
  • Bronchi
  • Bronchioles
  • Alveoli
  • Pleural membranes
• 2.47 Understand role of intercostal muscles and diaphragm in ventilation
• 2.48 Explain how alveoli are adapted for gas exchange by diffusion
• 2.49 Understand biological consequences of smoking:
  • Effects on lungs
  • Effects on circulatory system
  • Coronary heart disease
• PRACTICAL: Investigate breathing in humans:
  • Release of carbon dioxide
  • Effect of exercise

(h) Transport

• 2.51 Understand why simple, unicellular organisms can rely on diffusion
• 2.52 Understand need for transport system in multicellular organisms

Flowering Plants

• 2.53 Describe role of phloem in transporting sucrose and amino acids
• 2.54 Describe role of xylem in transporting water and mineral ions

Humans

• 2.59 Describe composition of blood:
  • Red blood cells
  • White blood cells
  • Platelets
  • Plasma
• 2.60 Understand role of plasma in transport of:
  • Carbon dioxide
  • Digested food
  • Urea
  • Hormones
  • Heat energy
• 2.61 Understand adaptations of red blood cells:
  • Shape
  • Absence of nucleus
  • Presence of haemoglobin
• 2.62 Understand immune system response using white blood cells:
  • Phagocytes ingesting pathogens
  • Lymphocytes releasing antibodies
• 2.65 Describe structure and function of the heart
• 2.66 Explain how heart rate changes:
  • During exercise
  • Under influence of adrenaline
• 2.67 Understand specific factors increasing risk of coronary heart disease
• 2.68 Understand how structure of arteries, veins and capillaries relates to function
• 2.69 Understand general structure of circulation system

(i) Excretion

Flowering Plants

• 2.70 Understand origin of carbon dioxide and oxygen as waste products and their loss from stomata

Humans

• 2.71 Know excretory products of:
  • Lungs
  • Kidneys
  • Skin

(j) Co-ordination and Response

• 2.80 Understand how organisms respond to changes in their environment
• 2.81 Understand homeostasis as maintenance of constant internal environment:
  • Body water content
  • Body temperature
• 2.82 Understand coordinated response requires:
  • Stimulus
  • Receptor
  • Effector

Flowering Plants

• 2.83 Understand that plants respond to stimuli
• 2.84 Describe geotropic and phototropic responses of roots and stems
• 2.85 Understand role of auxin in phototropic response of stems

Humans

• 2.86 Describe how nervous and hormonal communication control responses
• 2.87 Understand central nervous system consists of:
  • Brain and spinal cord
  • Linked to sense organs by nerves
• 2.88 Understand stimulation of receptors sends electrical impulses resulting in rapid responses
• 2.89 Understand role of neurotransmitters at synapses
• 2.90 Describe structure and functioning of simple reflex arc
• 2.91 Describe structure and function of eye as a receptor
• 2.92 Understand eye function in:
  • Focusing on near and distant objects
  • Responding to changes in light intensity
• 2.93 Describe role of skin in temperature regulation:
  • Sweating
  • Vasoconstriction
  • Vasodilation
• 2.94 Understand sources, roles and effects of hormones:
  • Adrenaline
  • Insulin
  • Testosterone
  • Progesterone
  • Oestrogen

Topic 3: Reproduction and Inheritance

(a) Reproduction

• 3.1 Understand differences between sexual and asexual reproduction
• 3.2 Understand fertilisation involves fusion of male and female gamete to produce zygote

Flowering Plants

• 3.3 Describe structures of insect-pollinated and wind-pollinated flowers and adaptations
• 3.4 Understand growth of pollen tube and fertilisation leads to seed and fruit formation
• PRACTICAL: Investigate conditions needed for seed germination
• 3.6 Understand how germinating seeds utilise food reserves
• 3.7 Understand plants can reproduce asexually by:
  • Natural methods (e.g., runners)
  • Artificial methods (e.g., cuttings)

Humans

• 3.8 Understand structure of male and female reproductive systems
• 3.9 Understand roles of oestrogen and progesterone in menstrual cycle
• 3.11 Describe role of placenta in nutrition of developing embryo
• 3.12 Understand how developing embryo is protected by amniotic fluid
• 3.13 Understand roles of oestrogen and testosterone in development of secondary sexual characteristics

(b) Inheritance

• 3.14 Understand:
  • Genome is entire DNA of organism
  • Gene is section of DNA molecule coding for specific protein
• 3.15 Understand nucleus contains chromosomes on which genes are located
• 3.19 Understand genes exist in alternative forms called alleles
• 3.20 Understand the terms:
  • Dominant
  • Recessive
  • Homozygous
  • Heterozygous
  • Phenotype
  • Genotype
• 3.22 Understand most phenotypic features result from polygenic inheritance
• 3.23 Describe patterns of monohybrid inheritance using genetic diagrams
• 3.24 Understand how to interpret family pedigrees
• 3.25 Predict probabilities of outcomes from monohybrid crosses
• 3.26 Understand sex is controlled by one pair of chromosomes:
  • XX in females
  • XY in males
• 3.27 Describe determination of sex of offspring at fertilisation using genetic diagram
• 3.28 Understand division of diploid cell by mitosis produces two identical cells
• 3.29 Understand mitosis occurs during:
  • Growth
  • Repair
  • Cloning
  • Asexual reproduction
• 3.30 Understand division by meiosis produces four cells with half the chromosomes (haploid gametes)
• 3.31 Understand how random fertilisation produces genetic variation
• 3.32 Know in human cells:
  • Diploid number = 46
  • Haploid number = 23
• 3.33 Understand variation within species can be:
  • Genetic
  • Environmental
  • Combination of both
• 3.34 Understand mutation is rare, random change in genetic material that can be inherited
• 3.38 Explain Darwin's theory of evolution by natural selection
• 3.39 Understand how resistance to antibiotics can increase in bacterial populations

Topic 4: Ecology and the Environment

(a) The Organism in the Environment

• 4.1 Understand the terms:
  • Population
  • Community
  • Habitat
  • Ecosystem
• PRACTICAL: Investigate population size in two different areas using quadrats
• 4.5 Understand how abiotic and biotic factors affect population size and distribution

(b) Feeding Relationships

• 4.6 Understand names given to trophic levels:
  • Producers
  • Primary consumers
  • Secondary consumers
  • Tertiary consumers
  • Decomposers
• 4.7 Understand concepts of:
  • Food chains
  • Food webs
  • Pyramids of number
  • Pyramids of biomass
  • Pyramids of energy transfer
• 4.8 Understand transfer of substances and energy along food chain
• 4.9 Understand why only about 10% of energy is transferred from one trophic level to next

(c) Cycles Within Ecosystems

• 4.10 Describe stages in carbon cycle:
  • Respiration
  • Photosynthesis
  • Decomposition
  • Combustion

(d) Human Influences on the Environment

• 4.12 Understand biological consequences of air pollution by:
  • Sulfur dioxide
  • Carbon monoxide
• 4.13 Understand greenhouse gases:
  • Water vapour
  • Carbon dioxide
  • Nitrous oxide
  • Methane
  • CFCs
• 4.14 Understand how human activities contribute to greenhouse gases
• 4.15 Understand how increase in greenhouse gases results in enhanced greenhouse effect and global warming
• 4.16 Understand biological consequences of water pollution by sewage
• 4.17 Understand biological consequences of eutrophication caused by leached minerals from fertiliser

Topic 5: Use of Biological Resources

(a) Food Production

Crop Plants

• 5.1 Describe how glasshouses and polythene tunnels increase crop yield
• 5.2 Understand effects on crop yield of:
  • Increased carbon dioxide in glasshouses
  • Increased temperature in glasshouses
• 5.3 Understand how use of fertiliser can increase crop yield
• 5.4 Understand reasons for pest control and advantages/disadvantages of:
  • Pesticides
  • Biological control

Micro-organisms

• 5.5 Understand role of yeast in food production (e.g., bread)
• PRACTICAL: Investigate role of anaerobic respiration by yeast in different conditions
• 5.7 Understand role of bacteria (Lactobacillus) in yoghurt production
• 5.8 Understand use of industrial fermenter and need for suitable conditions:
  • Aseptic precautions
  • Nutrients
  • Optimum temperature and pH
  • Oxygenation
  • Agitation

(b) Selective Breeding

• 5.10 Understand how selective breeding can develop plants with desired characteristics
• 5.11 Understand how selective breeding can develop animals with desired characteristics

(c) Genetic Modification

• 5.12 Understand how restriction enzymes cut DNA and ligase enzymes join DNA
• 5.13 Understand how plasmids and viruses act as vectors
• 5.14 Understand how large amounts of human insulin can be manufactured from genetically modified bacteria
• 5.15 Understand how genetically modified plants improve food production
• 5.16 Understand term 'transgenic' means transfer of genetic material from one species to different species