IGCSE Biology – bullet point notes
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IGCSE BIOLOGY – BULLET POINT NOTES Edexcel International GCSE Content coverage Learning outcomes Exam bullet points Section 1: The nature and variety of living organisms a) Characteristics of living organisms Students will be assessed on their ability to: Tip: Be able to identify each of these key characteristics Section 1: The nature and variety of living organisms b) Variety of living organisms Students will be assessed on their ability to: N Essenhigh KSW Biology 1.1 understand that 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. 1.2 describe the common features shared by organisms within the following main groups: plants, animals, fungi, bacteria, protoctists and viruses, and for each group describe examples and their features as follows (details of life cycle and economic importance are not required): Plants: these are multicellular organisms; their cells contain chloroplasts and are able to carry out photosynthesis; their cells have cellulose cell walls; they store carbohydrates as starch or sucrose Examples include flowering plants, such as a cereal (for example maize), and a herbaceous legume (for example peas or beans) Animals: these are multicellular organisms; their cells do not contain chloroplasts and are not able to carry out photosynthesis; they have no cell walls; they usually have nervous coordination and are able to move from one place to another; they often store Tip: you should be able to identify features in common and the key differences between each group of organisms IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points carbohydrate as glycogen Examples include mammals (for example humans) and insects (for example housefly and mosquito) Section 1: The nature and variety of living organisms b) Variety of living organisms N Essenhigh KSW Biology Fungi: these are organisms that are not able to carry out photosynthesis; their body is usually organised into a mycelium made from thread-like structures called hyphae, which contain many nuclei; some examples are single-celled; their cells have walls made of chitin; they feed by extracellular secretion of digestive enzymes onto food material and absorption of the organic products; this is known as saprotrophic nutrition; they may store carbohydrate as glycogen Examples include Mucor, which has the typical fungal hyphal structure, and yeast which is single-celled Bacteria: these are microscopic single-celled organisms; they have a cell wall, cell membrane, cytoplasm and plasmids; they lack a nucleus but contain a circular chromosome of DNA; some bacteria can carry out photosynthesis but most feed off other living or dead organisms Examples include Lactobacillus bulgaricus, a rod-shaped bacterium used in the production of yoghurt from milk, and Pneumococcus, a spherical bacterium that acts as the pathogen causing pneumonia Protoctists: these are microscopic singlecelled organisms. Some, like Amoeba, that live in pond water, have features like an animal cell, while others, like Chlorella, have chloroplasts and are more like plants. A pathogenic example is Plasmodium, responsible for causing malaria Viruses: these are small particles, smaller than bacteria; they are parasitic and can reproduce only inside living cells; they infect Fungus – Saprotrophic Nutrition: secrete enzymes; external (extracellular) digestion / on to food; product absorbed; Fungal structure: Mycelium; Made up of hyphae Chitin cell walls Bacterial structure: Circular DNA (no nucleus) Plasmids Cell wall Tip: learn the stated examples (word for word!!) IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes every type of living organism. They have a wide variety of shapes and sizes; they have no cellular structure but have a protein coat and contain one type of nucleic acid, either DNA or RNA Examples include the tobacco mosaic virus that causes discolouring of the leaves of tobacco plants by preventing the formation of chloroplasts, the influenza virus that causes ‘flu’ and the HIV virus that causes AIDS Exam bullet points Pathogen: Disease causing Micro-organism / bacteria / virus / fungus /protoctist 1.3 recall the term ‘pathogen’ and know that pathogens may be fungi, bacteria, protoctists or viruses. Section 2: Structures and functions in living organisms a) Levels of organisation b) Cell structure Students will be assessed on their ability to: 2.1 describe the levels of organisation within organisms: organelles, cells, tissues, organs and systems. Cell structures: ● cell membrane - controls what enters/leaves the cell / permeability /holds cell contents / engulf / eq; ● cytoplasm - (chemical) reactions / respiration / metabolism / synthesis / enzymes / eq; ● nucleus - controls (cell activity) / contains DNA/genetic material / eq; Ignore brain 2.2 describe cell structures, including the nucleus, cytoplasm, cell membrane, cell wall, chloroplast and vacuole 2.3 describe the functions of the nucleus, cytoplasm, cell membrane, cell wall, chloroplast and vacuole 2.4 compare the structures of plant and animal cells. Section 2: Structures and functions in living organisms c) Biological molecules Students will be assessed on their ability to: 2.5 identify the chemical elements present in carbohydrates, proteins and lipids (fats and oils) 2.6 describe the structure of carbohydrates, N Essenhigh KSW Biology Elements in Carbohydrates: Carbon Hydrogen and Oxygen Elements in Protein: Carbon Hydrogen Oxygen and Nitrogen IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points proteins and lipids as large molecules made up from smaller basic units: starch and glycogen from simple sugar; protein from amino acids; lipid from fatty acids and glycerol Elements in Lipids: Carbon Hydrogen and Oxygen 2.7 describe the tests for glucose and starch Test for Glucose: Benedicts; blue / light blue; red / brick-red / brown-red / orange / yellow / green; Test for starch: Iodine Orange red Blue /Black Section 2: Structures and functions in living organisms c) Biological molecules Students will be assessed on their ability to: 2.8 understand the role of enzymes as biological catalysts in metabolic reactions 2.9 understand how the functioning of enzymes can be affected by changes in temperature, including changes due to change in active site 2.10 understand how the functioning of enzymes can be affected by changes in active site caused by changes in pH Section 2: Structures and functions in living organisms c) Biological molecules N Essenhigh KSW Biology Effect of increasing temperature on enzymes: ● ref. movement of molecules / (kinetic) energy; ● more/faster collisions; ● optimum; ● denature enzyme/active site; pH effects on enzymes: optimum change shape of enzymes active site; denature enzyme substrate no longer fits DO NOT state killed / dead Students will be assessed on their ability to: 2.11 describe experiments to investigate how enzyme activity can be affected by changes in temperature. Tip: Remember controls (temperature, enzyme concentration, substrate concentration, pH, time) IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Section 2: Structures and functions in living organisms Students will be assessed on their ability to: d) Movement of substances into and out of cells 2.12 understand definitions of diffusion, osmosis and active transport 2.13 understand that movement of substances into and out of cells can be by diffusion, osmosis and active transport Exam bullet points Movement of particles (NOT water): ● diffusion ● high conc. to low conc. / down concentration gradient / eq; ● of particles / molecules; ● passive / eq; Movement of water: ● osmosis; Ignore active transport ● high conc of water to low conc of water / dilute to concentrated solution ● selectively permeable membrane / eq; ● Passive Active Transport: Section 2: Structures and functions in living organisms d) Movement of substances into and out of cells N Essenhigh KSW Biology Students will be assessed on their ability to: 2.15 understand the factors that affect the rate of movement of substances into and out of cells, to include the effects of surface area to volume ratio, temperature and concentration gradient ● against concentration gradient / more ions inside than outside / eq; ● energy / ATP; Exchange surfaces (villus/gills/alveolus) need: large surface area:volume (ratio) increases diffusion; increased temperature; increases Kinetic energy (of molecules) move faster increases rate of diffusion steeper concentration gradient; increases probability of particles moving; increases rate of diffusion thin diffusion pathway reduces distance particles need to move; increases rate of diffusion IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 2: Structures and functions in living organisms Students will be assessed on their ability to: Turgid d) Movement of substances into and out of cells Section 2: Structures and functions in living organisms e) Nutrition 2.14 understand the importance in plants of turgid cells as a means of support 2.16 describe experiments to investigate diffusion and osmosis using living and nonliving systems. Students will be assessed on their ability to: 2.17 describe the process of photosynthesis and understand its importance in the conversion of light energy to chemical energy 2.18 write the word equation and the balanced chemical symbol equation for photosynthesis Section 2: Structures and functions in living organisms e) Nutrition N Essenhigh KSW Biology Students will be assessed on their ability to: 2.22 describe experiments to investigate photosynthesis, showing the evolution of oxygen from a water plant, the production of starch and the requirements of light, carbon dioxide and chlorophyll movement of water into cell; osmosis cell swells / increases in volume; cell membrane presses against cell wall cell wall is strong / prevents bursting Experiments – typically potato cells and pink agar Testing leaves for starch: ● destarch plant / eq; ● place in light; ● put in boiling/hot water; ● (boil in) ethanol; ● add iodine; ● blue / black; Problems with counting number of bubbles: volume of bubbles / vary in size; easy to miscount/eq; composition of bubbles / not all oxygen / some CO2; allow oxygen dissolves in water/eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to: Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to: 2.21 understand that plants require mineral ions for growth and that magnesium ions are needed for chlorophyll and nitrate ions are needed for amino acids Limiting factors: increased light intensity increases rate of photosynthesis increased temperature; increases kinetic energy of molecules (enzymes/substrates); rate of photosynthesis increases until; temperature causes the enzymes to denature rate of photosynthesis decreases; increased CO₂ concentration increases rate of photosynthesis; CO₂ concentration is often in short supply Role of fertilisers: more nitrates / nitrogen; protein / amino acids; growth; other named mineral eg Mg; function of mineral eg chlorophyll; Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to: Role of chlorophyll N Essenhigh KSW Biology 2.19 understand how varying carbon dioxide concentration, light intensity and temperature affects the rate of photosynthesis 2.20 describe the structure of the leaf and explain how it is adapted for photosynthesis ● chlorophyll; ● (absorb) light; ● photosynthesis; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to Exam bullet points Humans 2.23 understand that a balanced diet should include appropriate proportions of carbohydrate, protein, lipid, vitamins, minerals, water and dietary fibre 2.24 identify sources and describe functions of carbohydrate, protein, lipid (fats and oils), vitamins A, C and D, the mineral ions calcium and iron, water and dietary fibre as components of the diet ● sun/light makes vitamin D; Vit C deficiency: Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to: 2.25 understand that energy requirements vary with activity levels, age and pregnancy 2.26 describe the structures of the human alimentary canal and describe the functions of the mouth, oesophagus, stomach, small intestine, large intestine and pancreas 2.27 understand the processes of ingestion, digestion, absorption, assimilation and egestion N Essenhigh KSW Biology skin / gums / prevent scurvy / help connective tissue / protect against infection / help immune system; children grow metabolic rate increases because more energy /greater respiration is needed for growth as we get older metabolic rate decreases less energy is needed less growth / repair only during pregnancy; metabolic rate (of mother) increases; fetus needs energy to grow Ingestion: taking in food Digestion: breaking down large insoluble molecules into small soluble ones Absorption: IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points products of digestion moving into the blood Assimilation: using digestive products to make substances stored in the body Egestion: removal of undigested waste (faeces) from the body Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to: 2.28 explain how and why food is moved through the gut by peristalsis 2.29 understand the role of digestive enzymes, to include the digestion of starch to glucose by amylase and maltase, the digestion of proteins to amino acids by proteases and the digestion of lipids to fatty acids and glycerol by lipases Digestion of starch mouth / saliva; mechanical digestion / chewing / mastication / eq; amylase; ONCE Ignore carbohydrase (starch to) maltose; pancreas / pancreatic juice / eq; small intestine / duodenum / ileum; starch/maltose to glucose; maltase;. . Section 2: Structures and functions in living organisms e) Nutrition Students will be assessed on their ability to: 2.30 understand that bile is produced by the liver and stored in the gall bladder, and understand the role of bile in neutralising stomach acid and emulsifying lipids 2.31 describe the structure of a villus and explain how this helps absorption of the products of digestion in the small intestine 2.32 describe an experiment to investigate the energy content in a food sample. N Essenhigh KSW Biology Role of bile: ● emulsifies / emulsification / small drops; ● lipid /fat / oil; ● large surface area; ● enzymes / lipase; ● neutralise acid / raise pH / optimum / alkaline / eq; Structure of Villus related to Function: ● large surface area / microvilli; ● capillaries; ● blood moves/circulates /eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points ● maintain concentration gradient; ● walls single cell thick / thin walls / short distance / (capillaries) close to wall; ● lacteal / lymph vessel; ● diffusion; Measuring the energy content of a food. ● weigh crisp / mass of crisp; ● burn crisp / eq; ● burnt completely / eq; ● heat water / hold (burning crisp) under tube / hold (burning crisp) under water / calorimeter / eq; ● volume of water / mass of water; ● measure temperature before and after / temperature rise / temperature increase / change in temperature / eq; Difference in using beaker v test-tube: Section 2: Structures and functions in living organisms f) Respiration beaker has lower surface area : volume ratio / tube has higher surface area : volume ratio; less heat loss / less temperature fall / boiling tube / cools down quicker; larger surface area to absorb heat; Students will be assessed on their ability to: 2.33 understand that the process of respiration releases energy in living organisms Aerobic Anaerobic Uses O₂ Does not use O₂ Makes CO₂ and H₂O In animals: makes lactic acid In plants and fungi: makes CO₂ and ethanol (alcohol) 2.34 describe the differences between aerobic and anaerobic respiration Section 2: Structures and functions in living organisms N Essenhigh KSW Biology Creates oxygen debt Students will be assessed on their ability to: Aerobic Respiration: 2.35 write the word equation and the Glucose + oxygen = carbon dioxide + water + ENERGY (ATP) IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points f) Respiration balanced chemical symbol equation for aerobic respiration in living organisms C₆ H₁₂ O₆ + 6O₂ 2.36 write the word equation for anaerobic respiration in plants and in animals Section 2: Structures and functions in living organisms g) Gas exchange = 6CO₂ + 6H₂O + Anaerobic Respiration: In animals Glucose = Lactic Acid 2.37 describe experiments to investigate the evolution of carbon dioxide and heat from respiring seeds or other suitable living organisms. In Plants Glucose = Carbon Dioxide + Ethanol (alcohol) Students will be assessed on their ability to: Movement of gas molecules: 2.38 understand the role of diffusion in gas exchange Flowering plants 2.39 understand gas exchange (of carbon dioxide and oxygen) in relation to respiration and photosynthesis ENERGY (ATP) ● diffusion ● high conc. to low conc. / down concentration gradient / eq; ● of particles / molecules; ● passive / eq; NOT along the concentration gradient 2.40 understand that respiration continues during the day and night, but that the net exchange of carbon dioxide and oxygen depends on the intensity of light Section 2: Structures and functions in living organisms g) Gas exchange Students will be assessed on their ability to: ● reduce water loss/transpiration/evaporation; 2.41 explain how the structure of the leaf is adapted for gas exchange ● prevent entry of microorganisms; Ignore waterproof 2.42 describe the role of stomata in gas exchange Adaptation of leaf: 2.43 describe experiments to investigate the effect of light on net gas exchange N Essenhigh KSW Biology Role of cuticle: ● stomata / guard cells; ● spongy (mesophyll) / spongy (layer) / air spaces / eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points from a leaf, using hydrogen-carbonate indicator ● moist; ● thin; ● large surface area; Role of stomata in gas exchange: ● diffusion / diffuses; ● stomata / pores / holes; ● down concentration gradient / eq; (specify into /out of leaf) Hydrogen carbonate indicator: Measures level of CO₂ (NOT O₂) Purple - Low CO₂ Red - Atmospheric CO₂ Yellow - High CO₂ Respiration produces CO₂ Photosynthesis consumes CO₂ N Essenhigh KSW Biology More respiration than photosynthesis (in dark); CO₂ increases so pH decreases; Indicator goes yellow; More photosynthesis than respiration (in light); CO₂ decreases so pH increases; Indicator goes purple; Respiration = photosynthesis (in low light intensities OR if animals are present); CO₂ remains the same so pH remains the same; Indicator stays red; Compensation point IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 2: Structures and functions in living organisms g) Gas exchange Students will be assessed on their ability to: Alveoli Humans Increases rate of gas exchange 2.44 describe the structure of the thorax, including the ribs, intercostal muscles, diaphragm, trachea, bronchi, bronchioles, alveoli and pleural membranes Large surface area Thin walls for Short diffusion pathway Rich capillary network Maintains concentration gradient Moist Gases can dissolve 2.46 explain how alveoli are adapted for gas exchange by diffusion between air in the lungs and blood in capillaries Section 2: Structures and functions in living organisms g) Gas exchange Students will be assessed on their ability to: 2.45 understand the role of the intercostal muscles and the diaphragm in ventilation 2.48 describe experiments to investigate the effect of exercise on breathing in humans Inhalation: intercostal muscles contract; diaphragm contracts; ribs move up and out; diaphragm moves down; thorax volume increases; thorax pressure decreases; air moves in Effect of exercise: Section 2: Structures and functions in living organisms g) Gas exchange N Essenhigh KSW Biology Students will be assessed on their ability to: 2.47 understand the biological consequences of smoking in relation to the lungs and the circulatory system, including coronary heart disease. ● oxygen; ● respiration (aerobic or anaerobic); ● energy / ATP; ● muscles; ● lactic acid / oxygen debt / carbon dioxide; General effect of smoking: ● emphysema; ● less surface area / damage to alveoli / ● less alveoli / eq; ● bronchitis / obstructive lung disease; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points ● bacteria / infection; ● cilia damaged / cilia stop moving / eq; ● more mucus / build up of mucus / eq; ● cancer / carcinogens / mutation; ● tar; Effect of smoking on emphysema: ● surface area (of alveoli) reduced / smaller alveoli; ● less oxygen (into blood/body); I gas exchange ● respiration; ● less aerobic (respiration) / anaerobic respiration / lactic acid; ● less energy released; Effect of smoking on Coronary Heart Disease Section 2: Structures and functions in living organisms h) Transport N Essenhigh KSW Biology Students will be assessed on their ability to: 2.49 understand why simple, unicellular organisms can rely on diffusion for movement of substances in and out of the cell ● blockage or narrowing / eq; ● by fat / fatty deposit / cholesterol / eq; ● in arteries / coronary artery / aorta / blood vessels; ● less oxygen / less glucose; ● anaerobic respiration; ● lactic acid; ● heart attack / heart disease / angina / eq; ● nicotine / carbon monoxide; ● increased heart rate /high blood pressure / make heart work harder; Small organisms Large SA:Volume (ratio) Increases rate of diffusion Increases rate of heat loss IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Section 2: Structures and functions in living organisms h) Transport Learning outcomes Exam bullet points 2.50 understand the need for a transport system in multicellular organisms Large organisms Small SA:Volume (ratio) Decreases rate of diffusion Reduces rate of heat loss Need specially adapted exchange surface (organs) To increase SA:Volume (ratio) internally Students will be assessed on their ability to: Flowering plants Water absorbed in roots By osmosis Root hair cells Increase the SA for uptake of water 2.51 describe the role of phloem in transporting sucrose and amino acids between the leaves and other parts of the plant 2.52 describe the role of the xylem in transporting water and mineral salts from the roots to other parts of the plant 2.53 explain how water is absorbed by root hair cells Section 2: Structures and functions in living organisms h) Transport Students will be assessed on their ability to: 2.54 understandl that transpiration is the evaporation of water from the surface of a plant 2.55 explain how the rate of transpiration is affected by changes in humidity, wind speed, temperature and light intensity 2.56 describe experiments to investigate the role of environmental factors in determining the rate of transpiration from a leafy shoot N Essenhigh KSW Biology Movement of water through a plant: roots absorb; osmosis; leaves lose; transpiration / evaporation / diffusion; Factors affecting Transpiration: ● wind; ● temperature (faster / increase / higher / eq; = (more) transpiration / evaporation / diffusion / kinetic energy /eq;) ● humidity; ● light; ● species of plant / surface area (of leaves) / number of leaves / size ● of leaves / number of stomata; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 2: Structures and functions in living organisms Students will be assessed on their ability to: Red Blood Cells: h) Transport Humans 2.57 describe the composition of the blood: red blood cells, white blood cells, platelets and plasma 2.58 understand the role of plasma in the transport of carbon dioxide, digested food, urea, hormones and heat energy Section 2: Structures and functions in living organisms h) Transport 2.59 explain how adaptations of red blood cells, including shape, structure and the presence of haemoglobin, make them suitable for the transport of oxygen Students will be assessed on their ability to: 2.60 describe how the immune system responds to disease using white blood cells, illustrated by phagocytes ingesting pathogens and lymphocytes releasing antibodies specific to the pathogen 2.61 understand that vaccination results in the manufacture of memory cells, which enable future antibody production to the pathogen to occur sooner, faster and in greater quantity 2.62 understand that platelets are involved in blood clotting, which prevents blood loss and the entry of micro-organisms Section 2: Structures and functions in living organisms h) Transport N Essenhigh KSW Biology Students will be assessed on their ability to: 2.63 describe the structure of the heart and how it functions ● biconcave / biconcave described; ● more surface / large SA:VOL / eq; ● diffusion; ● thin/permeable/small/lack nucleus ● Haemoglobin Immune Response: ● foreign / genetic differences / not same tissue/self / eq; pathogen antigen; ● white blood cells / named white blood cell; ● antibody; Phagocytes: ● ingest / ingestion described / engulf / eq; ● digest / enzymes / breakdown / eq; Lymphocytes: Antibodies Specific to Antigen Lyse / stick together / clump Contraction of ventricles: wall is being squeezed/space inside ventricle is small; atrioventricular closed; semilunar valve is open; blood is leaving the ventricle / heart; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points 2.64 explain how the heart rate changes during exercise and under the influence of adrenaline Section 2: Structures and functions in living organisms h) Transport Section 2: Structures and functions in living organisms Students will be assessed on their ability to: ● 2.65 describe the structure of arteries, veins and capillaries and understand their roles one cell thick / thin (wall/membrane) / short diffusion distance / low pressure / slow blood flow / eq; 2.66 understand the general structure of the circulation system to include the blood vessels to and from the heart, the lungs, the liver and the kidneys Tip: learn the names and location of the vena cava, renal, hepatic/hepatic portal and pulmonary veins AND the aorta, pulmonary, hepatic and renal arteries Students will be assessed on their ability to: Tip: think hydrogen carbonate expt Flowering plants i) Excretion 2.67 understand the origin of carbon dioxide and oxygen as waste products of metabolism and their loss from the stomata of a leaf Humans 2.68 recall that the lungs, kidneys and skin are organs of excretion 2.69 understand how the kidney carries out its roles of excretion and osmoregulation 2.70 describe the structure of the urinary system, including the kidneys, ureters, bladder and urethra N Essenhigh KSW Biology Capillary: IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 2: Structures and functions in living organisms Students will be assessed on their ability to: Ultrafiltration: movement of small molecules (from the blood into the kidney); (under) pressure; i) Excretion 2.71 describe the structure of a nephron, to include Bowman’s capsule and glomerulus, convoluted tubules, loop of Henlé and collecting duct Tip: learn and use the names of the different regions of the kidney 2.72 describe ultrafiltration in the Bowman’s capsule and the composition of the glomerular filtrate 2.74 understand that selective reabsorption of glucose occurs at the proximal convoluted tubule Section 2: Structures and functions in living organisms i) Excretion Students will be assessed on their ability to: 2.73 understand that water is reabsorbed into the blood from the collecting duct 2.75 describe the role of ADH in regulating the water content of the blood 2.76 understand that urine contains water, urea and salts. N Essenhigh KSW Biology Drinking less water: less ADH; lots of water in the blood; less water reabsorbed; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 2: Structures and functions in living organisms j) Coordination and response Students will be assessed on their ability to: If too cold: temperature of blood falls detected by thermoregulatory centre (brain) narrowing of blood vessels (at skin surface); vasoconstriction; takes blood away from the skin; to conserve heat; decreased sweating; hairs stand on end / erector muscles contract; increase insulating layer of air (next to skin) 2.77 understand that organisms are able to respond to changes in their environment 2.78 understand that homeostasis is the maintenance of a constant internal environment and that body water content and body temperature are both examples of homeostasis 2.79 understand that a coordinated response requires a stimulus, a receptor and an effector Section 2: Structures and functions in living organisms j) Coordination and response Students will be assessed on their ability to: Flowering plants 2.80 understand that plants respond to stimuli 2.81 describe the geotropic responses of roots and stems Geotropism: Stems 2.82 describe positive phototropism of stems ● away / up / against gravity / negative geotropism; ● sun / light / carbon dioxide / photosynthesis; Roots Section 2: Structures and functions in living organisms j) Coordination and response N Essenhigh KSW Biology Students will be assessed on their ability to: Humans 2.83 describe how responses can be controlled by nervous or by hormonal ● toward gravity / down / positive geotropism; ● water / minerals / ions / named mineral ion / anchorage / ● nutrients / eq; Nervous v Hormonal Control ● fast(er) (versus slow(er)); ● electrical/impulse (versus chemical); ● neurones (versus blood); ● short(er) lasting (versus long(er) lasting); IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points communication and understand the differences between the two systems ● 2.84 understand that the central nervous system consists of the brain and spinal cord and is linked to sense organs by nerves target cells (versus all around body); Tip: learn the relax arc and the roles of the synapses, sensory neurone, relay neurone and motor neurones in it. 2.85 understand that stimulation of receptors in the sense organs sends electrical impulses along nerves into and out of the central nervous system, resulting in rapid responses 2.86 describe the structure and functioning of a simple reflex arc illustrated by the withdrawal of a finger from a hot object Section 2: Structures and functions in living organisms j) Coordination and response Students will be assessed on their ability to: 2.87 describe the structure and function of the eye as a receptor Focusing on near objects: ● lens gets thick(er) / wide(r) / fat(ter) / more spherical / round(er) / more convex / more curved / eq; ignore smaller / bigger ● ciliary muscle contract / eq; ignore constrict. 2.88 understand the function of the eye in focusing near and distant objects, and in responding to changes in light intensity Section 2: Structures and functions in living organisms j) Coordination and response Students will be assessed on their ability to: 2.89 describe the role of the skin in temperature regulation, with reference to sweating, vasoconstriction and vasodilation 2.90 understand the sources, roles and effects of the following hormones: ADH, adrenaline, insulin, testosterone, progesterone and oestrogen. N Essenhigh KSW Biology Increase in blood temperature: ● vasodilation; ● arterioles; ● (blood vessels) dilate / get wider / eq; ● (more) blood to skin / surface; ● (more) sweat; ● (more) evaporation / water loss / eq; ● (erector) muscles relax; ● hair flat / eq; ● (less) air trapped / less insulation / eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points ● max ● cooling / heat loss / radiation / convection / eq; Effect of ADH ● collecting duct; ● more permeable / eq; ● (more) water (re)absorbed (into blood) / blood more dilute / eq; ● osmosis; ● urine concentrated / less water in urine / less urine; Control of blood sugar: N Essenhigh KSW Biology ● insulin ● pancreas; ● blood; ● liver; ● glycogen; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 3: Reproduction and inheritance a) Reproduction Students will be assessed on their ability to: Male gametes v Female gametes: 3.1 understand the differences between sexual and asexual reproduction 3.2 understand that fertilisation involves the fusion of a male and female gamete to produce a zygote that undergoes cell division and develops into an embryo Flowering plants 3.3 describe the structures of an insectpollinated and a wind-pollinated flower and explain how each is adapted for pollination ● indication of number and size difference; eg .more sperm + smaller / less eggs + larger / more sperm + larger egg / less eggs + smaller sperm ● sperm: better chance of fertilisation / swim easier / eq ● egg: more cytoplasm / more nutrition / eq; Pollination: ● transfer of pollen; ● by insect / wind / eq; ● from anther to stigma; Wind pollinated: ● petals/flower smaller / less bright / less attractive /eq; ● stamens/anthers outside flower / exposed / larger /eq; ● style/stigma outside flower / exposed / larger / eq; ● stigma feathery / eq; ● no nectary; Ignore ref. to pollen/scent/nectar Insect pollinated: Section 3: Reproduction and inheritance a) Reproduction N Essenhigh KSW Biology Students will be assessed on their ability to: 3.4 understand that the growth of the pollen tube followed by fertilisation leads to seed and fruit formation ● large petals / coloured petals; ● enclosed anthers/stamens; ● enclosed stigma; ● germinates; ● (pollen) tube; ● (grows down) style; ● digestion / enzymes; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points 3.5 understand the conditions needed for seed germination ● (enters) ovule; ● ovary; ● micropyle; ● (male) nucleus / (pollen grain) nucleus / male gamete; ● fertilisation / fuse / join / eq; ● ovum / egg / nucleus / female gamete; ● ovule becomes seed; ● ovule wall becomes seed coat / testa; ● ovary becomes fruit; 3.6 understand how germinating seeds utilise food reserves until the seedling can carry out photosynthesis 3.7 understand that plants can reproduce asexually by natural methods (illustrated by runners) and by artificial methods (illustrated by cuttings) Section 3: Reproduction and inheritance a) Reproduction Students will be assessed on their ability to: Humans 3.8 describe the structure and explain the function of the male and female reproductive systems 3.12 understand the roles of oestrogen and testosterone in the development of secondary sexual characteristics ● Section 3: Reproduction and inheritance a) Reproduction 3.9 understand the roles of oestrogen and progesterone in the menstrual cycle Placenta Mother’s and baby’s blood do not mix O₂ and nutrients (glucose/ amino acids); Diffuse; From mother’s blood into baby’s blood CO₂ and waste products (urea); Diffuse; From baby’s blood into mother’s blood 3.10 describe the role of the placenta in the nutrition of the developing embryo 3.11 understand how the developing embryo is protected by amniotic fluid. Amniotic fluid Protection from bumps NOT just protection Section 3: Reproduction and inheritance b) Inheritance N Essenhigh KSW Biology Students will be assessed on their ability to: 3.13 understand that the nucleus of a cell contains chromosomes on which genes are Tip: Learn the structure of the genetic material as described by the syllabus IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points located 3.14 understand that a gene is a section of a molecule of DNA and that a gene codes for a specific protein 3.15 describe a DNA molecule as two strands coiled to form a double helix, the strands being linked by a series of paired bases: adenine (A) with thymine (T), and cytosine (C) with guanine (G) 3.16 understand that genes exist in alternative forms called alleles which give rise to differences in inherited characteristics Section 3: Reproduction and inheritance b) Inheritance Students will be assessed on their ability to: 3.17 understand the meaning of the terms: dominant, recessive, homozygous, heterozygous, phenotype, genotype and codominance 3.18 describe patterns of monohybrid inheritance using a genetic diagram 3.20 predict probabilities of outcomes from monohybrid crosses 3.19 understand how to interpret family pedigrees Dominant: Only one dominant allele needed to have an effect on the phenotype Recessive: Two copies of the recessive allele needed to have an effect on the phenotype One from each parent Homozygous: Both alleles are the same Heterozygous: Two different alleles Phenotype: The effect of the alleles on the physical appearance Genotype: The combination of the two alleles for a particular characteristic Co-dominance: Both alleles have an effect on the phenotype Tip: Make sure you label the genetic crosses with parent and offspring phenotype AND genotype. The genotype and phenotype must be linked together correctly. Gamete genotypes must be CLEARLY identified as separate – use a circle to isolate or a comma to separate. N Essenhigh KSW Biology IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 3: Reproduction and inheritance b) Inheritance Students will be assessed on their ability to: Mitosis 3.21 understand that the sex of a person is controlled by one pair of chromosomes, XX in a female and XY in a male 3.22 describe the determination of the sex of offspring at fertilisation, using a genetic diagram 3.23 understand that division of a diploid cell by mitosis produces two cells which contain identical sets of chromosomes 3.24 understand that mitosis occurs during growth, repair, cloning and asexual reproduction 3.25 understand that division of a cell by meiosis produces four cells, each with half the number of chromosomes, and that this results in the formation of genetically different haploid gametes Section 3: Reproduction and inheritance b) Inheritance Students will be assessed on their ability to: 3.26 understand that random fertilisation produces genetic variation of offspring 3.27 know that in human cells the diploid number of chromosomes is 46 and the haploid number is 23 3.28 understand that variation within a species can be genetic, environmental, or a combination of both 3.29 understand that mutation is a rare, random change in genetic material that can N Essenhigh KSW Biology Occurs when gametes are NOT being produced Growth / repair Asexual reproduction Genetically identical cells Meiosis Produces haploid cells Genetically different cells (by random assortment of chromosome pairs and crossing over) Diploid: PAIRS of chromosomes In humans – 23 pairs of chromosomes Haploid 1 set of chromosomes In humans – 23 chromosomes Effects of Mutation: change/damage/mistake to genetic material / eq; passed on / inherited; rare / random / eq; alters characteristic / named example eg sickle cell/Down’s harmful / description of effect; few beneficial / description of effect; increase/decrease of gene/allele/condition/numbers in population; natural selection / evolution / speciation / eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points be inherited 3.31 understand that many mutations are harmful but some are neutral and a few are beneficial 3.33 understand that the incidence of mutations can be increased by exposure to ionising radiation (for example gamma rays, X-rays and ultraviolet rays) and some chemical mutagens (for example chemicals in tobacco) Section 3: Reproduction and inheritance b) Inheritance Students will be assessed on their ability to: 3.30 describe the process of evolution by means of natural selection 3.32 understand how resistance to antibiotics can increase in bacterial populations, and appreciate how such an increase can lead to infections being difficult to control. Natural Selection: ● variation / eq; ● mutation / mutate(s) / mutated; ● not eaten / not attacked / avoided / eq; ● survive(s) / survival /survived; ● reproduce / breed / mated / multiply / eq; ● pass on gene(s) / allele(s) / eq; ● process continues over time / eq; Effect of camouflage on Evolution: Section 4: Ecology and the environment N Essenhigh KSW Biology Students will be assessed on their ability to: ● easily seen / eq; ● predators / easy prey / eq; ● no camouflage; ● not well adapted / not well suited / adaptation / eq; ● struggle to survive / eq; ● less reproduction; ● less passing on of genes/characteristic / eq; How quadrats are used: random placing; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage a) The organism in the environment Learning outcomes 4.1 understand the terms population, community, habitat and ecosystem 4.2 explain how quadrats can be used to estimate the population size of an organism in two different areas Exam bullet points use more quadrats (min 10); calculate % cover / eq; Tip: do state count plants not just work out how many; describe (give details) about HOW you calculate a mean; WEIGH dry mass with a balance 4.3 explain how quadrats can be used to sample the distribution of organisms in their habitats. Section 4: Ecology and the environment b) Feeding relationships Students will be assessed on their ability to: 4.4 explain the names given to different trophic levels to include producers, primary, secondary and tertiary consumers, and decomposers 4.5 understand the concepts of food chains, food webs, pyramids of number, pyramids of biomass and pyramids of energy transfer Section 4: Ecology and the environment b) Feeding relationships Students will be assessed on their ability to: 4.6 understand the transfer of substances and of energy along a food chain 4.7 explain why only about 10% of energy is transferred from one trophic level to the next. Section 4: Ecology and the environment c) Cycles within ecosystems N Essenhigh KSW Biology Students will be assessed on their ability to: 4.8 describe the stages in the water cycle, including evaporation, transpiration, condensation and precipitation Energy Losses: Not eaten / inedible Not digested / indigestible / lost as faeces Excreted / urine / sweating Heat losses / respiration Movement Death / decomposers Carbon Cycle: rot / decay / digest / breakdown; dead organisms; release carbon dioxide; respiration; carbon dioxide absorbed by plants / used in IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes 4.9 describe the stages in the carbon cycle, including respiration, photosynthesis, decomposition and combustion 4.10 describe the stages in the nitrogen cycle, including the roles of nitrogen fixing bacteria, decomposers, nitrifying bacteria and denitrifying bacteria (specific names of bacteria are not required). Exam bullet points photosynthesis; Nitrification: ● (nitrifying) bacteria; ● ammonia/ammonium / into nitrites/NO2 or nitrite into nitrate; Nitrogen fixation: ● (root) nodules; ● Rhizobium / nitrogen fixing bacteria; ● nitrogen (gas) into nitrates / ammonia / ammonium; ● amino acids / proteins; ( ONCE ) ● growth / higher yield; ● decomposition / decomposers / decay / rotting / eq; ● (decomposing) bacteria / fungi / eq; ● mineral (ions) / salts / nutrients / named mineral ion; Denitrification: Section 4: Ecology and the environment d) Human influences on the environment Students will be assessed on their ability to: 4.11 understand the biological consequences of pollution of air by sulfur dioxide and by carbon monoxide 4.12 understand that water vapour, carbon dioxide, nitrous oxide, methane and CFCs are greenhouse gases N Essenhigh KSW Biology ● denitrifying (bacteria); ● (nitrates) to ammonia; ● (nitrates) to nitrite; ● (nitrates) to nitrogen (gas); Greenhouse Effect: ● Earth / water absorbs (some) radiation or Earth / water heat up / eq; ● (some) used in photosynthesis; ● (some) reflected / eq; ● (some) radiation escapes (into space) / eq; ● (some) radiation reflected back to Earth / trapped / cannot escape / short waves cannot escape; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points 4.13 understand how human activities contribute to greenhouse gases ● Fossil fuel burning = more CO₂ released; ● Deforestation = more CO₂ released; 4.14 understand how an increase in greenhouse gases results in an enhanced greenhouse effect and that this may lead to global warming and its consequences ● Cattle farming / rice fields = more CH₄ How to reduce greenhouse gases: ● less burning / less combustion; ● (of) fossil fuel / named fossil fuel; accept petrol ● grow more trees / reduce deforestation; ● increase photosynthesis; ● cycle / walk / less cars / reduce electricity use / recycle / wind / tidal / nuclear / renewable / eq; Consequences of global warming: Section 4: Ecology and the environment d) Human influences on the environment N Essenhigh KSW Biology Students will be assessed on their ability to: 4.15 understand the biological consequences of pollution of water by sewage, including increases in the number of micro-organisms causing depletion of oxygen ● global warming / greenhouse effect/gas / trap heat / rise in temp ● / eq; ● ice caps melting; ● flooding / rise in sea level; ● loss of habitat; ● loss of food / food chain disruption / loss of biodiversity / ● loss of organisms / extinction / eq; ● migration / affects development / eq; ● desertification / climate change / eq; Leaching: ● (nitrates) soluble / dissolve; ● rain / water / run off; ● leaching / leached; ● increased algal growth / plant growth / algal bloom / eq; ● block light / sun / eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points 4.16 understand that eutrophication can result from leached minerals from fertiliser ● plants die / less photosynthesis / eq; ● less oxygen / anoxic / eq; ● bacteria / fungi; ● decomposers / decomposition / rot / decay / eq; ● respiration; ● fish / animals die; ● eutrophication; 4.17 understand the effects of deforestation, including leaching, soil erosion, disturbance of the water cycle and of the balance in atmospheric oxygen and carbon dioxide. NB algae DO NOT remove O₂ Tip: Use key words. Section 5: Use of biological resources a) Food production b) Selective breeding Students will be assessed on their ability to: 5.1 describe how glasshouses and polythene tunnels can be used to increase the yield of certain crops 5.2 understand the effects on crop yield of increased carbon dioxide and increased temperature in glasshouses 5.3 understand the use of fertiliser to increase crop yield 5.4 understand the reasons for pest control and the advantages and disadvantages of using pesticides and biological control with crop plants 5.9 explain the methods which are used to farm large numbers of fish to provide a source of protein, including maintenance of water quality, control of intraspecific and interspecific predation, control of disease, removal of waste products, quality and frequency of feeding and the use of selective N Essenhigh KSW Biology Greenhouses: increase yield; (control / increased) temperature / use of heating (during cold months); (control / increased) light / extra light (in dark months); (control / increased) carbon dioxide; fewer pests / easier control of pests; less wind; less pollution; long wavelength reflected; enzymes; (more) photosynthesis; Fish Farming: ● (control) diet / quality / frequency; ● (control) water quality / oxygen / temperature / waste / eq; ● (control) predation / nets / eq; ● (control) disease / parasites / antibiotics / pathogens; Ignore healthier fish ● selected species / strain / mass / guarantee quality / less variation / eq; Ignore more fish produced ● no need for boats / easier to catch / guaranteed harvest / eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points breeding. ● less depletion of (wild) fish / less overfishing / no risk of catching other species / eq; 5.10 understand that plants with desired characteristics can be developed by selective breeding 5.11 understand that animals with desired characteristics can be developed by selective breeding. Selective breeding ● choose parents / organism; ● desired characteristics eg stem length / increased yield; ● breed / mate; ● choose offspring; ● repeat; Benefit of Biological Control: N Essenhigh KSW Biology ● lasts longer / no need to reapply /eq; ● specific / no harm to other species; ● no bioaccumulation / no biomagnification / eq; ● no resistance; ignore immunity ● no harm/affect to food chain(s) / eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 5: Use of biological resources a) Food production Students will be assessed on their ability to: Role of Lactobacillus: pH (continues to) decrease; acid / lactic acid formed; lactose / sugar; Lactobacillus increase / eq; texture change / coagulate protein / thicken / eq; taste change / goes sour / eq; 5.5 understand the role of yeast in the production of beer 5.6 describe a simple experiment to investigate carbon dioxide production by yeast, in different conditions 5.7 understand the role of bacteria (Lactobacillus) in the production of yoghurt 5.8 interpret and label a diagram of an industrial fermenter and explain the need to provide suitable conditions in the fermenter, including aseptic precautions, nutrients, optimum temperature and pH, oxygenation and agitation, for the growth of micro-organisms. Fermenter: Stirrer; Prevents nutrients/microbes from settling Keeps microbes in contact with the food Aseptic; No harmful microbes / pathogens Prevents harmful products being made Less competition for food from other microbes Optimum temperature; For enzymes Prevent denaturation Constant pH; For enzymes Prevent denaturation Oxygen supply: For aerobic respiration For growth (of microbes) Cooling water / water filled jacket: Removes heat from respiration / metabolic processes For enzymes Section 5: Use of biological resources c) Genetic modification (genetic engineering) N Essenhigh KSW Biology Students will be assessed on their ability to: 5.12 describe the use of restriction enzymes to cut DNA at specific sites and ligase enzymes to join pieces of DNA together Prevent denaturation Genetic Engineering: ● gene / DNA / allele; ● cut /eq; IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes ● restriction (endonuclease) enzyme; 5.13 describe how plasmids and viruses can act as vectors, which take up pieces of DNA, then insert this recombinant DNA into other cells ● plasmid; ● same restriction (endonuclease); ● ligase; 5.14 understand that large amounts of human insulin can be manufactured from genetically modified bacteria that are grown in a fermenter ● join / stick / glue /eq; ● recombinant DNA; ● vector; ● Agrobacterium / gene gun / virus; 5.15 evaluate the potential for using genetically modified plants to improve food production (illustrated by plants with improved resistance to pests). 5.16 understand that the term ‘transgenic’ means the transfer of genetic material from one species to a different species. N Essenhigh KSW Biology Exam bullet points Tip: Learn the names of the two enzymes Tip: Learn the definition of ‘transgenic’ - transfer of genetic material from one species to a different species IGCSE BIOLOGY – BULLET POINT NOTES Content coverage Learning outcomes Exam bullet points Section 5: Use of biological resources d) Cloning Students will be assessed on their ability to: Micropropagation: 5.17 describe the process of micropropagation (tissue culture) in which small pieces of plants (explants) are grown in vitro using nutrient media 5.18 understand how micropropagation can be used to produce commercial quantities of identical plants (clones) with desirable characteristics 5.19 describe the stages in the production of cloned mammals involving the introduction of a diploid nucleus from a mature cell into an enucleated egg cell, illustrated by Dolly the sheep 5.20 evaluate the potential for using cloned transgenic animals, for example to produce commercial quantities of human antibodies or organs for transplantation. ● explant / callus; ● small pieces of plant / eq; ignore cuttings alone agar / jelly; ● nutrient / named nutrient / eq; ● sterile / eq; ● growth promoter / hormone / rooting powder / eq; ● control moisture / fogging greenhouse / temperature / light / CO2; ● clones / genetically identical / same DNA; ● quick process / eq; ● all year round / eq; Benefits of Micropropagation: ● more plants / lots of plants / eq; ● quicker / faster / eq; ● same / identical / clones/ all have desired characteristic / eq; Producing cloned animals: N Essenhigh KSW Biology ● nucleus; ● empty / enucleated; Ignore unfertilised ● mitosis; ● embryo; ● uterus / womb; ● same / identical; Ignore similar
