Year 12 Biology Module 5 · IQ1 ⏱ ~35 min Practice bank · 3 Short Answer Lesson 2 of 19

Reproduction in Animals

A 2022 NOAA study of Chinook salmon in the Columbia River found that 90% of fish return to within 20 km of their birthplace after 3–5 years at sea, detecting pheromone gradients diluted to 1 part per 10 billion. Each returning female releases 4,000–14,000 eggs in a single mass spawning event, then dies. Pacific salmon are semelparous: they invest everything in one explosive reproductive event. Animals across the kingdom solve the same problem of fertilisation in remarkably different ways, each shaped by environment and energy trade-offs.

Today's hook: A 2022 NOAA study tracked Chinook salmon in the Columbia River and found they can detect a home-stream pheromone at 1 part per 10 billion, yet the female still releases up to 14,000 eggs in one event, then dies. If salmon can navigate thousands of kilometres to the exact right stream, why do they need to release so many eggs at once? What does this extreme reproductive investment reveal about the trade-offs between gamete number, fertilisation success, and parental survival?
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Worksheets

Practise this lesson

Four printable worksheets that build from the foundations up to exam-style questions, start at whatever level suits you.

Two Species, Two Strategies
warm-up

Imagine two species. Species A releases thousands of gametes into seawater. Species B produces far fewer gametes, but fertilisation occurs inside the female body.

Which species do you think is "more successful" at reproduction? Before learning the formal biology, explain what factors you would need to know before deciding. Is producing more gametes automatically better?

Learning Intentions
goals

Know

  • That fertilisation restores the diploid chromosome number.
  • The defining features of external and internal fertilisation.
  • Examples of each across major animal groups.

Understand

  • Why environment strongly influences fertilisation strategy.
  • Why more gametes does not automatically mean greater reproductive success.
  • Why fertilisation method should not be confused with mode of development.

Can Do

  • Compare external and internal fertilisation using biological evidence.
  • Explain the advantages and limitations of each strategy.
  • Apply the comparison to fish, frogs, reptiles, birds and mammals.
Scan these before reading
vocab
FertilisationFusion of haploid gametes to form a diploid zygote.
External fertilisationFertilisation that occurs outside the body, usually in an aquatic environment.
Internal fertilisationFertilisation that occurs inside the reproductive tract of the female.
GameteA haploid reproductive cell such as a sperm or egg.
ZygoteThe diploid cell formed when two gametes fuse at fertilisation.
Parental investmentThe time, energy and protection invested by parents into the survival of offspring.
Cross-lesson links: L01 showed the risk of clonal reproduction. L02 surveys the full range of reproductive strategies across the animal kingdom, understanding when each strategy is adaptive requires the energy trade-off logic from M4 and the variation principles from L01.
Key Point
Animal reproduction has to solve two problems at once, bringing gametes together and restoring the diploid chromosome number. Where and how fertilisation happens is shaped by the environment.
1
Fertilisation Restores the Diploid Condition
+5 XP

Gamete fusion · zygote formation · chromosome number

Every autumn in the Columbia River, NOAA researchers observe Chinook salmon returning from the Pacific in their thousands. Each female carries up to 14,000 eggs; she will release them all into gravel nests, fertilisation will happen externally in the water, and then she will die, the entire reproductive effort of 3–5 years of ocean life condensed into a single event. Meanwhile, a harbour seal female releases one egg internally, has it fertilised inside her body, and carries the pup for 11 months. Both strategies succeed; both solve the same problem of restoring the diploid chromosome number from haploid gametes, but under completely different environmental constraints.

Fertilisation is the fusion of a male and female gamete. Each gamete is haploid, meaning it contains one set of chromosomes. When the gametes fuse, the resulting zygote is diploid. This is critical because it restores the species' normal chromosome number in the next generation.

That means animal reproductive systems must do more than simply bring sperm and egg into contact. They must do so in a way that maximises the chance of successful fertilisation and survival of the resulting zygote or embryo.

Must know
Keep this sequence precise in exam responses: gametes are haploid → fertilisation occurs → a diploid zygote is formed. Do not say fertilisation "creates meiosis" or "produces gametes".

Fertilisation is the fusion of a haploid sperm and a haploid egg to produce a diploid zygote, restoring the species' chromosome number. Sequence: haploid gametes → fertilisation → diploid zygote.

Pause, copy the highlighted sequence into your book before moving on.

Fertilisation fuses two haploid gametes to form a diploid _____.

2
External Fertilisation, High Gamete Number, High Environmental Risk
+5 XP

Aquatic release · low protection · synchronised timing

We just saw that fertilisation fuses haploid gametes to form a diploid zygote, restoring the species' chromosome number. That raises a question: if gametes must meet, how do aquatic animals accomplish this in open water? This card answers it → external fertilisation: releasing massive numbers of gametes simultaneously.

External fertilisation works by scale. Because many gametes are lost to the environment, animals using this strategy often compensate by releasing very large numbers of gametes at the same time.

In external fertilisation, sperm and eggs are released into the external environment and fuse outside the body. This strategy is most common in aquatic animals such as many fish, amphibians and marine invertebrates because water prevents gametes from drying out and allows sperm to swim toward eggs.

Advantages

  • Large numbers of gametes and offspring can be produced.
  • Many offspring can disperse widely in aquatic environments.
  • Less direct parental contact may be needed during gamete release.

Limitations

  • Low probability that any one sperm meets any one egg.
  • Gametes can be diluted, eaten, or damaged by currents and predators.
  • Usually requires water and often highly synchronised timing.

Coral spawning is a classic example. Success depends on releasing many gametes simultaneously. Frogs also commonly use external fertilisation, with eggs and sperm released into water where the zygote forms externally.

Common error
"External fertilisation means primitive reproduction." Wrong. It is not primitive or inferior. It is a strategy well suited to aquatic environments where large numbers of gametes can be released and dispersed.

External fertilisation occurs outside the body, usually in water. Advantage: many gametes and offspring produced. Limitation: low per-gamete success rate; requires water and synchronised timing. Common in fish, amphibians and marine invertebrates.

Add the highlighted point to your notes before the check below.

External fertilisation is most common in which type of environment?

3
Internal Fertilisation, Fewer Gametes, Greater Protection
+5 XP

Protected fertilisation · terrestrial success · higher investment

We just saw that external fertilisation releases huge numbers of gametes into water, with low per-gamete success. That raises a question: how do animals on land, where gametes would dry out, achieve fertilisation at all? This card answers it → internal fertilisation: protecting gametes inside the female body.

Internal fertilisation works by control. By placing sperm closer to the egg inside the female reproductive tract, animals can use fewer gametes while still maintaining a relatively high chance of fertilisation.

In internal fertilisation, sperm are transferred into the female reproductive tract and fertilisation occurs inside the body. This strategy is common in reptiles, birds, mammals and some fish.

Advantages

  • Gametes are protected from drying out and environmental loss.
  • Higher probability of successful fertilisation per gamete.
  • Allows reproduction away from open water, supporting terrestrial life.
  • Often linked to greater parental protection of embryos or young.

Limitations

  • Usually requires mating and specialised reproductive structures.
  • Fewer offspring may be produced at one time.
  • Parental investment per offspring is often higher.

Birds, reptiles and mammals all rely on internal fertilisation, but what happens after fertilisation differs. Some lay eggs, while others retain developing embryos internally. That is why fertilisation method must be kept separate from mode of development.

Internal fertilisation occurs inside the female body. Advantage: gametes are protected from desiccation; higher per-gamete success; supports terrestrial life. Limitation: requires mating, fewer offspring, higher parental investment per offspring. Common in reptiles, birds and mammals.

Pause, write the highlighted distinction into your book.

Internal fertilisation usually produces more gametes per reproductive event than external fertilisation.

In humans, fertilisation normally occurs in the fallopian tube, not the uterus.

The acrosome reaction allows the sperm to penetrate the zona pellucida using mechanical force alone.

External Fertilisation Internal Fertilisation Water environment gametes released outside body male female many gametes · lower per-gamete success female reproductive tract egg male zygote fewer gametes · higher protection and success

External fertilisation relies on release into the environment; internal fertilisation increases control and protection.

4
Animal Examples, The Environment Shapes the Strategy
+5 XP

Fish · frogs · reptiles · birds · mammals

We just saw that internal fertilisation protects gametes from desiccation and is key to terrestrial reproduction. That raises a question: how does this play out across different animal groups, and is fertilisation strategy the same as developmental strategy? This card answers it → mapping fertilisation strategy to animal groups and separating it from egg-laying vs live birth.

Fertilisation strategy reflects environmental constraints and trade-offs. Water availability, risk of gamete loss, parental investment and embryo protection all influence which approach is favoured.

Animal group Typical fertilisation strategy Why it suits the group
Many bony fish External Aquatic habitat supports gamete release; many offspring can be produced at once.
Many frogs External Eggs and sperm are released in water; fertilisation depends on moisture and timing.
Reptiles Internal Allows fertilisation on land and reduces risk of desiccation.
Birds Internal Supports terrestrial reproduction even though development may later occur in an egg.
Mammals Internal Protected fertilisation and usually high parental investment in fewer offspring.

The important HSC distinction is that fertilisation strategy and developmental strategy are not the same thing. Birds and reptiles have internal fertilisation even though many develop externally in eggs. Mammals also have internal fertilisation, but most keep development inside the uterus.

Exam trap
"Birds use external fertilisation because they lay eggs." Wrong. Egg-laying is about embryo development after fertilisation. In birds, fertilisation occurs internally before the egg is laid.

Fish and frogs = external fertilisation; reptiles, birds and mammals = internal fertilisation. Key distinction: fertilisation strategy is NOT the same as developmental strategy, birds have internal fertilisation but external development inside an egg.

Add the highlighted animal examples and the key distinction to your notes before the check below.

Birds lay eggs. Which fertilisation strategy do they use?

Activity 1
ApplyBand 3

Analyse and Justify

For each scenario, state the fertilisation strategy and justify your choice in one sentence.

  1. A marine fish releases its eggs and sperm into the open ocean during a spawning event.
  2. A desert lizard reproduces successfully in a hot, dry habitat with no standing water.
  3. A frog species can only breed when ponds fill with water after rain.
  4. A hen lays a fertilised egg several hours after mating with a rooster.
Activity 2
AnalyseBand 4

Compare Strategy and Outcome

Answer all three parts, using the trade-offs from the lesson.

  1. Why do fish using external fertilisation usually release far more gametes than mammals using internal fertilisation?
  2. How does internal fertilisation support reproduction in terrestrial environments?
  3. Under what conditions can external fertilisation still be highly successful?
PRIORITY MISCONCEPTIONS
Priority Misconceptions
✗ Internal fertilisation always produces more offspring than external fertilisation.
✓ Internal fertilisation typically produces fewer offspring per reproductive event, but with greater parental investment and higher per-offspring survival. External fertilisation releases many more gametes but with lower fertilisation and survival rates. Both strategies are evolutionarily successful.

Fertilisation

  • Fusion of haploid gametes to form a diploid zygote, restoring chromosome number.

External fertilisation

  • Occurs outside the body, usually in water; many gametes, lower per-gamete success.

Internal fertilisation

  • Occurs inside the female body; fewer gametes, greater protection and higher per-gamete success.

Exam sentence starter

  • "Internal fertilisation is advantageous in terrestrial environments because gametes are protected from desiccation and the probability of successful fertilisation per gamete is higher."
Interactive Tool, Reproduction Comparison Open fullscreen ↗
True or false?
The Reproduction tool shows that sexual reproduction always produces offspring genetically identical to the parents.
01
Multiple Choice
+5 XP

A fresh set drawn from this lesson's question bank, feedback shown immediately. +5 XP per correct · +25 XP all correct

Pick your answer, then rate your confidence, that tells the system what to drill next.

02
Short Answer, 12 marks
+5 XP

UnderstandBand 3(3 marks) 1. Define fertilisation and explain why it is important for continuity of species in sexually reproducing animals.

AnalyseBand 4(4 marks) 2. Compare external and internal fertilisation in terms of environment, gamete number, protection and reproductive success.

EvaluateBand 5–6(5 marks) 3. Coral spawning and mammalian reproduction use very different fertilisation strategies. Evaluate which strategy is more effective for continuity of species, using evidence from environmental conditions and reproductive trade-offs.

Show all answers

Multiple choice

MC answers and full explanations are shown inline as you complete each question. Use the retry button to attempt a fresh set from the lesson bank.

Activity 1, Analyse and Justify

1. External fertilisation, because the gametes are released into seawater and fertilisation occurs outside the body.

2. Internal fertilisation, because reproduction succeeds in a dry habitat and gametes must be protected from desiccation.

3. This suggests external fertilisation, because success depends on water remaining available for gamete survival and fusion.

4. Internal fertilisation, because the sperm and egg fuse inside the female before the egg is laid.

Activity 2, Compare Strategy and Outcome

Fish spawning versus mammals: Fish using external fertilisation often release very large numbers of gametes because many are lost in the environment. Mammals using internal fertilisation usually produce fewer gametes per reproductive event because protection inside the reproductive tract increases the chance of success.

Internal fertilisation and terrestrial life: It protects gametes from drying out and increases the chance of sperm reaching the egg, so reproduction is less dependent on open water.

When external fertilisation can still succeed: In aquatic environments with synchronised spawning and very large gamete release, such as many marine invertebrates and fish.

Short Answer Model Responses

Q1 (3 marks): Fertilisation is the fusion of haploid sperm and egg cells to form a diploid zygote [1]. It is important because it restores the normal chromosome number of the species in the next generation [1]. This allows hereditary information from the parents to be combined and passed on, supporting continuity of species [1].

Q2 (4 marks): External fertilisation occurs outside the body, usually in an aquatic environment, and often involves release of many gametes because the probability of any one sperm reaching any one egg is relatively low [1]. Internal fertilisation occurs inside the female reproductive tract, so gametes are better protected and fewer are usually needed [1]. External fertilisation has lower protection and is more affected by environmental loss [1], while internal fertilisation usually has higher per-gamete success and supports reproduction in terrestrial environments [1].

Q3 (5 marks): Neither strategy is universally more effective; effectiveness depends on context [1]. Coral spawning is effective in aquatic environments because huge numbers of synchronised gametes can be released into water, allowing enough fertilisations to occur despite high loss [1]. Mammalian internal fertilisation is effective in terrestrial environments because gametes are protected, fertilisation success per gamete is higher, and parental investment can increase offspring survival [1]. External fertilisation is better suited to environments where water supports gamete movement and many offspring can be produced [1], whereas internal fertilisation is better suited to protected reproduction with fewer offspring and greater parental investment [1].

RAPID REVIEW
The big ideas in four tiles

Fertilisation

Fusion of haploid gametes to form a diploid zygote.

External fertilisation

Usually aquatic, many gametes, lower per-gamete success.

Internal fertilisation

Protected, fewer gametes, higher per-gamete success.

Exam trap

Egg-laying does not mean external fertilisation.

Test yourself against the clock
boss

Rapid-fire questions on fertilisation, external vs internal strategies and reproductive trade-offs. Beat the boss to bank a tier, gold (perfect + fast), silver (80%+), or bronze (cleared).

How did your thinking change?

The 2022 NOAA study of Chinook salmon in the Columbia River captured both extremes of animal reproductive strategy simultaneously: salmon that use extraordinary sensory precision (detecting pheromones at 1 part per 10 billion) to find their exact birthplace, yet still rely on mass external fertilisation by releasing up to 14,000 eggs, before dying. This semelparous strategy works because water provides the medium for gamete meeting, but the cost is total parental death. Internal fertilisation, as seen in mammals, achieves higher fertilisation probability with far fewer gametes by bringing sperm directly to the egg inside the reproductive tract. The key biological principle is that reproductive strategy is shaped by the environment: water availability, gamete loss risk, and the energy available for parental investment all determine which approach increases reproductive success.