Variation in Population size

Question 1

population

Answer 1

A population is all the organisms of one species in a habitat

Question 2

Population size

Answer 2

Population size is the total number of organisms of one species in a habitat. This number changes over time because of the effect of varying factors.

Question 3

The carrying capacity can vary as a result of:

Answer 3

The carrying capacity can vary as a result of:
the effect of abiotic factors
the effect of biotic factors -interspecific and intraspecific competition and predation.

Question 4

Variation in Population Size

Answer 4

When a species is introduced into a new environment its population grows in a characteristic way.
This growth curve can be seen in experimental evidence, for example bees in a hive or bacteria in culture.
The growth curve is s-shaped curve:

Question 5

Population Growth Patterns

Answer 5

The growth curve has three phases.
Different factors are responsible for each phase occurring.
These factors will depend on the ecosystem, and this can be illustrated by considering two contrasting examples: bacteria in a liquid culture (reproducing asexually), and hares in a field (reproducing sexually).

Question 6

Lag Phase

Bacteria in a Liquid Culture

Answer 6

Little growth as bacteria are transcribing genes and synthesising appropriate enzymes for new conditions.

Question 7

Rapid Growth Phase
Bacteria in a Liquid Culture

Answer 7

Rapid exponential growth. No limiting factors as the bacteria are at relatively low density.

Question 8

Stable Phase
Bacteria in a Liquid Culture

Answer 8

Slow growth due to accumulation of toxic waste products (e.g. ethanol) or lack of sugar.

Question 9

Hares in a Field
Lag Phase

Answer 9

Little growth due to small population. Individuals may rarely meet, so there are few matings. Long gestation period so few births.

Question 10

Rapid Growth Phase
Hares in a Field

Answer 10

Rapid growth, though not exponential. Few limiting factors as hare numbers are at relatively low density.

Question 11

Stable Phase
Hares in a Field

Answer 11

Slow growth due to intraspecific competition (see later) for food/territory, predation, disease, etc.

Question 12

carrying capacity.

Answer 12

The maximum stable population size of a species that an ecosystem can support is called its carrying capacity.

Question 13

Factors Affecting Population Size

Answer 13

During the stable phase the population may reach a maximum number that the ecosystem can support. This is called the carrying capacity.
The carrying capacity may be controlled by many different interacting factors.
It is often difficult to determine which factors are the most important.
The factors fall into two broad categories into abiotic and biotic factors.

Question 14

Abiotic factors and population size

Answer 14

Temperature – as this becomes lower than optimum, enzymes work more slowly and metabolic rate reduced.

As it becomes higher than optimum, enzymes work less efficiently as they become denatured.

The further away from the optimum, the smaller the population that can be supported.

pH – this affects the action of enzymes. Each enzyme has its optimum pH.

A population of organisms is larger where the appropriate range of pH exists.

Water and humidity – humidity affects transpiration rates in plants and the evaporation of water from the bodies of animals.

In dry conditions, populations are small and consist only of those species adapted to living in these conditions.

Question 15

Abiotic Factors: Food Supply

Answer 15

A population clearly will depend on the size of its food supply: if there is plenty of food the population increases and vice versa.
An example of this would be red deer introduced to an Alaskan island.
When they are introduced there would be a population increase as there would be lots of vegetation, the large population would then start to graze the vegetation too quickly for the slow growth to replace it, there is a large reduction in food supply and the deer population decreases.

Question 16

Abiotic Factors: Seasonal Variation

Answer 16

Abiotic factors can vary with the seasons, and this can cause a periodic oscillation in the population size:

This could be explained by the fact that summer tends to be hotter, there may be more reproduction and the population will increase, the converse being true for winter.
This kind of population size difference is normally seen in species with a short life cycle compared to the seasons, such as insects.
Species with long life cycles (i.e. longer than a year) do not change with the seasons like this.

This could be explained by the fact that summer tends to be hotter, there may be more reproduction and the population will increase, the converse being true for winter.
This kind of population size difference is normally seen in species with a short life cycle compared to the seasons, such as insects.
Species with long life cycles (i.e. longer than a year) do not change with the seasons like this.

Question 17

Biotic factors and population size

Answer 17

competition
predation

Question 18

competition

Answer 18

When 2 or more individuals share a resource e.g. food that is insufficient to satisfy all their requirements, then competition results

Intraspecific competition occurs between members of the same species

Interspecific competition occurs between individuals of different species.

Question 19

Intraspecific Competition

Answer 19

This is more significant than interspecific competition as members of the same species have the same niche and compete for the same resources.

Some species use aggressive behaviour to minimise real competition. Ritual fights, displays, threat postures are used to allow some individuals (the best adapted) to reproduce and exclude others often resulting in an optimum size for a population, an example of this would be male red deer:

Question 20

Predation is ……..

Answer 20

Where an organism ( the predator) kills and eats another organism ( the prey)

The population sizes of predators and prey are linked – as the population of one changes, it causes the population of the other to change

Question 21

Biotic Factors: Disease and Parasitism

Answer 21

This is very similar to the predator prey relationship.
Parasites/pathogens and their hosts have a close symbiotic relationship, so their populations will also oscillate.
If the population of parasite increases, they kill their hosts, so their population decreases. This means there are fewer hosts for the parasite, so their population decreases.
This allows the host population to recover, so the parasite population also recovers, the graph of this would be very similar to that on the previous slide.