����tv

When sampling a population, the numbers of organisms are counted within a sample site, and then the results multiplied to estimate the total number in the entire habitat. Large animals and plants can often simply be counted. However, many smaller animals like insects and smaller mammals need to be trapped first so they can be counted and then released afterwards.

Collecting organisms

Organisms can be collected using a variety of methods, including:

• nets
• pooters
• pitfall traps

Nets and pooters

Nets are useful for collecting flying insects such as butterflies and moths. They are swept through long grass or leaves of trees in a process called sweep netting. The organisms are caught in the net. To catch aquatic organisms, nets are often held downstream of the area to be studied and then the riverbed is gently disturbed by the person doing the sampling. The small animals float into the net. This is called kick-sampling.

An insect sweep net

A pooter is a small jar used for collecting insects. It has two tubes - one goes into your mouth so you can apply suction, and the other goes over the insect so that it is sucked into the jar. A fine mesh over the end of the first tube stops you swallowing the insect.

Pitfall traps

Capture-recapture

One way to estimate the population size of an animal species is capture-recapture. Some animals are trapped, for example, using pitfall traps. They are marked in some harmless way then released. Traps are used a few days later. The numbers of marked and unmarked animals caught in the traps are recorded. The population size is estimated using this formula:

For example, ten animals were trapped, marked and released. Two days later, 20 animals were trapped. Of these, five were found to be marked.

When using capture-recapture data, you have to make assumptions including:

• there is no death, or movement of animals to other habitats
• the sampling methods used each time are identical
• the marking has not affected the survival rate of the animals

Using keys

When sampling a habitat, there is the possibility that a scientist will come across organisms that they do not recognise. In this case, the scientist consults a key. This has pictures and descriptions of organisms so that the scientist can compare what they see with the data in the key. A key will usually ask questions based on easily identifiable features of an organism. Dichotomous keys use questions to which there are only two answers. They can be presented as a table of questions, or as a branching tree of questions.

Branching tree example

This tree could help you identify a new vertebrate. For example, if it had no fur or feathers and dry skin, you would follow the right-hand pathway at the first and second junctions, but the left-hand pathway at the third junction. This would lead you to identify the animal as a reptile.