Non-random Sampling

This lesson covers: 

1. Differences between random and non-random sampling
2. Non-random sampling techniques
3. Measuring abiotic factors

Random and non-random sampling

Non-random sampling involves selection based on specific criteria or patterns and the sample is not chosen at random.

Differences between random and non-random sampling:

1. Random sampling removes human bias in sample selection, improving reliability.
2. Non-random sampling does not use random selection so is prone to bias.

Non-random sampling techniques

Systematic sampling is the main non-random sampling technique you need to know.

Key features of systematic sampling:

• It is a non-random sampling method where different areas in a habitat are sampled at regular intervals to avoid bias.
• It allows for the study of how species' distributions change across different areas within a habitat, for example, from a woodland to a lake.
• It involves marking a line (transect) and taking samples along this line at regular intervals.

Line and belt transects

There are two main types of transect sampling:

• Line transect - Samples are taken at regular intervals along a line between two points.
• Belt transect - Samples are taken in an area between two parallel lines using quadrats placed either side by side (continuous) or at regular intervals (interrupted).

Measuring abiotic factors

Abiotic factors directly affect organisms in a habitat so they are useful to measure when sampling.

We can measure abiotic factors like:

• Light, humidity, and temperature (using sensors).
• pH and wind speed (using probes).
• Dissolved oxygen (using specialised probes).

Advantages of measuring abiotic factors:

• They can detect rapid changes.
• They can reduce human error in taking readings.
• They can achieve a high degree of precision
• They allow data to be stored and tracked on a computer.