Sampling for Abundance and Distribution (WJEC GCSE Biology: Combined Science)

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Naomi H

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Naomi H

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The Principles of Sampling

  • Sampling can be defined as:

The process of collecting a series of small data sets that can be used to represent an entire population

  • Sampling in a habitat can be used to assess:
    • Abundance
      • The number of different species, or the number of individuals of a particular species
    • Distribution
      • Where a species is found within a habitat
  • Sampling is a useful technique in large and complex habitats where it is not possible to find, identify, and count every organism that is present
  • Sampling data can be scaled up to make an estimate for the total species numbers in a habitat

The importance of representative sampling

  • Sampling involves taking a measure of abundance from a series of small areas within the habitat; these areas are used to represent the habitat as a whole
  • In order to be representative it is essential that the following are considered:
    • Samples sites must be distributed randomly within a habitat to avoid bias
    • Enough samples must be taken to represent the entire habitat; generally the higher the number of samples the more representative the results will be

Using Quadrats to Investigate Abundance

  • A quadrat is a square frame that is placed within the area to be studied to provide a sample
    • Quadrats can be used to study sessile organisms
    • Quadrats can be different sizes depending on the species being studied
      • A 1 m² quadrat can be used to study small organisms such as herbaceous plants in a grassland or limpets on a rocky shore
      • A 400 m² quadrat can be used to study large organisms such as trees
        • Quadrats like this will usually be marked out with string rather than a frame!
  • Quadrats can be placed in a habitat randomly or along a transect

Quadrat diagram

quadrat in use

Quadrats can be used to take samples when measuring biodiversity

Random quadrat sampling

  • When studying the abundance of organisms throughout an entire habitat quadrats should be placed randomly
    • This avoids bias which might occur, e.g. if a student chose to take samples in a particular spot because the organisms look easier to count
  • A series of random quadrat samples could be taken as follows:
    1. Lay out two tape measures at the edges of a habitat like a pair of graph axes; this creates a grid
    2. Use a random number generator to choose two numbers to use as grid co-ordinates
      • The quadrat is placed at this location on the grid
    3. Take a measure of abundance, e.g.
      • The number of species within the quadrat
      • The number of individuals of a particular species within the quadrat
      • The percentage cover of a particular species within the habitat
        • This may be easier for species where individual organisms cannot be easily distinguished, e.g. grass
    4. Points 2 and 3 should be repeated a number of times in order to obtain a representative sample

Random quadrat sampling diagram

Random quadrat sampling using grid coordinates

Quadrats should be placed at random when measuring abundance throughout an entire habitat

Transect sampling

  • Transects are lines laid out across a site; they are used to measure the effect of environmental factors on the distribution of organisms along a gradient, e.g.
    • At increasing distances from a feature such as a field margin or the edge of a water body
    • Along a soil pH gradient
    • Along a light intensity gradient
  • Quadrats can be used during transect sampling as follows:
    1. Lay out a tape measure across the habitat along the chosen gradient; this forms the transect
      • E.g. if investigating the effect of altitude on abundance then an altitude gradient would be used
    2. Place the quadrat at set points along the tape measure, e.g. at 5 metre or 1 metre intervals
    3. Take a measure of abundance in each quadrat
    4. Points 2 and 3 should be repeated a number of times in order to obtain a representative sample

Transect diagram

A hillside transect

Quadrats can be used together with transects to assess abundance along a gradient within a habitat, e.g. buttercup abundance at different altitudes

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Naomi H

Author: Naomi H

Expertise: Biology

Naomi graduated from the University of Oxford with a degree in Biological Sciences. She has 8 years of classroom experience teaching Key Stage 3 up to A-Level biology, and is currently a tutor and A-Level examiner. Naomi especially enjoys creating resources that enable students to build a solid understanding of subject content, while also connecting their knowledge with biology’s exciting, real-world applications.