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Date May 2021 Marks available 1 Reference code 21M.1.SL.TZ0.5
Level Standard Level Paper Paper 1 Time zone Time zone 0
Command term State Question number 5 Adapted from N/A

Question

Figure 6(d): The Nadezhda smelting plant in Norilsk opened in 1979

The plant may be a possible source of the water discolouration.

[Source: NASA Earth Observatory image by Jesse Allen, using Landsat data from the U.S. Geological Survey.]

Figure 6(e): Daldykan River in Norilsk

[Source: © Liza Udilova / Greenpeace.]

Describe a practical strategy using a biotic index to provide evidence that the Daldykan River (Figures 6(d) and 6(e)) is damaged by effluent from the metal processing plant.

[3]
a.

When measuring levels of pollution, state one advantage of using a biotic index compared to measuring the pollutants directly.

Advantage:

 

[1]
b.i.

When measuring levels of pollution, state one disadvantage of using a biotic index compared to measuring the pollutants directly.

Disadvantage:

 

[1]
b.ii.

Markscheme

identify sampling sites upstream and downstream of plant/town / sample before and after effluent is released; sample invertebrate populations / e.g. using kick samples/nets;
identify and count numbers of each species; determine the absence/presence of indicator species;
calculate from this data the biotic index for each site / e.g. use BMWP/Simpson’s Diversity Index/Trent Biotic Index; repeat sampling throughout the year;

Do not accept ‘use of fish’.
Do not accept only ‘measure biodiversity’.

a.

measures actual impact on living organisms/ecosystem;
can see if pollution has occurred in the past/in the lifespan of the indicator species even if the water is clean now;
records seasonal changes in the impact of pollutants;
does not require complex chemical analysis;
does not require expensive equipment / is relatively cheap; 

Do not accept ‘using a biotic index is quicker than measuring pollutants directly’.
Do not accept ‘provides a numerical value for the level of pollution’.
Do not accept ‘can be used as a reference for future monitoring’.

b.i.

does not identify pollutant causing impacts / does not measure the level of the actual pollutant;
does not directly measure the level of pollution;
does not help identify source responsible for impacts;
inaccurate as populations change naturally (during the season) / impacts could be due to natural changes in environment/other factors;
requires knowledge of/ability in identification of organisms for area;
requires existence of identification keys;

Do not accept only ‘it is not exact/precise’.
Do not accept ‘method kills organisms’.

b.ii.

Examiners report

Overall this question was poorly answered. A significant number of candidates did not attempt to answer the question, leaving a blank response. Few candidates were able to fully describe how the river could be sampled when using a biotic index. Some students inappropriately suggested the use of BOD, pH, turbidity, colour, fish, Lincoln's Index or vegetation around the river. 

a.

There was a wide range of responses for this question, with many correctly linking their response to the actual impact on living organisms. However, it was clear that a significant number of candidates did not understand what a biotic index was and incorrectly discussed the use of abiotic parameters such as pH.

b.i.

Many candidates correctly answered this question. A popular response was "it does not measure the level of the actual pollutant". A significant number of responses were too vague, such as "it is not exact or precise". 

b.ii.

Syllabus sections

Topic 4: Water and aquatic food production systems and societies » 4.4 Water pollution
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Topic 2: Ecosystems and ecology » 2.5 Investigating ecosystems
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