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Date November 2019 Marks available 2 Reference code 19N.2.SL.TZ0.1
Level Standard Level Paper Paper 2 Time zone Time zone 0
Command term Outline Question number 1 Adapted from N/A

Question

Figure 1: A typical soil profile

[Source: adapted from WilsonBiggs/Hridith Sudev Nambiar/Wikimedia. File licensed under CC BY-SA 4.0;
https://creativecommons.org/licenses/by-sa/4.0/]

State one transfer of matter occurring within the soil profile.

[1]
a.i.

State one transformation process occurring within the soil profile.

[1]
a.ii.

Identify one example of an output to the atmosphere from the soil system.

[1]
a.iii.

Describe two characteristics of soil with high primary productivity.

[2]
b.

Outline two conservation methods that could be used to reduce soil erosion.

[2]
c.

Markscheme

biological mixing by soil animals/earthworms / leaching / seepage / capillary action / drainage / percolation / infiltration / eluviation / absorption of minerals/water by living organisms.

Do not accept INPUTS of matter eg precipitation, leaf litter, parent material, particle deposition or OUTPUTS of matter eg erosion; or TRANSFORMATIONS of matter eg evaporation/weathering.

a.i.

decomposition;
humus formation/humification of organic matter;
weathering of primary minerals/parent rock;
nutrient cycling/nitrogen fixation/nitrification/denitrification/ammonification;
evaporation;
rusting soil.

Do not accept inputs, outputs or transfers of matter or transformations that do not occur within the soil profile.

a.ii.

Nitrogen (from denitrification) / water (vapour from evaporation) / heat (from radiation/conduction) / soil particles/erosion (from wind) / CO2 (from soil organism respiration) / methane (from anaerobic decomposition).

Do not credit the processes in brackets ... these may give rise to the outputs but are not themselves an output from the soil.

a.iii.

optimum/medium particle size / loam soils / mixed/balanced composition of sand/silt/clay;
allow good drainage/permeability/resist water-logging;
prevent excessive leaching/good water-holding capacity;
provide sufficient air space/porosity for root growth/O2 supply;
contain ample dead organic matter/humus (for decomposers);
healthy/abundant decomposing community/soil organisms;
high availability of minerals/inorganic nutrients;
appropriate pH (6.0–6.8).

b.

Cultivation techniques:
contour ploughing with furrows following the contour lines/at right angles to the slope/to reduce runoff;
terrace farming forms a series of steps in the hillside area/to prevent run-off;
maintaining cover crops/plant roots/stubble/mixed agriculture/agroforestry to hold soil in place between harvesting; 
mulching consists of applying organic material over the exposed soil / preventing surface runoff;
buffer strips/vegetative areas by watercourses to reduce run-off/water erosion;
adding soil conditioners/lime/humus/organic material/fertilizers to increase root growth/hold soil together;
wind reduction techniques, eg wind/shelter breaks to prevent wind erosion;
avoid overgrazing/over-cropping/monoculture which degrades soil texture;
zero/minimum tillage reduces soil agitation/potential for erosion;
trickle/drip irrigation reduces run-off causing erosion.

Note: As an ‘outline’ Q, response requires just a little more than just naming a technique eg ‘terrace farming involves creating steps on a hillside’ or ‘terrace farming prevents run-off’ are acceptable ...but ‘terrace farming’ alone is insufficient.

c.

Examiners report

[N/A]
a.i.
[N/A]
a.ii.
[N/A]
a.iii.
[N/A]
b.
[N/A]
c.

Syllabus sections

Topic 5: Soil systems and terrestrial food production systems and societies » 5.3 Soil degradation and conservation
Topic 5: Soil systems and terrestrial food production systems and societies

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