Syllabus Edition
First teaching 2015
Last exams 2025
Biodegradation of Organic Material (DP IB Environmental Systems & Societies (ESS))
Revision Note
Written by: Alistair Marjot
Reviewed by: Bridgette Barrett
Biodegradation of Organic Material
Algal booms on Milford Lake in Kansas are an example of excessive biodegradation of organic material
Biodegradation of organic material refers to the natural process where microorganisms break down organic substances into simpler compounds
During biodegradation, microorganisms utilise oxygen for the breakdown of organic matter
High levels of organic material can lead to increased microbial activity and oxygen consumption in water bodies
Excessive biodegradation of organic material can deplete dissolved oxygen levels, leading to anoxic conditions (low oxygen) in the water
In anoxic conditions, anaerobic decomposition occurs, carried out by bacteria that do not require oxygen
Anaerobic decomposition results in the production of gases such as methane (CH4), hydrogen sulphide (H2S), and ammonia (NH3)
Methane is a powerful greenhouse gas and contributes to climate change when released into the atmosphere
Hydrogen sulphide is highly toxic and can harm aquatic organisms
Ammonia, in high concentrations, can be toxic to aquatic life and contribute to nutrient pollution, causing eutrophication and algal blooms
The presence of these toxic gases can have detrimental effects on water quality, aquatic ecosystems, and the organisms that rely on them
It is important to manage organic waste properly, promote adequate oxygen levels in water bodies, and prevent the buildup of excessive organic material in order to minimise the occurrence of anoxic conditions and the subsequent formation of toxic gases
Biochemical Oxygen Demand
Biochemical oxygen demand (BOD) is a measure of the amount of dissolved oxygen required to break down the organic material in a given volume of water through aerobic biological activity
Aerobic organisms rely on oxygen for respiration
When there is a higher abundance of organisms or an increased rate of respiration, more oxygen is consumed
This means that the biochemical oxygen demand (BOD) is influenced by:
The quantity of aerobic organisms present in the water
The rate at which these organisms respire
BOD can be used as an indirect measure to evaluate pollution levels in water
The introduction of organic pollutants, such as sewage, leads to an increase in the population of organisms that feed on and break down the pollutants
This, in turn, results in elevated BOD values
Certain species, such as bloodworms and Tubifex worms, show tolerance to organic pollution and the associated low oxygen levels
On the other hand, mayfly nymphs and stonefly larvae are typically only found in clean-water environments
Matthias Tilly, CC BY 3.0,via Wikimedia Commons
Tubifex worms are able to withstand quite polluted water
Example of how BOD is used to indirectly measure the amount of organic matter within a sample
High BOD values indicate a larger amount of organic matter present in the water sample, as more oxygen is needed for its decomposition
By measuring the decrease in dissolved oxygen levels over a specific incubation period, BOD provides an estimate of the organic load or pollution level in the water
BOD values are typically expressed in milligrams of oxygen per litre of water (mg/L) or as a percentage of the initial dissolved oxygen level
The BOD test involves collecting a water sample in a closed container and measuring the dissolved oxygen concentration initially and after a specific incubation period (often 5 days) at a constant temperature
For example, if a water sample has an initial dissolved oxygen concentration of 8 mg/L and after 5 days, the dissolved oxygen concentration decreases to 2 mg/L, the BOD value would be calculated as 8 mg/L - 2 mg/L = 6 mg/L
As the dissolved oxygen levels have decreased substantially, this indicates that the sample has a relatively high organic load
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