What Is Eutrophication?
Eutrophication is the process in which a water body becomes overly enriched with nutrients, leading to plentiful growth of simple plant life. The excessive growth (or bloom) of algae and plankton in a water body are indicators of this process. Eutrophication is considered to be a serious environmental concern since it often results in the deterioration of water quality and the depletion of dissolved oxygen in water bodies. Eutrophic waters can eventually become “dead zones” that are incapable of supporting life.
Table of Content
- Definition of Eutrophication
- Causes of Eutrophication
- Classification of Eutrophication
- Effects of Eutrophication
- FAQs on Eutrophication
Definition of Eutrophication
Eutrophication may be defined as the inorganic nutrient enrichment of natural waters, leading to an increased production of algae and macrophytes.
Many lakes are naturally eutrophic and in some cases there is a progressive eutrophication as the lake matures. The term Eutrophication is more widely known in relation to human activities where the artificial introduction of plant nutrients has led to community changes and a deterioration of water quality in many freshwater systems. This aspect has become increasingly important with increases in human population and more extensive development of agriculture and eutrophication now ranks with other major anthropogenic effects such as deforestation, global warming depletion of the ozone layer and large scale environmental disturbance in relation to its potentially harmful effect on natural ecosystems.
An image detailing the excessive growth of algae in a eutrophic water body is provided below.
Aquatic ecosystems are home to several plant and animal life forms – both simple and complex. The process of eutrophication destroys the balance in these ecosystems by favouring the growth of simple plant life. This greatly decreases the biodiversity of the ecosystem by killing off several desirable species.
Causes of Eutrophication
The availability of nutrients such as nitrogen and phosphorus limits the growth of plant life in an ecosystem. When water bodies are overly enriched with these nutrients, the growth of algae, plankton, and other simple plant life is favoured over the growth of more complex plant life.
How do Water Bodies Become Overly Enriched?
Phosphorus is considered one of the primary limiting factors for the growth of plant life in freshwater ecosystems. Several sources also claim that the availability of nitrogen is an important limiting factor for the growth of algae.
Phosphates tend to stick to the soil and are transported along with it. Therefore, soil erosion is a major contributor to the phosphorus enrichment of water bodies. Some other phosphorus-rich sources that enrich water bodies with the nutrient include:
- Fertilizers
- Untreated sewage
- Detergents containing phosphorus
- Industrial discharge of waste.
Among these sources, the primary contributors to eutrophication include agriculture and industrial wastes.
What Happens to the Huge Biomass of Algae in Eutrophic Waters?
The excessive growth of algae in eutrophic waters is accompanied by the generation of a large biomass of dead algae. These dead algae sink to the bottom of the water body where they are broken down by bacteria, which consume oxygen in the process.
The overconsumption of oxygen leads to hypoxic conditions (conditions in which the availability of oxygen is low) in the water. The hypoxic conditions at the lower levels of the water body lead to the suffocation and eventual death of larger life forms such as fish.
Classification of Eutrophication
The process of eutrophication can be categorized into two types based on its root cause. Both these types are explained in this subsection.
Anthropogenic Eutrophication
Anthropogenic eutrophication is caused by human activity – Agricultural farms, golf courses, lawns, etc. are supplied with nutrients by humans in the form of fertilizers. These fertilizers are washed away by rains and eventually find their way into water bodies such as lakes and rivers.
When introduced to an aqueous ecosystem, the fertilizers supply plentiful nutrients to algae and plankton, resulting in the eutrophication of the water body.
Overpopulation places a huge demand on industrial and agricultural expansion, which in turn leads to deforestation. When this occurs, the soil erodes more easily, resulting in increased soil deposits in water bodies. If the soil is rich in phosphorus, it can lead to eutrophication and severely damage the ecosystem in and around the water body.
When sewage pipes and industrial wastes are directed to water bodies, the nutrients present in the sewage and other wastes increase the rate at which eutrophication occurs.
Natural Eutrophication
Natural eutrophication refers to the excessive enrichment of water bodies via natural events. For example, the nutrients from the land can be washed away in a flood and deposited into a lake or a river. These water bodies become overly enriched with nutrients, enabling the excessive growth of algae and other simple plant life.
The process of natural eutrophication is much slower when compared to the process of anthropogenic eutrophication. This process is also somewhat dependant on the temperature of the environment. It may even be complemented by the temperature changes brought on by global warming.
Effects of Eutrophication
Primarily, the adverse effects of eutrophication on aquatic bodies include a decrease in biodiversity, increase in toxicity of the water body, and change in species dominance. Some other important effects of this process are listed below.
- Phytoplanktons grow much faster in such situations. These phytoplankton species are toxic and are inedible.
- Gelatinous zooplankton blooms fast in these waters.
- Increased biomass of epiphytic and benthic algae can be observed in eutrophic waters.
- Significant changes arise in the species composition of macrophytes and the biomass.
- The water loses its transparency and develops a bad smell and colour. The treatment of this water becomes difficult.
- Depletion of dissolved oxygen in the water body.
- Frequent fish kill incidents occur and many desirable fish species are removed from the water body.
- The populations of shellfish and harvestable fish are lowered.
- The aesthetic value of the water body diminishes significantly.
An image detailing the change in the quality of water in eutrophic water bodies is provided above.
Ecological Effects of Eutrophication
Natural standing waters range from ultra oligotrophic to eutrophic with progressive increase in productivity and related parameters. In addition to such general changes, eutrophication also affects the vertical structure of lakes with further implications for the biology of freshwater organisms. The transition from eutrophic to hypertrophic status is usually the result of human activities, and ultimately affects the whole ecological balance of the freshwater system.
Decrease in Biodiversity
When an aquatic ecosystem is enriched with nutrients by either natural or artificial means, the conditions become extremely beneficial to primary producers. Commonly, algae and other similar species utilize these nutrients and a huge increase in their population (algal bloom) is observed.
These algal blooms hinder the flow of sunlight to the bottom of the aquatic body and also cause wide swings in the dissolved oxygen levels in the water.
When the dissolved oxygen in the water reduces to an amount below the hypoxic level, many marine animals suffocate and die. This reduces the effective biodiversity of the water body.
Increase in Water Toxicity
A few algae are toxic to many plants and animals. When these algae bloom in eutrophic waters, they release neurotoxins and hepatotoxins. These toxins can also move up the food chain via shellfish or other marine animals and lead to the death of many animals.
Toxic algal blooms can also be harmful to humans and are the root cause of many cases of neurotoxic, paralytic, and diarrhoetic shellfish poisoning.
Invasion of New Species
A limiting nutrient corresponding to a water body can be made abundant by the eutrophication process, leading to a shift in the species composition of the aquatic body and the ecosystem surrounding it.
If a nitrogen deficient water body is suddenly enriched with it, many other competitive species might relocate to the water body and out-compete the original inhabitants of the ecosystem. One such example of a new species invading eutrophic conditions is the common carp, which has adapted to these conditions.
Frequently Asked Questions-FAQs
What are the adverse effects of eutrophication?
The algal blooms in the water body can inhibit the supply of sunlight at the lower depths. This can pose a threat to the survival of many plants and animals. The depletion of the oxygen levels in the water body due to this phenomenon also has an adverse effect on the local biosphere.
What is anthropogenic eutrophication?
It is a type of eutrophication that is a result of human activity and is generally caused by the influx of potassium-rich fertilizers into the aqueous body. Another root cause of this is deforestation, which causes the erosion and transportation of nutrient-rich soil into the water body.
How can eutrophication occur naturally?
Many natural phenomena such as the flooding of lakes or rivers can wash away the nutrient-rich soil from the land surrounding the water bodies. This nutrient-rich soil can promote the growth of algae in the aqueous body. However, this is a rather slow process.
What are the measures that can be taken to prevent eutrophication?
This process can be controlled by preventing the inflow of phosphorus-rich substances into the water bodies. Avoiding the overuse of fertilizers and the proper channelling of agricultural wastes also help in the prevention of eutrophication.
What happens during eutrophication?
Eutrophication is the mechanism by which the lakes obtain nutrients (phosphorus and nitrogen) and sediments from the surrounding watershed and become more abundant and shallow. The additional nutrients are foods for algae and fish, and the more eutrophic a lake is, the more it sustains living organisms.
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