Difference between revisions of "Possible consequences of eutrophication"
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==Human health impacts== | ==Human health impacts== | ||
| + | Harmful algal bloom species have the capacity to produce toxins dangerous to humans. Algal toxins are observed in marine ecosystems where they can accumulate in shellfish and more generally in seafood reaching dangerous levels for human as well as animal health. Examples include paralytic, neurotoxic and diarrhoeic shellfish poisoning. Around 40 algal species able of producing toxins harmful to human or marine life have been identified in European coastal waters. The table gives an overview of some species that are regularly observed and represent a risk for seafood consumers. | ||
==Socio-economic impacts== | ==Socio-economic impacts== | ||
Revision as of 11:12, 19 April 2013
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Contents
- 1 Introduction
- 2 Ecological impacts
- 2.1 Increased biomass of phytoplankton resulting in algal blooms
- 2.2 Toxic or inedible phytoplankton species (harmful algal blooms)
- 2.3 Increased in blooms of gelatinous zooplankton
- 2.4 Increased biomass of macroalgae
- 2.5 Decreases in water transparency (increased turbidity)
- 2.6 Dissolved oxygen depletion or hypoxia resulting in increased incidences of fish kills and / or dead benthic animals
- 2.7 Species biodiversity decreases and the dominant biota changes
- 3 Human health impacts
- 4 Socio-economic impacts
- 5 References
Introduction
Enhanced plant production and improved fish yields are sometimes described as positive impacts of eutrophication, especially in countries where fish and other aquatic organisms are a significant source of food. However detrimental ecological impacts can in turn have other negative consequences and impacts which are described below. Essentially the entire aquatic ecosystem changes with eutrophication.
Ecological impacts
Increased biomass of phytoplankton resulting in algal blooms
Toxic or inedible phytoplankton species (harmful algal blooms)
Increased in blooms of gelatinous zooplankton
Increased biomass of macroalgae
Decreases in water transparency (increased turbidity)
Dissolved oxygen depletion or hypoxia resulting in increased incidences of fish kills and / or dead benthic animals
Species biodiversity decreases and the dominant biota changes
Human health impacts
Harmful algal bloom species have the capacity to produce toxins dangerous to humans. Algal toxins are observed in marine ecosystems where they can accumulate in shellfish and more generally in seafood reaching dangerous levels for human as well as animal health. Examples include paralytic, neurotoxic and diarrhoeic shellfish poisoning. Around 40 algal species able of producing toxins harmful to human or marine life have been identified in European coastal waters. The table gives an overview of some species that are regularly observed and represent a risk for seafood consumers.
Socio-economic impacts
Nearly all of the above described impacts have a direct or indirect socio-economic impact.
References
- Eutrophication and health. European Commission (2002). Office for Official Publications of the European Communities: Luxembourg. ISBN 92-894-4413-4.28 pp.
- The National Eutrophication monitoring Programme Implementation Manual (Murray et al., 2002).
