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it is the "bloom" or great increase of phytoplankton in a water body. Negative environmental effects include hypoxia, the depletion of oxygen in the water, which induces reductions in specific fish and other animal populations. Other species (such as Nomura's jellyfish in Japanese waters) may experience an increase in population that negatively affects other species.
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What is distinction between eutrophication and artificial eutrophication?
Eutrophication is the natural process of nutrient accumulation in bodies of water, leading to increased plant growth and decreased oxygen levels. Artificial eutrophication is the accelerated accumulation of nutrients in water bodies due to human activities such as agriculture runoff or sewage discharge, causing rapid algae growth and disrupting the ecosystem balance.
Explain the distinction between eutrophication and artificial eutrophication?
Eutrophication is a natural process where bodies of water become nutrient-rich, promoting excessive plant growth and potentially harming ecosystems. Artificial eutrophication occurs when human activities, such as agriculture runoff or sewage discharge, introduce excess nutrients into water bodies, accelerating the eutrophication process and causing ecological imbalances.
The rapid growth of algae in bodies of water produces a condition called?
eutrophication.
Which fuel source has the greatest potential to cause eutrophication?
Fossil fuels, such as coal and oil, have the greatest potential to cause eutrophication due to their high nitrogen and phosphorus content. When these fuels are burned, they release nitrogen oxides and sulfur dioxide into the atmosphere, which can eventually deposit into bodies of water and contribute to nutrient pollution and eutrophication.
Loss of oxygen from bodies of water due to excess phosphorus input is called?
eutrophication
How do Humans contribute to eutrophication?
Eutrophication is the excessive richness of nutrients in a body of water. This leads to an unhealthy growth of plants and the death of marine animals due to lack of oxygen. Farming and the use of too much fertilizers can contribute to eutrophication.
How does the release of large amounts of phosphorus by humans cause problems?
The release of large amounts of phosphorus by humans can lead to eutrophication in water bodies. This excessive phosphorus can stimulate the growth of algae and aquatic plants, leading to algal blooms which can deplete oxygen levels in the water, harming aquatic life. It can also disrupt the balance of ecosystems and biodiversity.
What is the difference between natural and artificial eutrophication?
Natural eutrophication occurs when bodies of water gradually accumulate nutrients from sources like soil erosion and decomposing organic matter, leading to increased plant and algae growth. Artificial eutrophication is the rapid increase in nutrients in water bodies due to human activities like agriculture runoff and wastewater discharge. Artificial eutrophication can have more severe and harmful effects on aquatic ecosystems compared to natural eutrophication.
What is least likely to cause eutrophication?
Rainfall is least likely to cause eutrophication. Eutrophication is typically caused by excess nutrients, such as nitrogen and phosphorus, entering bodies of water from sources like agricultural runoff and wastewater discharge, leading to excessive algae growth and oxygen depletion. Rainfall alone does not directly contribute to eutrophication.
What element in fertilizers and some detergents contributes to water pollution and growth of algae and water weeds?
Phosphorus is the element in fertilizers and some detergents that contributes to water pollution and the growth of algae and water weeds. When phosphorus enters water bodies, it can lead to eutrophication, causing excessive algae growth and depleting oxygen levels, which harms aquatic ecosystems.
What Eutrophication is the result of .?
No
What problem do excess nitrogen and phosphorus cause?
Excess nitrogen and phosphorus can cause eutrophication in bodies of water. This leads to algal blooms, which can deplete oxygen levels and harm aquatic life. Additionally, the runoff of these nutrients into water sources can contribute to water pollution and have negative impacts on human health and ecosystems.
