Algal blooms
One direct outcome of excess nitrogen is eutrophication, a phenomenon where increased levels of nitrogen in bodies of water lead to excessive algal growth. This can deplete oxygen levels in the water, harming aquatic life and ecosystems.
Algal Blooms. (APEX)
Excess nitrogen can enter waterways through runoff from agricultural fields where fertilizers are applied, discharge from wastewater treatment plants, and atmospheric deposition from vehicle emissions and industrial activities. This can lead to eutrophication and harmful algal blooms in water bodies.
Excess nitrogen can lead to eutrophication, where increased nutrient levels in bodies of water stimulate the growth of algae and plankton, leading to oxygen depletion and potentially harming aquatic life.
Eutrophication
excess nitrogen
Excess nutrients, such as nitrogen and phosphorus, from sources like agricultural runoff, sewage discharge, and fertilizers are a primary cause of algal blooms in waterways. These nutrients promote the rapid growth of algae, leading to dense populations that can harm water quality and aquatic life.
Nitrogen gas is unnecessary. It is not using in the photosynthesis.
Excess nitrogen is converted into urea by the liver through a process called the urea cycle. Urea is then excreted in urine by the kidneys to maintain nitrogen balance in the body.
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Acid rain is caused by which of the following? excess carbon dioxide deforestation nitrogen compounds in the air nitrogen compounds in the soil Help me please
Excess nitrogen in the body can be used for muscle protein synthesis or be converted into urea and excreted by the kidneys as urine. Adequate protein intake and regular exercise help maximize the benefits of excess nitrogen for muscle growth and repair.