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Usage Examples
Filter by Meaning Many wastewater treatment plants utilize denitrification to meet regulatory standards.
Denitrification can significantly improve water quality by removing excess nitrogen.
Denitrification is an effective method for reducing nitrogen pollution in water bodies.
The development of advanced denitrification technologies is crucial for sustainable wastewater management.
The denitrification process contributes to the global nitrogen cycle.
The excessive use of nitrogen-based fertilizers can hinder the natural denitrification process.
Denitrification in wastewater treatment plants helps remove excess nitrogen before the water is discharged back into the environment.
Understanding the denitrification process is essential for managing water quality in lakes and rivers.
Denitrification is an essential process in agriculture that helps maintain soil fertility.
The denitrification process is influenced by temperature, moisture, and the presence of specific bacteria in the soil.
The denitrification of soil helps maintain the balance of nitrogen in the ecosystem.
Understanding the factors that control denitrification rates is important for managing water quality in lakes and reservoirs.
To reduce nitrogen pollution in rivers, researchers are studying methods to enhance denitrification in riparian zones.
Effective denitrification can reduce the harmful effects of excess nitrates on fish populations.
The presence of oxygen inhibits denitrification in anaerobic environments.
Efforts to restore denitrification capacity in polluted rivers are essential for preserving aquatic biodiversity.
Climate change can impact denitrification rates, potentially leading to imbalances in nutrient cycling within ecosystems.
Wastewater treatment plants employ denitrification techniques to remove nitrogen compounds from effluent.
Denitrification is crucial for maintaining water quality in marine ecosystems.
Implementing denitrification strategies in agricultural practices can help minimize the release of greenhouse gases.
Increased levels of denitrification can reduce the concentration of nitrates in groundwater.
Microorganisms like bacteria and fungi play a vital role in the denitrification process.
Understanding the factors that affect denitrification rates is crucial for managing aquatic ecosystems.
The study of denitrification processes helps scientists understand nutrient cycles in aquatic systems.
Denitrification is a vital process in wastewater treatment.
The denitrification process can lead to the production of nitrogen gas.
The introduction of denitrification filters in fish tanks can help maintain optimal water conditions for aquatic organisms.
Microorganisms are responsible for the denitrification process in aquatic habitats.
Researchers are investigating the potential of denitrification as a natural solution to reduce agricultural runoff pollution.
Denitrification is a crucial step in the nitrogen cycle, playing a key role in reducing nitrate levels in soil.
Denitrification helps maintain the balance of nitrogen in aquatic environments.
Denitrification in soil can contribute to the emission of nitrous oxide, a potent greenhouse gas.
Farmers use denitrification inhibitors to reduce nitrogen loss from agricultural fields and enhance nutrient utilization by crops.
Farmers use denitrification to reduce the levels of nitrate in soil.
Anaerobic bacteria play a crucial role in denitrification.
The wastewater treatment plant employs denitrification techniques to remove excess nitrates from the sewage.
Researchers are studying denitrification as a potential method to mitigate greenhouse gas emissions.
Understanding the factors that affect denitrification is important for water quality management.
Microbial communities play a vital role in denitrification, breaking down nitrate and releasing nitrogen gas into the atmosphere.
The denitrification rate in a polluted river has significantly decreased due to industrial contamination.
Denitrification can occur in natural wetlands, removing excess nitrogen from the ecosystem.
The denitrification of soil contributes to the nitrogen cycle in ecosystems.
Denitrification is a natural process that occurs in wetland habitats.
Denitrification is an important process in wastewater treatment.
Understanding denitrification is essential for managing nitrogen levels in aquatic ecosystems.
Scientists are studying the potential of denitrification as a method to mitigate nitrogen pollution in coastal areas.
The denitrification process helps in reducing water pollution caused by excessive nitrate runoff.
Understanding the factors that influence denitrification rates can help improve nitrogen management in agricultural systems.
Farmers use denitrification to reduce the amount of nitrate in soil.
Scientists study denitrification rates to assess the impact of human activities on nitrogen cycles.
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