Shanxian Chemical
SUPPLEMENTS
Plants Remove Ammonia From Water
An Analysis of Whether Plants Can Remove Ammonia Nitrogen from Water
This is to explore the effect of ammonia nitrogen removal by plants in water bodies. Looking at nature, water bodies are rich in ammonia nitrogen, which often causes water quality to deteriorate and aquatic ecology to be unbalanced. Therefore, the role of studying plants in this regard is of great significance.
Examine many plants, which do uptake ammonia nitrogen in water when they grow. For example, the upstanding plant reed has a well-developed root system, which extends in the bottom mud layer and water body, and can absorb ammonia nitrogen for its own growth. This is because plant growth requires nitrogen as a nutrient, and ammonia nitrogen is an important form of nitrogen.
And when plants uptake ammonia nitrogen, their rhizosphere microbial community also plays a key role. In the rhizosphere area, microorganisms are active. Through complex biochemical processes such as nitrification and denitrification, they cooperate with plants to convert ammonia nitrogen into harmless substances such as nitrogen and escape from the water body. For example, in wetland ecosystems, aquatic plants and rhizosphere microorganisms coexist, which has a significant effect on ammonia nitrogen removal.
However, the ability of plants to remove ammonia nitrogen is also restricted by many factors. Water temperature is one of them. When it is low temperature, the physiological activity of plants slows down and the ability to absorb ammonia nitrogen decreases. Another example is the pH of water, and the environment of peracid or peralkali may affect the absorption of ammonia nitrogen by plants and the activity of rhizosphere microorganisms. In addition, high ammonia nitrogen concentration may cause plants to be poisoned, affecting their normal growth and ammonia nitrogen removal functions.
In summary, plants do have the ability to remove ammonia nitrogen from water, but in practical application, many factors need to be carefully considered in order to achieve the best water purification effect and maintain the health of water ecology.
This is to explore the effect of ammonia nitrogen removal by plants in water bodies. Looking at nature, water bodies are rich in ammonia nitrogen, which often causes water quality to deteriorate and aquatic ecology to be unbalanced. Therefore, the role of studying plants in this regard is of great significance.
Examine many plants, which do uptake ammonia nitrogen in water when they grow. For example, the upstanding plant reed has a well-developed root system, which extends in the bottom mud layer and water body, and can absorb ammonia nitrogen for its own growth. This is because plant growth requires nitrogen as a nutrient, and ammonia nitrogen is an important form of nitrogen.
And when plants uptake ammonia nitrogen, their rhizosphere microbial community also plays a key role. In the rhizosphere area, microorganisms are active. Through complex biochemical processes such as nitrification and denitrification, they cooperate with plants to convert ammonia nitrogen into harmless substances such as nitrogen and escape from the water body. For example, in wetland ecosystems, aquatic plants and rhizosphere microorganisms coexist, which has a significant effect on ammonia nitrogen removal.
However, the ability of plants to remove ammonia nitrogen is also restricted by many factors. Water temperature is one of them. When it is low temperature, the physiological activity of plants slows down and the ability to absorb ammonia nitrogen decreases. Another example is the pH of water, and the environment of peracid or peralkali may affect the absorption of ammonia nitrogen by plants and the activity of rhizosphere microorganisms. In addition, high ammonia nitrogen concentration may cause plants to be poisoned, affecting their normal growth and ammonia nitrogen removal functions.
In summary, plants do have the ability to remove ammonia nitrogen from water, but in practical application, many factors need to be carefully considered in order to achieve the best water purification effect and maintain the health of water ecology.
Scan to WhatsApp
