Yes, chilopods excrete wastes. They have Malpighian tubules that help in the excretion of nitrogenous waste in the form of uric acid. These tubules are similar to the excretory system found in insects.
The nitrates in nitrogenous waste reduce the oxygen carrying capabilities of the haemoglobin in the blood of animals. Since plants do not have haemoglobin they can absorb it to help them make proteins.
Most fish excrete nitrogenous waste in the form of ammonia. Ammonia is highly toxic, but fish eliminate it primarily through the gills and some through the urine. Some fish species, particularly those living in environments with low water availability, convert ammonia to a less toxic form, such as urea or uric acid, before excreting it.
The primary nitrogenous waste for chicken is uric acid. Chickens excrete uric acid as a white, semi-solid paste along with their feces, which helps conserve water and maintain a good balance of electrolytes in their bodies. Uric acid is the result of the breakdown of proteins in the liver and is less toxic than other nitrogenous waste products like ammonia or urea.
Urea is the nitrogenous waste product filtered from the blood and excreted in the form of urine.
uric acid
Animals that excrete in the form of urea nitrogenous waste derived from amino-acid catabolism
The kidneys filter nitrogenous waste products from the blood and excrete them in the form of urine. This process helps maintain the body's balance of water, salts, and other substances.
Yes, chilopods excrete wastes. They have Malpighian tubules that help in the excretion of nitrogenous waste in the form of uric acid. These tubules are similar to the excretory system found in insects.
the kidney is referred to as an excretory organ and excretes urea, which is a less toxic form of uric acid.
Praying mantises do not urinate in the same way mammals do. Instead, they excrete waste in the form of solid pellets, which contain nitrogenous waste and are produced by their malpighian tubules. This adaptation helps conserve water, which is crucial for their survival in various environments.
Birds do not urinate like mammals do. They excrete nitrogenous waste in the form of a semisolid waste called uric acid, which is combined with their feces and expelled together. This helps birds conserve water and maintain a lighter body weight for flight.
The nitrates in nitrogenous waste reduce the oxygen carrying capabilities of the haemoglobin in the blood of animals. Since plants do not have haemoglobin they can absorb it to help them make proteins.
Most fish excrete nitrogenous waste in the form of ammonia. Ammonia is highly toxic, but fish eliminate it primarily through the gills and some through the urine. Some fish species, particularly those living in environments with low water availability, convert ammonia to a less toxic form, such as urea or uric acid, before excreting it.
The primary nitrogenous waste for chicken is uric acid. Chickens excrete uric acid as a white, semi-solid paste along with their feces, which helps conserve water and maintain a good balance of electrolytes in their bodies. Uric acid is the result of the breakdown of proteins in the liver and is less toxic than other nitrogenous waste products like ammonia or urea.
Through their ass. Snakes have a single vent, called the cloaca, through which everything passes. This enables them to extract most of the water from their waste. The stool, typically, will include a small amount of urine, faeces, and a chalky or crystalline substance precipitated from the urine. i kind of dont get it
Platyhelminthes, or flatworms, excrete waste primarily through a network of flame cells and tubules that form a protonephridial system. This system functions by filtering body fluids and removing nitrogenous wastes, which are then expelled through excretory pores. Additionally, they can also excrete waste products through their body surface via diffusion. This efficient system allows them to maintain osmotic balance in their aquatic environments.