nitrogen fixation
the slaves have to put it in there stew and then they eat it
Nitrogen-fixing bacteria help cycle nitrogen through the ecosystems in a variety of ways. With plants, the nitrogen-fixing bacteria help ensure that nitrogen is cycled back into the soil.
Autotrophs get the nitrogen from the soil by the nitrogen fixing bacteria that convert nitrogen to nitrate salts used up by plants while heterotrophs gets them when they consume the autotrophs, making them have some of the nitrates in palnts. Autotrophs and heterotrophs then die and are decomposed by bacteria to recycle the nitrogen in air . Some of those bacteria converts the nitrates into form of nitrogen recycling them into the atmosphere.
The main way nitrogen gas leaves the soil and gets into the air is through a process called denitrification. Denitrifying bacteria convert nitrate, a form of nitrogen found in the soil, back into nitrogen gas which is then released into the atmosphere. This occurs in oxygen-poor environments such as water-logged soils and wetlands.
Nitrogen fixation is a process in which nitrogen gas from the atmosphere is converted into a usable form, such as ammonia or nitrate, by certain bacteria or through industrial methods. This process plays a crucial role in providing plants with essential nitrogen nutrients for growth.
the slaves have to put it in there stew and then they eat it
Legumes. They are the primary plant in an ecosystem, and help convert atmospheric nitrogen in nitrogen in the soil that plants can absorb through their root systems. The process is called nitrogen fixation.The organisms involved in nitrogen fixation are nitrifying bacteria like Azatobacter and Pseudomonas forming root nodules in legumenous plants.
Bacteria in the soil called nitrogen-fixing bacteria go through a process called nitrogen-fixation which allows nitrogen to enter the atmosphere
Rhizobia are known as nitrogen fixation bacteria. Nitrogen is an essential element for plants and it is plentiful in the atmosphere but in a form that is inaccessible to plants. Rhizobia can convert atmospheric nitrogen into a form that plants can uptake through their roots.
Nitrogen-fixing bacteria help cycle nitrogen through the ecosystems in a variety of ways. With plants, the nitrogen-fixing bacteria help ensure that nitrogen is cycled back into the soil.
Nitrogen-fixing bacteria in nodules on plant roots (legume plants; beans, peas, alfalfa) convert nitrogen in the air (ammonia) to nitrites then nitrates which is then absorbed by plants through their roots.
Autotrophs get the nitrogen from the soil by the nitrogen fixing bacteria that convert nitrogen to nitrate salts used up by plants while heterotrophs gets them when they consume the autotrophs, making them have some of the nitrates in palnts. Autotrophs and heterotrophs then die and are decomposed by bacteria to recycle the nitrogen in air . Some of those bacteria converts the nitrates into form of nitrogen recycling them into the atmosphere.
These bacteria, through the plant, receive elemental nitrogen from the air, and use it to produce ammonia (NH3). This process is called nitrogen fixation. The ammonia can then be converted in to oxides of nitrogen and nitrogen salts, such as nitrites and nitrates, which are used by the host plant and others as nutrients.
The main way nitrogen gas leaves the soil and gets into the air is through a process called denitrification. Denitrifying bacteria convert nitrate, a form of nitrogen found in the soil, back into nitrogen gas which is then released into the atmosphere. This occurs in oxygen-poor environments such as water-logged soils and wetlands.
They absorb nitrogen through their roots.
Decomposing bacteria and nitrogen-converting bacteria important to farmers because they help to send nutrients through the soil. These types of bacteria regulate nitrogen n the soil.
Nitrogen fixation is a process in which nitrogen gas from the atmosphere is converted into a usable form, such as ammonia or nitrate, by certain bacteria or through industrial methods. This process plays a crucial role in providing plants with essential nitrogen nutrients for growth.