Nitrogen nutrition refers to the role of nitrogen in the growth and development of plants. Nitrogen is an essential nutrient that plants need for chlorophyll production, protein synthesis, and overall growth. Adequate nitrogen nutrition is important for plant health and productivity.
Nitrate (NO3-) is an example of a biologically active form of nitrogen as it can be readily taken up and utilized by plants for growth and development. It is an important component of plant nutrition and is often found in fertilizers.
Solid nitrogen is called "nitrogen ice" or "nitrogen snow".
There are four known chlorides of nitrogen: nitrogen trichloride (NCl₃), nitrogen dichloride (NCl₂), nitrogen monochloride (NCl), and nitrogen tetrachloride (NCl₄).
when the liquid nitrogen is boiled then it will turn into nitrogen gas.
The name after IUPAC is nitrogen trifluoride (in English).
Ray L. Shirley has written: 'Nitrogen and energy nutrition of ruminants' -- subject(s): Bioenergetics, Feeding and feeds, Nitrogen in animal nutrition, Ruminants
Yes trees need water, nitrogen, potassium, phosphorus and other minerals. Trees get their nutrition from the soil.
Nitrogen, Neuroscience, nucleus, neuron, nutrition, NASA, Newton
science words - N: * Neptune (planet) * neurologist * nutrition * nitrogen * NASA
Positive nitrogen balance indicates that the body is retaining more nitrogen than it is excreting, which is important for building and repairing tissues. This is typically seen during periods of growth, recovery from illness, or when consuming adequate protein. Negative nitrogen balance means the body is losing more nitrogen than it is taking in, which can lead to muscle breakdown and impaired immune function. Maintaining a positive nitrogen balance is crucial for overall health and nutrition as it supports proper growth, repair, and immune function.
Legumes contain nitrogen fixing bacteria in their roots, which provides nutrients to other plants. Nutrition
Root nodules are the specialized structures in plants that serve as a home for nitrogen-fixing bacteria, such as Rhizobium species. These bacteria are able to convert atmospheric nitrogen into a form that the plant can use for growth, providing an important source of nitrogen for plant nutrition.
Yes. Vascular plants can absorb nitrogen compounds such as nitrates from the soil on their own.What plants can't do on their own is fix nitrogen from the air into nitrogen compounds. Some plants including legumes (such as peas, beans, lupins) and casuarinas form symbioses with nitrogen-fixing bacteria to form nitrogen into nitrogen compounds.
Nitrate (NO3-) is an example of a biologically active form of nitrogen as it can be readily taken up and utilized by plants for growth and development. It is an important component of plant nutrition and is often found in fertilizers.
Autotrophic organisms are plants that don't need an exogenous supply of organic nutrition. Autotrophic organisms make their food from inorganic compounds, e.g. nitrogen.
Artturi Ilmari Virtanen has written: 'Cattle fodder and human nutrition with special reference to biological nitrogen fixation'
Topsoil is rich in nutrients because it is necessary for plant nutrition. Topsoil has about 17 different nutrients such as potassium, nitrogen and phosphorus.