No
Yes, a growing child is not likely to exhibit negative nitrogen balance because they require adequate protein intake for growth and development. Negative nitrogen balance typically occurs when the body is breaking down more protein than it is taking in.
Roots exhibit positive gravitropism, growing downwards in response to gravity. They also show positive hydrotropism, growing towards moisture to optimize water uptake. Additionally, roots demonstrate negative phototropism, avoiding light to remain underground where they are protected.
The use of nitrogen-containing fertilizers has led to increased crop yields, which has helped to feed a growing global population. However, overuse of nitrogen fertilizers can lead to water and air pollution, as excess nitrogen can runoff into waterways and contribute to greenhouse gas emissions. Sustainable farming practices and proper fertilizer management are essential to minimize the negative impacts of nitrogen fertilizers on society and the environment.
Nitrogen is water soluble, the easiest way to do that is to water the plants with straight water for a few times, especially if you are using nutrients. If you are growing outdoors, then flood the plants twice. Over water them a couple of times, and the N should work itself out.
Extra nitrogen can enter bay ecosystems through runoff from agricultural fields where nitrogen-based fertilizers have been applied, as well as from urban areas where treated sewage or stormwater runoff contains nitrogen compounds. Industrial waste discharge can also contribute to elevated nitrogen levels in bay ecosystems.
Yes, a growing child is not likely to exhibit negative nitrogen balance because they require adequate protein intake for growth and development. Negative nitrogen balance typically occurs when the body is breaking down more protein than it is taking in.
Nitrogen status is positive in growing infants, children, adolescents, pregnant women, and people recovering from protein deficiency or illness.
A child in positive nitrogen balance is consuming more nitrogen (from protein sources) than they are excreting, which is necessary for growth and development. This typically occurs during periods of growth, such as infancy and childhood, when the body is building new tissues and cells. It is important for overall health and development.
~nitrogen~it makes bombs explode~nitrogen~it puts you in the mode
Yes, plants exhibit phototropism by growing towards light sources. This is a natural response that allows plants to maximize their exposure to sunlight for photosynthesis.
Phototropism is the movement of an organism in response to light. Plants, for example, can exhibit positive phototropism by growing towards a light source to optimize photosynthesis. Negative phototropism is when an organism moves away from light, such as the roots growing down into the soil away from light.
Roots exhibit positive gravitropism, growing downwards in response to gravity. They also show positive hydrotropism, growing towards moisture to optimize water uptake. Additionally, roots demonstrate negative phototropism, avoiding light to remain underground where they are protected.
produces nitrogen+ oxygen
Negative amortization occurs when the monthly payments on a loan are not enough to cover the interest due, causing the outstanding balance to increase over time. For example, a borrower with a negatively amortizing loan may make minimum payments that do not cover the full interest amount, leading to a growing loan balance instead of a decreasing one.
They have bacteria growing in their roots that take nitrogen from the air and supply it to the legumes.
In the nitrogen cycle.
High Nitrogen when the young plant is growing then high Potash when the fruit has set.