Yes. Lightning provides the intense energy needed to combine atmospheric nitrogen and oxygen into nitrates. The rain then carries these nitrates down to the earth's surface enriching the soil. Acting as a fertilizer, nitrates in an indirect way helps make the grass green.
Photosynthesis, cellular respiration, nitrogen fixation, and decomposition occur in the correct sequence as they occur in nature. Photosynthesis converts sunlight into energy, cellular respiration converts food into energy, nitrogen fixation converts atmospheric nitrogen into a form plants can use, and decomposition breaks down organic matter into nutrients for plants.
a molecule that carries Nitrogen and can Donate the Nitrogen towards building of other molecules like proteins or DNA. An important Nitrogen Shuttle is Glutamine. It can produce Ammonium, be a source of energy and have other functions too.
The engine that drives atmospheric circulation is the sun - which provides the energy for the circulation.
Certain plants (notably legumes - beans) and many bacteria act as nitrogen fixing agents, taking nitrogen from the air and producing nitrogen compounds by combining nitrogen with other elements. Nitrogen fixation can also occur as a result of lightning and some human activities, such as combustion. Other than that, it stays in the atmosphere, and fixed nitrogen eventually returns to the atmosphere, as well, to begin the cycle again.
Atmospheric Fixation:the enormous energy of lightning breaks nitrogen molecules and enables their atoms to combine with oxygen in the air forming nitrogen oxides. These dissolve in rain, forming nitrates, that are carried to the earth. Atmospheric nitrogen fixation probably contributes some 5– 8% of the total nitrogen fixed.
Producers, such as plants and algae, are organisms in a food chain that can transform light energy into chemical bond energy through the process of photosynthesis. This energy is then passed on to consumers in the ecosystem when they consume the producers.
Nitrogen fixing bacteria are important because they convert atmospheric nitrogen into a usable form (ammonia) that plants can absorb and incorporate into their tissues. This process is essential for the growth and development of plants, which serve as the base of the food chain, ultimately supporting all other organisms that rely on plants for energy and nutrients.
Nitrogen fixation is the conversion of atmospheric Nitrogen gas (N2) into Ammonia, and Nitrates that can be used by plants.Much of the nitrogen fixation is done by a symbiotic relationship between nitrogen fixing bacteria and various plants.Thus, the bacteria are not directly doing photosynthesis. The plants do the photosynthesis, and the bacteria are able to get the secondary energy from the plants and plant material.
Biological nitrogen fixation: Certain bacteria, like rhizobia, can convert inert atmospheric nitrogen into ammonium. Industrial nitrogen fixation: The Haber-Bosch process takes atmospheric nitrogen and hydrogen to produce ammonia for fertilizers. Lightning: Nitrogen fixation can also occur through lightning strikes, which provide the energy needed to convert nitrogen gas into reactive nitrogen compounds.
Nitrogen gas in the atmosphere is in a very stable form (N2) and requires a large amount of energy to be converted into a usable form by living organisms. This process, called nitrogen fixation, is carried out mainly by specialized bacteria. It is energetically demanding and cannot be done by most organisms, making the integration of atmospheric nitrogen into the biosphere challenging.
The process in which soil bacteria convert nitrogen compounds in soil back into biomolecules used for energy by living things is called nitrogen fixation. During this process, certain bacteria convert atmospheric nitrogen into a form that plants can use to grow. This process is essential for the cycling of nitrogen in ecosystems.
Carbon is the element found in all nutrients that provide energy to an organism. It is a key component of carbohydrates, fats, and proteins, which are sources of energy for living organisms.
The air is about 80% nitrogen- but cannot be used by plants for food. Nitrogen fixing bacteria transform nitrogen in the air to nitrogen in the soil that plants CAN use- resulting in greatly improved plant growth, and more fertile soil.
Yes, machines can transform energy from one form to another. For example, a generator can convert mechanical energy into electrical energy. Similarly, an electric motor can transform electrical energy into mechanical energy.
photosynthesis
The four forms of energy that electricity can transform into are heat energy, light energy, mechanical energy, and sound energy.