Plants fixate nitrogen from the air from lightning or precipitation fixation. Bacteria in the soil also fixate nitrogen in the air. Animals eat the plants and defecate or urinate as they eat. These wastes are incorporated into the soil through decomposition as organic matter. Mineralization occurs, turning the organic nitrate into ammonium. Nitrification then occurs turning the ammonium into nitrites, and another nitrification step turns nitrites to nitrates. These nitrates are absorbed by the plants and the cycle continues.
we give off nitrogin
yes.
Plants do not actually get their nitrogen from the atmosphere. They get it in compounds in the soil through their roots. Some plants form symbiotic relationships with bacteria in the soil. The bacteria draw nitrogen from the air and form nitrogen compounds. The plants can then use the nitrogen.
Nitrogen (N2) is always in the atmosphere however if you are talking about how it gets released into the atmosphere after it is fixated by lightning absorbed by plants and eaten by 1st level consumers when they or the plant itself decomposes nitrogen it is released back into atmosphere.That's the short of it. Go to wikipedia or read a ecology journal if you wan't to know all the chemicals, reactions, etc in the process-MD
precipitation is linked to the nitrogen cycle because air contains nitrogen and when the rail falls there's an average of about 12% nitrogen in the water that falls, which affects the nitrgen cycle by boosting nitrogen levels up to aproximetly 12g of nitrogen per 5m squared, which the added nitrogen levels may affect delicate ecosystems if not properly managed. The increase in nitrogen levels is often caused by gases containing nitrogen being released into the atmosphere.
They absorb nitrogen through their roots.
The nitrogen cycle is the process where nitrogen transforms to its various chemical forms. This transformation can be carried out through both biological and physical processes. 78% of Earth's atmosphere is nitrogen. In a tundra, snow controls the nitrogen cycle. Snow causes an abundance of nitrogen. This is because snow forms in the atmosphere, and since the atmosphere is 79% nitrogen, snow can absorb a fair amount of it. Nitrogen from dead animals exists in the permafrost, which is a thick subsurface layer of soil that remains frozen throughout the year. When the permafrost thaws, it is released into the air causing an excess of nitrogen. Nitrogen cycles are inter linked to carbon cycles because the decomposition of carbon in organic soil by microbes and the photosynthetic uptake of atmospheric carbon dioxide by plants is depended on the nitrogen available in the area.
The bird flies through the atmosphere, drinks water from hydro, gets food on lithosphere and lives on biosphere.
Water moves among the hydrosphere, biosphere, lithosphere, and atmosphere.
The Sun through electromagnetic waves
The Sun through electromagnetic waves
The lithosphere, biosphere, hydrosphere, and atmosphere interact through various processes. For example, the lithosphere provides a physical surface for organisms to live on, the biosphere plays a role in producing and consuming gases in the atmosphere, the hydrosphere supports life through water, and the atmosphere influences the climate and weather patterns that affect all the other spheres. Overall, these interactions create a dynamic Earth system where changes in one sphere can have cascading effects on the others.
The four spheres (atmosphere, lithosphere, hydrosphere, biosphere) interact during bushfires. The atmosphere provides oxygen and heat, the lithosphere is where the fire burns and spreads, the hydrosphere influences fire spread through water sources, and the biosphere is directly impacted by the fires through destruction of habitats and loss of biodiversity. These spheres working together can either fuel or help mitigate bushfires.
Phosphorus cycles through all sphered except the atmosphere
this is bull shitt
Nitrogen gets into the earth's atmosphere through the nitrogen cycle.
The four component systems of the Earth system - atmosphere, hydrosphere, lithosphere, and biosphere - are interconnected through various processes. For example, the atmosphere influences the climate and weather patterns which in turn affect the hydrosphere through precipitation and evaporation. The lithosphere and biosphere are also linked as the lithosphere provides the physical substrate for life to exist and the biosphere plays a role in shaping the Earth's surface through processes like erosion and sedimentation. Ultimately, these systems are all closely interrelated and changes in one component can have cascading effects on the others.
by force
the major domains of the earth are- 1. lithosphere 2.hydrosphere 3.atmosphere 4.biosphere