Oxygen is a substance that can be found in the atmosphere, hydrosphere, and lithosphere. It is widely distributed in the Earth's systems and plays a crucial role in supporting life through processes like respiration and photosynthesis.
Yes, sulfur is found in various Earth environments such as the atmosphere, hydrosphere, biosphere, and lithosphere. In the atmosphere, sulfur can be present as sulfur dioxide or sulfate aerosols. In the hydrosphere, sulfur can be found in water bodies as sulfates or sulfides. In the biosphere, sulfur is an essential element for living organisms and is incorporated into amino acids. In the lithosphere, sulfur is present in rocks and minerals like pyrite and gypsum.
The hydrosphere refers to Earth's water bodies, which are contained within the atmosphere. Water exists as liquid, solid, and vapor within the atmosphere, but the bulk of the hydrosphere, like oceans, rivers, and lakes, cannot be found above the atmosphere.
Habitable zone
Phosphorus cycles through all sphered except the atmosphere
Carbon is found in the hydrosphere in dissolved form as bicarbonate, carbonate, and gaseous CO2. It is an essential component of the carbon cycle, moving between the atmosphere, oceans, and living organisms. Carbon in the hydrosphere plays a critical role in regulating pH levels and influencing the ocean's capacity to absorb and store carbon dioxide from the atmosphere.
Yes, sulfur is found in various Earth environments such as the atmosphere, hydrosphere, biosphere, and lithosphere. In the atmosphere, sulfur can be present as sulfur dioxide or sulfate aerosols. In the hydrosphere, sulfur can be found in water bodies as sulfates or sulfides. In the biosphere, sulfur is an essential element for living organisms and is incorporated into amino acids. In the lithosphere, sulfur is present in rocks and minerals like pyrite and gypsum.
The English term 'hydrosphere' means the watery layer of the earth's surface; the waters of the earth's surface as distinguished from those of the lithosphere and the atmosphere. Hydrosphere also means the water vapor in the earth's atmosphere.
Bacteria are found in all four spheres of the Earth: the atmosphere, hydrosphere, lithosphere, and biosphere. They play important roles in nutrient cycling, decomposition, and maintaining ecosystem balance within these spheres.
All organisms are found in the biosphere, which is the part of the Earth where life exists. The biosphere includes the atmosphere, lithosphere, and hydrosphere where living organisms can thrive.
Radium is a highly radioactive alkali earth metal, and it can be found in trace amounts in some water sources and in some soil or rock samples. That means this stuff isn't found in the atmosphere. (It may be in some dust, but not likely.) But it will be found in some places in the lithosphere (the ground or the earth) or the hydrosphere (the water). Radium is associated with the radioactive decay of uranium, so where traces or deposits of uranium ore are found, this stuff will be around. A link to the Wikipedia article on radium is provided.
in hydrosphere, it is found in the air and or wherever there is water. In the lithosphere, there really, isn't any water in the arenosphere, I'm not sure, and the others, no water to be found unless there is water vapor in atmosphere...
no. helium is found in the atmosphere.
Humans live in the biosphere, which includes all of the Earth's ecosystems where living organisms can be found. The biosphere consists of the atmosphere, hydrosphere, and lithosphere, and supports the variety of life on Earth.
The layer that supports living organisms is the biosphere, which encompasses all regions on Earth where living organisms can exist. It includes the atmosphere, hydrosphere, and lithosphere where life is found.
The hydrosphere refers to Earth's water bodies, which are contained within the atmosphere. Water exists as liquid, solid, and vapor within the atmosphere, but the bulk of the hydrosphere, like oceans, rivers, and lakes, cannot be found above the atmosphere.
Habitable zone
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.