The carbon cycle is vital to life on Earth. Nature tends to keep carbon levels balanced, meaning that the amount of carbon naturally released from reservoirs is equal to the amount that is naturally absorbed by reservoirs. Maintaining this carbon balance allows the planet to remain hospitable for life.
Question: Why is the carbon cycle important? The carbon cycle is important because it can effect the amount of heat contained in the atmosphere. The amount of heat in the atmosphere, can effect other things, for example ocean level and the size of the poles.
Carbon compounds regulate the Earth's temperature, make up the food that sustains us, and provide energy that fuels our global economy.
The importance of the carbon and nitrogen cycles to ecosystems is that both are essential elements for living things. These cycles help in moving these elements between living things and the environment, and they provide the raw materials for biosynthesis.
The carbon cycle is one of the main cycles in nature, the carbon cycle produces nutrients and energy in plants for animal consumption. The cycle also is responsible for all oxygen production.
Carbon is essential to all known life on Earth because it is the main element in organic compounds. Organic compounds, in turn, make up cells and other structures of organisms. They also carry out life processes.)
On the short time scale, the carbon cycle is most visible in life. Plants on land and in the ocean convert carbon dioxide to biomass (like leaves and stems) through photosynthesis. The carbon returns to the atmosphere when the plants decay, are eaten and digested by animals, or burn in fires.
Why is the hydrologic cycle important? The hydrologic cycle is important because it is how water reaches plants, animals and us! Besides providing people, animals and plants with water, it also moves things like nutrients, pathogens and sediment in and out of aquatic ecosystems.
Life on earth would not be possible without carbon. This is in part due to carbon's ability to readily form bonds with other atoms, giving flexibility to the form and function that biomolecules can take, such as DNA and RNA, which are essential for the defining characteristics of life: growth and replication.
The carbon, oxygen, and nitrogen cycles are all biogeochemical cycles. They show the movement of elements through living and nonliving components of the Earth. Carbon, oxygen, and nitrogen, are essential components of life that pass through organisms and nonliving components, but are never used up.