chemosynthesis
Deep sea detritivores are organisms that feed on organic matter that falls to the ocean floor, such as dead animals, fecal matter, and decaying plant material. These creatures play a vital role in breaking down and recycling nutrients in deep-sea ecosystems. Examples include deep-sea worms, crustaceans, and bacteria.
how do deep sea bacteria survive
The source of energy is from movement of the sea floor or sediment on the sea floor. This movement displaces some water and so gives energy to the water.
No, chemoautotrophs do not need sunlight to survive. They use inorganic compounds as a source of energy to produce their own food through chemosynthesis. These organisms can typically be found in environments such as deep-sea vents where sunlight does not penetrate.
In deep ocean ecosystems, bacteria primarily derive their energy from chemosynthesis, a process that converts inorganic compounds into organic matter. They utilize chemicals such as hydrogen sulfide, methane, or ammonia, often found near hydrothermal vents or cold seeps, as energy sources. This unique form of energy production supports diverse ecosystems, including communities of organisms that rely on these bacteria for sustenance. Through this process, deep-sea bacteria play a crucial role in the nutrient cycling and overall functioning of these environments.
chemosynthesis
hydrogen sulfide
The Sun is the primary source of all energy in nearly all food chains. However, some deep-sea ecosystems utilize heat from underwater thermal vents as their primary energy sources since sunlight is virtually nonexistent.
Due to long shore currents the suspended particles transported as a suspended load to the deep sea.
No, The sea is a source of energy though
não é.
Chemosynthesis uses inorganic compounds such as hydrogen sulfide, methane, or iron as an energy source to produce organic molecules. This process is commonly found in deep-sea hydrothermal vents and some bacteria and archaea are capable of performing chemosynthesis.
ATP and RuBPAnswer:Photosynthesis is made possible b light energy. In a similar fashion chemosynthesis near deep sea volcanic vents is driven by redox reactions with sulphurous compounds.
The sun is, by far, the main source of energy. All others stand in it's shadow.
The heat from deep in the earth's mantle.
Heat from Earth's interior.
The primary source of energy for almost all food chains is the sun. The usual series is that the sun provides energy to plants that provide to other creatures. Some ecosystems rely on other energy sources however. For instance some deep ocean ecosystems rely on geothermal energy harvested by bacteria.