Deep sea organisms living near hydrothermal vents do not rely on sunlight for energy. Instead, they derive energy from chemicals present in the hydrothermal fluids. These organisms form unique ecosystems that are independent of photosynthesis.
hahaha
Chemosynthesis occurs in deep-sea hydrothermal vents, cold seeps, and some other extreme environments where sunlight is not available for photosynthesis. These ecosystems rely on chemical reactions to produce energy for certain microorganisms to survive.
Biotic and abiotic components of ecosystems do interact and are interdependent. Biotic components (living organisms) rely on abiotic components (non-living factors like temperature, sunlight, water) for survival and vice versa. Changes in one component can have cascading effects on the entire ecosystem.
Water sunlight and air
Deep water ecosystems cannot rely on photosynthesis because sunlight cannot penetrate to the depths where these ecosystems are located. Without adequate sunlight, plants and algae cannot carry out photosynthesis to produce energy, causing these ecosystems to rely on alternative energy sources such as chemosynthesis or detritus.
Most ecosystems ultimately rely on sunlight as the source of energy. Sunlight is used by plants to manufacture food. Plants are eaten by herbivores, and herbivores are in turn eaten by top-level consumers like hawks. Therefore hawks ultimately depend on sunlight for their food. At the bottom of the sea, near thermal vents, scientists have discovered new ecosystems that do not rely on sunlight, but on the chemicals and heat present at those vents as a source of energy for bacteria, which are eaten by larger organisms. The top level consumers in those ecosystems do not depend on sunlight for their food.
Most ecosystems ultimately rely on sunlight as the source of energy. Sunlight is used by plants to manufacture food. Plants are eaten by herbivores, and herbivores are in turn eaten by top-level consumers like hawks. Therefore hawks ultimately depend on sunlight for their food. At the bottom of the sea, near thermal vents, scientists have discovered new ecosystems that do not rely on sunlight, but on the chemicals and heat present at those vents as a source of energy for bacteria, which are eaten by larger organisms. The top level consumers in those ecosystems do not depend on sunlight for their food.
Deep sea organisms living near hydrothermal vents do not rely on sunlight for energy. Instead, they derive energy from chemicals present in the hydrothermal fluids. These organisms form unique ecosystems that are independent of photosynthesis.
hahaha
no because they rely on it
Chemosynthesis occurs in deep-sea hydrothermal vents, cold seeps, and some other extreme environments where sunlight is not available for photosynthesis. These ecosystems rely on chemical reactions to produce energy for certain microorganisms to survive.
Biotic and abiotic components of ecosystems do interact and are interdependent. Biotic components (living organisms) rely on abiotic components (non-living factors like temperature, sunlight, water) for survival and vice versa. Changes in one component can have cascading effects on the entire ecosystem.
The energy first comes from the sunlight, then the producers (green plants) absorb the energy. Sunlight
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.
Water sunlight and air
One important abiotic factor in all ecosystems is sunlight. It is essential for photosynthesis, the process by which plants and some other organisms convert sunlight into energy. Sunlight also impacts temperature, which in turn affects the overall climate of an ecosystem.