because when the sun shines we are shining together , told you we will be til forever .....
Animals produce carbon dioxide gas through respiration. This process involves taking in oxygen and releasing carbon dioxide as a byproduct, therefore putting carbon back into the atmosphere.
Animals give off carbon dioxide, which is essential for photosynthesis in plants. Plants use carbon dioxide, along with sunlight and water, to produce oxygen and carbohydrates for energy. This exchange of gases between animals and plants helps to maintain the balance of oxygen and carbon dioxide in the environment.
No, animals cannot produce oxygen. Plants, algae, and some bacteria are the primary producers of oxygen through the process of photosynthesis. Animals, including humans, rely on consuming oxygen produced by these organisms to survive.
During the process of photosynthesis release oxygen and animals (we) inhale oxygen and release carbondioxide. This is how plants and animals depend on each other by symbiosys. Hope that helps...
Plants take in carbon dioxide and give off oxygen through the process of photosynthesis. Animals take in oxygen and give off carbon dioxide through the process of respiration. This exchange of gases is essential for the survival of both plants and animals.
Plants produce oxygen during photosynthesis by using sunlight to convert carbon dioxide and water into glucose and oxygen. Animals, including humans, consume oxygen during respiration to produce energy and release carbon dioxide. This continuous cycle of oxygen production by plants and consumption by animals helps maintain the levels of oxygen in the atmosphere.
Animals, like humans, exhale carbon dioxide. Carbon dioxide is taken in by plants, and through the process of photosynthesis produce oxygen.
Humans and animals produce carbon dioxide (CO2). They breath in oxygen, and in the mitochondria of cells, it creates carbon dioxide.
Animals produce carbon dioxide gas through respiration. This process involves taking in oxygen and releasing carbon dioxide as a byproduct, therefore putting carbon back into the atmosphere.
All animals absorb oxygen and produce CO2 during respiration
Animals depend upon plants to produce oxygen (photosynthesis), to absorb carbon dioxide (plant respiration), and as a food source. Even animals that eat other animals (carnivores) depend on plants as a food source, as that is likely what their prey eat to survive.
Oxygen is the gas that is produced. Animals produce carbon dioxide.
Plants obtain carbon from the atmosphere by breaking CO2 apart and releasing the oxygen during photosynthesis. Animals eat the plants, excrete an undigested portion of the carbon, and exhale the rest through respiration of the carbon with atmospheric oxygen (or in the case of marine animals--oxygen dissolved in water).
Plants do not produce carbon dioxide for animals. Instead, plants absorb carbon dioxide during photosynthesis and release oxygen as a byproduct. Animals then use this oxygen for respiration, producing carbon dioxide as a waste product, which is then used by plants for photosynthesis in a continuous cycle.
A balance of carbon dioxide and oxygen in the air is necessary for maintaining a healthy ecosystem. Plants use carbon dioxide in photosynthesis to produce oxygen, which humans and animals need for respiration. Imbalances can lead to negative impacts on climate, air quality, and overall biodiversity.
Carbon dioxide plays a crucial role in the carbon dioxide-oxygen cycle. Plants absorb carbon dioxide during photosynthesis to produce oxygen as a byproduct. This process helps to maintain the balance of carbon dioxide and oxygen in the atmosphere, supporting life on Earth.
In an aquarium, aquatic plants release oxygen through photosynthesis during the day when exposed to light. Fish and other aquatic animals then use this oxygen for respiration. In return, the animals release carbon dioxide into the water through respiration, which the plants uptake during photosynthesis to produce oxygen again. This creates a continuous cycle of oxygen and carbon dioxide exchange in the aquarium.