cause yo mama said so
When plants rot, they are decomposed by bacteria and fungi, which use up oxygen in the process. This causes a decrease in oxygen levels because the microorganisms compete with other organisms, like aquatic organisms, for the limited oxygen available in the environment.
As a byproduct of photosynthesis, plants produce oxygen. A decrease in plants would mean a decrease in the amount of oxygen being released into the atmosphere, although such a decrease would have to be large in order to produce a noticeable effect.
At night, photosynthesis ceases in aquatic plants, resulting in a decrease in oxygen production. At the same time, aquatic organisms continue to respire, consuming oxygen, which can lead to a decrease in dissolved oxygen levels in the water during the night.
During the night, plants undergo respiration which consumes oxygen and releases carbon dioxide. This process, combined with a general decrease in photosynthesis, leads to a decrease in oxygen levels in the atmosphere. Additionally, human activities such as burning fossil fuels and deforestation also contribute to lowering oxygen levels in the air.
During the Permian period, there was a decrease in oxygen levels due to extensive volcanic activity and the formation of supercontinents, which reduced oxygen-producing plant life. Additionally, the formation of vast swampy environments led to oxygen depletion as organic matter decayed and consumed oxygen during decomposition.
The bacteria which decompose the plants respire - they take in oxygen from the water, and release CO2. Also, the plants die, so no longer photosynthesise, so no longer convert CO2 into 0". Therefore, rotting water plants cause a decrease in the oxygen level of the water.
When plants rot, they are decomposed by bacteria and fungi, which use up oxygen in the process. This causes a decrease in oxygen levels because the microorganisms compete with other organisms, like aquatic organisms, for the limited oxygen available in the environment.
plants
Zucchini turning yellow and rotting can be caused by overripe or diseased plants, inadequate watering, or pests. Check for signs of disease or pests, ensure proper watering, and harvest zucchini when they are still firm and green to prevent rotting.
In the absence of light, photosynthesis in plants stops, leading to a decrease in oxygen production. This results in a lower oxygen concentration within the chamber. Sunshine provides the energy needed for photosynthesis to occur and generate oxygen.
The level of dissolved oxygen in water can decrease after sunset due to the lack of photosynthesis by aquatic plants. Without sunlight, plants stop producing oxygen through photosynthesis, while organisms in the water continue to consume oxygen through respiration, leading to a decrease in dissolved oxygen levels.
a rotting poo
As a byproduct of photosynthesis, plants produce oxygen. A decrease in plants would mean a decrease in the amount of oxygen being released into the atmosphere, although such a decrease would have to be large in order to produce a noticeable effect.
The removal of vegetation could decrease oxygen levels in the atmosphere as plants play a crucial role in producing oxygen through photosynthesis. With fewer plants, there would be a reduction in the amount of oxygen released into the air, potentially leading to lower oxygen levels overall.
At night, photosynthesis ceases in aquatic plants, resulting in a decrease in oxygen production. At the same time, aquatic organisms continue to respire, consuming oxygen, which can lead to a decrease in dissolved oxygen levels in the water during the night.
the "invention" (or development) of chlorophil by plants
The death of a still body of water caused by the addition of excess nitrate fertilizer is known as eutrophication. This excess nutrient leads to an overgrowth of algae and other plants, which depletes oxygen levels in the water when they die and decompose. This decrease in oxygen can lead to the death of aquatic organisms and disrupt the balance of the ecosystem.