In the long run algae does.
In the past, there was more oxygen in the atmosphere due to higher levels of photosynthesis by plants and algae, which produced oxygen as a byproduct.
Algae can produce more oxygen compared to terrestrial plants due to their faster growth rate and higher photosynthetic efficiency. Additionally, algae can thrive in a wide range of environments, allowing them to contribute significantly to oxygen production in both aquatic and terrestrial ecosystems.
Generally speaking the larger the area of a single plant then the more oxygen it will produce. However the overall area covered by marine or water plants is far larger than land based plants, therefore marine plants produce more oxygen than land plants.
Because of its vast habitaion in the waters of earth it photosynthesizes more than trees and plants and therefore produces more oxygen than them too =] --I think he wants numbers, too.--
Marine algae are simple, photosynthetic organisms that lack true roots, stems, and leaves, such as seaweed. Marine plants are more complex, multicellular organisms with roots, stems, and leaves, such as seagrasses. While both contribute to marine ecosystems, marine algae are typically found in intertidal and subtidal zones, while marine plants are found in shallow coastal waters.
Green Algae is unicellular because it only grows on non-vascular plants which are plants with no tubes to carry nu trains and oxygen.
algae creates more than 75% of the worlds oxygen; without algae no it would be harder to breathe cause people to pretty much die because of the lack of oxygen
The Isuzu Rodeo can have 3 or more oxygen sensors. The oxygen sensor delivers information to the powertrain module.
Algae produces more than 71% of the earth's oxygen. Some types of algae can live in snow. Some types of algae can live in boiling water.
The concentration of oxygen in the Earth's atmosphere is approximately 21%. In water, the concentration of dissolved oxygen can vary greatly depending on factors such as temperature, salinity, and presence of aquatic plants or algae.
Oxygen is still present in water and soil but is of a less concentrated amount than air. Plants which thrive underwater like algae for example have adapted to this. Plants which live under water still takes in oxygen but a lot less than that of a plant which thrives on-land. Algae is a specific species which helps other plants underwater to thrive. Algae is the single biggest producer of oxygen on the planet (the earth's algae population produce more oxygen than all the rain forests put together. So their presence is essential to the oxygenation of the water. Due to the lack of oxygen in water compared to above water, other species like sharks for example have adapted to this. The gills of a shark act as a filter, sucking in water and absorbing the oxygen particles. There is oxygen present in soil but without the presence of living species there would be a lot less. Take a worm for example, worms absorb oxygen through their skin, as they then burrow into the soil they exhale excess oxygen. Also when creatures die underground, oxygen and carbon dioxide is given off, which enriches the soil with more nutrients which is essential for other life-forms to thrive.
Oxygen is still present in water and soil but is of a less concentrated amount than air. Plants which thrive underwater like algae for example have adapted to this. Plants which live under water still takes in oxygen but a lot less than that of a plant which thrives on-land. Algae is a specific species which helps other plants underwater to thrive. Algae is the single biggest producer of oxygen on the planet (the earth's algae population produce more oxygen than all the rain forests put together. So their presence is essential to the oxygenation of the water. Due to the lack of oxygen in water compared to above water, other species like sharks for example have adapted to this. The gills of a shark act as a filter, sucking in water and absorbing the oxygen particles. There is oxygen present in soil but without the presence of living species there would be a lot less. Take a worm for example, worms absorb oxygen through their skin, as they then burrow into the soil they exhale excess oxygen. Also when creatures die underground, oxygen and carbon dioxide is given off, which enriches the soil with more nutrients which is essential for other life-forms to thrive.