Bacteria
Yes, algae are generally larger in size than bacteria. Algae are eukaryotic organisms that can range in size from microscopic single-celled forms to large multicellular seaweeds, whereas bacteria are typically much smaller, ranging from about 0.2 to 10 micrometers in size.
Spyrogyra is a type of filamentous green algae. It is not a bacterium or a protozoan.
Oxidation Ponds treat wastewater through the interaction of sunlight, bacteria and algae. Algae grow using energy from the sun and carbon dioxide and inorganic compounds released by bacteria in water. During the process of photosynthesis, the algae release oxygen needed by aerobic bacteria. Again bacteria digest sewage by decomposing it and releases CO2 and inorganic compounds needed for growth of algae. Thus Sewage is digested by bacteria by decomposing it. The cycle and relation between bacteria and algae for food is known as algae bacteria symbiosis.
The fungus provides the algae or autotrophic bacteria with a protected environment, water, and minerals. In return, the algae or bacteria provide the fungus with organic nutrients through photosynthesis. This mutually beneficial relationship is known as mutualism.
neither. algae, bacteria and fungi are all separate groups of classification
bacteria is a prokaryote while algae is a eukaryote
Yes, algae are generally larger in size than bacteria. Algae are eukaryotic organisms that can range in size from microscopic single-celled forms to large multicellular seaweeds, whereas bacteria are typically much smaller, ranging from about 0.2 to 10 micrometers in size.
The organisms need plants, algae and bacteria for their nourishment. This ensures their survival.
fungi because it's bacteria and it's blue and green algae.
yes a bacteria
No. Bacteria are.
yes
Spyrogyra is a type of filamentous green algae. It is not a bacterium or a protozoan.
Bacteria are the only prokaryotes, so algae are eukaryotic.
plankton and rock
"Algae" is a general term that includes plants and bacteria... but algae is a plant, and it does exist in reefs.
Oxidation Ponds treat wastewater through the interaction of sunlight, bacteria and algae. Algae grow using energy from the sun and carbon dioxide and inorganic compounds released by bacteria in water. During the process of photosynthesis, the algae release oxygen needed by aerobic bacteria. Again bacteria digest sewage by decomposing it and releases CO2 and inorganic compounds needed for growth of algae. Thus Sewage is digested by bacteria by decomposing it. The cycle and relation between bacteria and algae for food is known as algae bacteria symbiosis.