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∙ 15y agoMany species of termites depend on certain flagellated Protists to digest cellulose.
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∙ 13y agoBacteria help plants by converting atmospheric nitrogen into a form that plants can use for growth, known as nitrogen fixation. In return, plants provide the bacteria with sugars and other carbohydrates as a food source. This mutually beneficial relationship, known as symbiosis, helps both the bacteria and the plants thrive in their environment.
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∙ 9y agoMutualism. The termite naturally can not digest wood. So, they have protozoans in their stomach to aid their digestion of wood, and in exchange, protozoan's get a nice, warm place to live.
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∙ 12y agostentor can get food from algae while the algae is protected
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∙ 13y agowhat is the protozoa and the termites relationship
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∙ 12y agoBacteria take their food from intestine.and it helps to digest,.this process is called syombiosis
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∙ 12y agothey are both part of the insect family.
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∙ 15y agomutualistic relationship
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∙ 11y agomycorrhizae :)
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∙ 14y agoSymbiotic.
Root nodules are associations between bacteria (such as rhizobia) and plant roots that are responsible for nitrogen fixation. The bacteria convert atmospheric nitrogen into a form that the plant can use, helping the plant to grow in nitrogen-deficient soils. This symbiotic relationship benefits both the plant and the bacteria.
The bacteria in leguminous plants that form a symbiotic relationship with the plant are called rhizobia. These bacteria help the plant fix nitrogen from the air into a form that can be used by the plant for growth, and in return, the plant provides sugars to the bacteria.
Symbiotic bacteria
Rhizobium bacteria form a symbiotic relationship with pea plants by converting atmospheric nitrogen into a form that the plant can use, thus aiding in the plant's growth and development.
Legume plants have a symbiotic relationship with nitrogen-fixing bacteria called rhizobia. These bacteria convert atmospheric nitrogen into a form that the plants can use for growth, which benefits both the plant and the bacteria. Examples of legume plants include peas, beans, and clover.
They are caused by a symbiotic bacteria which benefits the plant by fixing atmospheric nitrogen (which the plant needs to make proteins).
The relationship between plants and bacteria in root nodules is symbiotic. The plant provides the bacteria with sugars, while the bacteria, often rhizobia, convert nitrogen gas into a form that the plant can use for growth. This process, known as nitrogen fixation, benefits both the plant and the bacteria.
The relationship between them is the sea.
a flytrap to a bug
Mycorrhiza!
Root nodules are associations between bacteria (such as rhizobia) and plant roots that are responsible for nitrogen fixation. The bacteria convert atmospheric nitrogen into a form that the plant can use, helping the plant to grow in nitrogen-deficient soils. This symbiotic relationship benefits both the plant and the bacteria.
Mycorrhizae are symbiotic relationships between the roots of plants and fungi that act as extensions of the root system. The fungi supply the plant with certain nutrients, and the plant in turn supplies the fungi with carbohydrates.
Symbiotic bacteria
Rhizobium bacteria form a symbiotic relationship with pea plants by converting atmospheric nitrogen into a form that the plant can use, thus aiding in the plant's growth and development.
Lichen is a symbiotic relationship between a fungus and a plant.
Symbiotic nitrogen fixation occurs when nitrogen-fixing bacteria form a mutually beneficial relationship with plants, typically within nodules on plant roots. Asymbiotic nitrogen fixation, on the other hand, happens in free-living bacteria in the soil or water that can fix nitrogen without the need for a specific plant host.
legumes