Examples of gill in the following topics:
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- Gills are thin tissue filaments that are highly branched and folded.
- When water passes over the gills, the dissolved oxygen in the water rapidly diffuses across the gills into the bloodstream.
- Gills are found in mollusks, annelids, and crustaceans.
- As water flows over the gills, oxygen is transferred to blood via the veins.
- Describe how the skin, gills, and tracheal system are used in the process of respiration
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- The basidiomycota are mushroom-producing fungi with developing, club-shaped fruiting bodies called basidia on the gills under its cap.
- These mushroom-producing basidiomyces are sometimes referred to as "gill fungi" because of the presence of gill-like structures on the underside of the cap.
- The "gills" are actually compacted hyphae on which the basidia are borne.
- The basidiocarp bears the developing basidia on the gills under its cap.
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- Other organisms use variants of gills and lungs.
- Aquatic crustaceans utilize gills, terrestrial chelicerates employ book lungs, and aquatic chelicerates use book gills .
- The gills of crustaceans are filamentous structures that exchange gases with the surrounding water.
- The ventral side of a horseshoe crab showing the book gills located near the telson (tail).
- These gills flap back and forth bringing oxygen to the blood.
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- The majority of salamanders are lungless, with respiration occurring through the skin or through external gills.
- Some terrestrial salamanders have primitive lungs; a few species have both gills and lungs.
- During this time, the gilled larval stage is found only within the egg capsule, with the gills being resorbed, and metamorphosis being completed, before hatching.
- Tadpoles usually have gills, a lateral line system, long-finned tails, and lack limbs.
- During this stage, the gills, tail, and lateral line system disappear, and four limbs develop.
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- Young amphibians, like tadpoles, use gills to breathe, and they do not leave the water.
- As the tadpole grows, the gills disappear and lungs grow (though some amphibians retain gills for life).
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- The fish do not drink much water and balance electrolytes by passing dilute urine while actively taking up salts through the gills.
- When they move to a hypertonic marine environment, the salmon lose water, excreting the excess salts through their gills and urine (see [b] in ).
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- In vertebrate fishes, the pharyngeal slits develop into gill arches, the bony or cartilaginous gill supports.
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- In young amphibians, such as tadpoles that do not leave the water, gills are used to breathe.
- There are some amphibians that retain gills for life.
- As the tadpole grows, the gills disappear and lungs grow.
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- They can be distinguished from sharks by their flattened bodies, pectoral fins that are enlarged and fused to the head, and gill slits on their ventral surface.
- All bony fish use gills for gas exchange.
- Water is drawn over gills that are located in chambers covered and ventilated by a protective, muscular flap called the operculum.
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- The atrium collects blood that has returned from the body, while the ventricle pumps the blood to the gills where gas exchange occurs and the blood is re-oxygenated; this is called gill circulation.
- (a) Fish have the simplest circulatory systems of the vertebrates: blood flows unidirectionally from the two-chambered heart through the gills and then to the rest of the body.