Science, Tech, Math › Science Why Dead Fish Float Upside Down The Science Behind Dead Fish Floating Belly Up Share Flipboard Email Print Dead fish float upside down because they fill with light gases. The muscles and bones of the spine are heavier, so fish float belly up. Mike Kemp / Getty Images Science Chemistry Basics Chemical Laws Molecules Periodic Table Projects & Experiments Scientific Method Biochemistry Physical Chemistry Medical Chemistry Chemistry In Everyday Life Famous Chemists Activities for Kids Abbreviations & Acronyms Biology Physics Geology Astronomy Weather & Climate By Anne Marie Helmenstine, Ph.D. Chemistry Expert Ph.D., Biomedical Sciences, University of Tennessee at Knoxville B.A., Physics and Mathematics, Hastings College Dr. Helmenstine holds a Ph.D. in biomedical sciences and is a science writer, educator, and consultant. She has taught science courses at the high school, college, and graduate levels. our editorial process Facebook Facebook Twitter Twitter Anne Marie Helmenstine, Ph.D. Updated November 12, 2018 If you've seen dead fish in a pond or your aquarium, you've noticed they tend to float on the water. More often than not, they'll be "belly up", which is a dead giveaway (pun intended) you're not dealing with a healthy, living fish. Have you ever wondered why dead fish float and live fish don't? It has to do with fish biology and the scientific principle of buoyancy. Key Takeaways Dead fish float in water because decomposition fills the fish's gut with buoyant gases.The reason fish typically go "belly up" is because the spine of the fish is more dense than its belly.Healthy living fish don't float. They have an organ called a swim bladder that regulates the amount of gas present in the body of a fish and thus its buoyancy Why Living Fish Don't Float To understand why a dead fish floats, it helps to understand why a live fish is in the water and not on top of it. Fish consist of water, bones, protein, fat, and a smaller amount of carbohydrates and nucleic acids. While fat is less dense than water, your average fish contains a higher amount of bones and protein, which makes the animal neutrally buoyant in water (neither sinks nor floats) or slightly more dense than water (slowly sinks until it gets deep enough). It doesn't require much effort for a fish to maintain its preferred depth in the water, but when they do swim deeper or seek shallow water they rely on an organ called a swim bladder or air bladder to regulate their density. How this works is that water passes into a fish's mouth and across its gills, which is where oxygen passes from the water into the bloodstream. So far, it's a lot like human lungs, except on the outside of the fish. In both fish and humans, the red pigment hemoglobin carries oxygen to cells. In a fish, some of the oxygen is released as oxygen gas into the swim bladder. The pressure acting on the fish determines how full the bladder is at any given time. As the fish rises toward the surface, the surrounding water pressure decreases and oxygen from the bladder returns to the bloodstream and back out through the gills. As a fish descends, water pressure increases, causing hemoglobin to release oxygen from the bloodstream to fill the bladder. It allows a fish to change depth and is a built-in mechanism to prevent the bends, where gas bubbles form in the bloodstream if pressure decreases too rapidly. Why Dead Fish Float When a fish dies, its heart stops beating and blood circulation ceases. The oxygen that is in the swim bladder remains there, plus decomposition of the tissue adds more gas, particularly in the gastrointestinal tract. There's no way for the gas to escape, but it presses against the fish's belly and expands it, turning the dead fish into a sort of fish-balloon, rising toward the surface. Because the spine and muscles on the dorsal side (top) of the fish are more dense, the belly rises up. Depending on how deep a fish was when it died, it might not rise to the surface, at least not until decomposition really sets in. Some fish never gain sufficient buoyancy to float and decay under the water. In case you were wondering, other dead animals (including people) also float after they start to decay. You don't need a swim bladder for that to happen. Sources Chapin, F. Stuart; Pamela A. Matson; Harold A. Mooney (2002). Principles of Terrestrial Ecosystem Ecology. New York: Springer. ISBN 0-387-95443-0.Forbes, S.L. (2008). "Decomposition Chemistry in a Burial Environment". In M. Tibbett; D.O. Carter. Soil Analysis in Forensic Taphonomy. CRC Press. pp. 203–223. ISBN 1-4200-6991-8.Pinheiro, J. (2006). "Decay Process of a Cadaver". In A. Schmidt; E. Cumha; J. Pinheiro. Forensic Anthropology and Medicine. Humana Press. pp. 85–116. ISBN 1-58829-824-8.