Ampullae Of Lorenzini Hammerhead at Amber Owen blog

Ampullae Of Lorenzini Hammerhead. The location of the eyes may also allow better stereoscopic vision. Mokarran) you can see the sensory pores on the underside of its hammer. These porelike organs can detect electricity. At close range, they also rely on a network of sensors known as ampullae of lorenzini, named for the italian scientist who discovered them more than three centuries ago. One group of sensory organs is the ampullae of lorenzini, which allows sharks to detect, among other things, the electrical fields. Perhaps this unusual shape gives the sharks added lift and lets them make sharper turns than other sharks. Great white sharks are known to react to charges of one millionth of a volt in water. Animals that continually live in deep sea habitats face unique challenges and require adaptive specializations solutions in order to. If you look closely at this great hammerhead shark (s.

Animals that continually live in deep sea habitats face unique challenges and require adaptive specializations solutions in order to. If you look closely at this great hammerhead shark (s. Great white sharks are known to react to charges of one millionth of a volt in water. One group of sensory organs is the ampullae of lorenzini, which allows sharks to detect, among other things, the electrical fields. The location of the eyes may also allow better stereoscopic vision. Perhaps this unusual shape gives the sharks added lift and lets them make sharper turns than other sharks. At close range, they also rely on a network of sensors known as ampullae of lorenzini, named for the italian scientist who discovered them more than three centuries ago. These porelike organs can detect electricity. Mokarran) you can see the sensory pores on the underside of its hammer.

Ampullae of Lorenzini

Ampullae Of Lorenzini Hammerhead Animals that continually live in deep sea habitats face unique challenges and require adaptive specializations solutions in order to. One group of sensory organs is the ampullae of lorenzini, which allows sharks to detect, among other things, the electrical fields. At close range, they also rely on a network of sensors known as ampullae of lorenzini, named for the italian scientist who discovered them more than three centuries ago. Great white sharks are known to react to charges of one millionth of a volt in water. If you look closely at this great hammerhead shark (s. Mokarran) you can see the sensory pores on the underside of its hammer. Animals that continually live in deep sea habitats face unique challenges and require adaptive specializations solutions in order to. The location of the eyes may also allow better stereoscopic vision. Perhaps this unusual shape gives the sharks added lift and lets them make sharper turns than other sharks. These porelike organs can detect electricity.