Question - What are the frogs sensory organs?

Answered by: Roy Anderson  |  Category: General  |  Last Updated: 27-06-2022  |  Views: 1478  |  Total Questions: 14

There are different sense organs that present in a frog, which include sensory papillae, taste buds, nasal epithelium, eyes, and internal ears. The eyes and the ears are well developed. Learn more about the Neural Tissue here in detail. Amphibians have sense organs to smell and taste chemicals. Other sense organs include eyes and ears. Of all amphibians, frogs generally have the best vision and hearing. Frogs also have a larynx, or voice box, to make sounds. The taste buds are on the surface of his tongue and the inside of his mouth. Completely aquatic frogs in the Pipidae family do not have tongues, but they have taste discs in their mouth tissue to receive taste sensations. All the frog's internal organs--including the heart, the lungs, and all organs of digestion--are held in this single hollow space. 2) The Skeleton and Muscles The frog's body is supported and protected by a bony framework called the skeleton. The skull is flat, except for an expanded area that encases the small brain. Reproductive Organs A male frog has two interior testicles and spermatic canal -- not a penis -- that produce the sperm. A female frog has ovaries and oviducts, as well as a uterus that stores the eggs until release, but is not involved in gestation.

http://allaboutfrogs.org/weird/general/teeth.html

Most frogs do in fact have teeth of a sort. They have a ridge of very small cone teeth around the upper edge of the jaw. These are called Maxillary Teeth. They don't have anything that could be called teeth on their lower jaw, so they usually swallow their food whole.

https://brainly.in/question/2174467

Frog is an amphibian which has the ability to survive both in land as well as water. They excrete urea as waste product from their body through the excretory system, hence they are considered as ureotelic organism.

https://learning-center.homesciencetools.com/article/frog-dissection-project/

Curving below the liver is the stomach; it looks like a large whitish tube. After identifying the other organs, you can open the stomach and see what the frog ate. (Frogs swallow their food whole. ) Small Intestine.

https://www.mentalfloss.com/article/49855/why-do-students-dissect-frogs

One reason frogs are often chosen to be dissected is that their bodies provide a good overview of the organ systems of a complex living thing. The organs present in a frog, and the way they are laid out in the body, are similar enough to humans to provide insight for students about how their bodies work.

https://bio.libretexts.org/Bookshelves/Introductory_and_General_Biology/Book%3A_General_Biology_(Ope

The endocrine system plays a role in growth, metabolism, and sexual development. In organisms that undergo metamorphosis, the process is controlled by the endocrine system. The transformation from tadpole to frog, for example, is complex and nuanced to adapt to specific environments and ecological circumstances.

https://animals.howstuffworks.com/amphibians/frog4.htm

Frogs lay eggs in water, and the eggs hatch into tadpoles that grow into frogs. All frogs reproduce sexually, and all hatch from eggs. In almost all frogs, egg fertilization happens outside the female's body instead of inside. The female releases her eggs and the male releases his sperm at the same time.

https://www.dkfindout.com/us/animals-and-nature/amphibians/inside-frog/

Inside a frog. A frog's body is built for jumping and swimming. Frogs have long, strong back legs, with extra joints so they can fold up close to the body. They have a short backbone (spine), with a large hip bone to support their powerful leg muscles.

https://www.thefrog.org/biology/smell/smell.htm

Many frogs can sense chemical changes in the air, not just from the nostril but from molecules collected on their eyes and skin. Frogs have a smell organ in the roof of their mouths called the jacobson's organ.

https://www.livescience.com/6379-frogs-surprisingly-humans-genetically-speaking.html

Frogs Surprisingly Like Humans, Genetically Speaking. African clawed frogs have more in common with humans than you might think, according to their newly sequenced genome, which shows a surprising number of commonalities with the human genome.

https://www.fearof.net/fear-of-frogs-phobia-ranidaphobia/

The term used to describe this phobia/fear of frogs is called Ranidaphobia. This word originates from Latin source 'Rani/ranidae' meaning the family of amphibians including frogs, toads, newts etc and phobos which is Greek for fear. Another term for this phobia is Batrachophobia.

https://hhs.helenaschools.org/wp-content/uploads/sites/31/2018/06/frog-dissection-external-anatomy.p

Large Intestine--As you follow the small intestine down, it will widen into the large intestine. The large intestine is also known as the cloaca in the frog. The cloaca is the last stop before wastes, sperm, or urine exit the frog's body. The esophagus is the tube that leads from the frog's mouth to the stomach.

https://animals.howstuffworks.com/amphibians/frog2.htm

Frogs have skulls but don't have necks, so they can't turn, lift or lower their heads like people can. A frog also doesn't have ribs. The rib-like structures you can see in the picture above are part of its spine. The vertebrae at the bottom end of the spine are fused into one bone called the urostyle.

https://sciencing.com/similarities-frogs-humans-8531808.html

Although each may look quite different, frogs and humans have skin, bones, muscles and organs. The head of both frogs and humans contains the brain, mouth, eyes, ears and nose. Frogs possess teeth and a tongue, like humans, but their teeth are weak and function to hold prey rather than chew it.

https://www.urmc.rochester.edu/news/story/2831/genome-sequence-marks-big-leap-forward-for-frog-resea

For instance, genes in frogs have very similar neighboring genes as humans about 90 percent of the time. In other words, the frog genome contains the same sort of “gene neighborhoods” as the human genome.