A Jellyfish comes in many shapes colours and sizes. They are found in most of the ocean in the world. If there is saltwater whether it is warm tropical seas or frigid polar water jellyfish are there. Jellyfish belong to a large group of mammals called Cnidarians. Cnidarians are the most common type of sea animals with more than 10000 species. The smallest jellyfish reaches the size of the thumbnail. Whereas the largest jellyfish may reach up the size of 7 feet or 2.3 meters across with tentacles 121 feet or 37 meters long. Jellyfish are called Invertebrates which implies they do not have a backbone. The jellyfish don’t have bones at all they don’t have eyes, ears, heart, or brain either. Unlike fish, jellyfish don’t have gills instead they observe oxygen through their skin. Jellyfish use a simple type of jet propulsion to get around, they open their body like an umbrella then close it. By contracting their body the water inside is forced out and the jellyfish moves forward. Constantly moving is the only thing keeping jellyfish afloat, but even with this effort, they can be easily pushed around by strong winds or ocean currents which is what leads some jellyfish to be washed up on beaches. The top of the jellyfish is called the Bell, their jelly-like bodies are almost made entirely of water about 95%. Some jellyfish have light sensors called eyespots that can sense sunlight and help the jellyfish know which way is up. Some jellyfish are Bioluminescent, which means they can produce light from their bodies kind of like a firefly. Although know one knows why they light up, the scientist believes it to be a defence mechanism to startle the predator away or perhaps to attract another predator to eat their attacker. Jellyfish are largely transparent, which means you can see through them. This makes it difficult to see them in water, which hides them from predators that like to eat them. The largest jellyfish were seen to have a bell diameter of 2.3 meters long and tentacles 27 meters long. This will be like a quarter length of the football field. Some of the jellyfish species change colour, this is triggered by a colour changing pigment, this effect is called bioluminescence. This is believed to be a defence mechanism to startle or confuse its predators. A jellyfish seen in a group is called Bloom. The number in which they are seen is assumed to be in millions. The life cycle of a jellyfish has many phase, they are as follows.
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STAGE 1(EGGS AND SPERMS)
Adult jellyfish consist of both male and female, both of them have reproductive organs which helps them to sexually reproduce which is called the Gonads. When both male and female jellyfish reach their maturity and are ready to reproduce, the male jellyfish would release sperm through an opening in their body called the Mouth. This mouth is usually found on the bottom of the bell. Coming to female jellyfish there seem to be many variations, some of the female jellyfish species carry their eggs in Brood Pouches which usually lies beneath the arm of the female jellyfish. These eggs in the brood pouches get fertilised when the female jellyfish swims through the male lade sperms. In case of other species of the female jellyfish, they carry their eggs in their mouth. The process is initiated when a male sperm goes inside the female jellyfish and the eggs are fertilised. Once the fertilization process is completed, they leave the stomach and get themself attached to the female jellyfish arms. In the case of the adult female jellyfish which is called the Medusa, the fertilization of the eggs takes place internally.
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STAGE 2 (PLANULA LARVA)
This is the second stage in their life cycle where their size is very tiny. The eggs after fertilization continue their development inside the female jellyfish. The division of the cell takes place several times inside the egg forming an embryo, this is called Embryonic Development. Once the development is complete the egg hatches and comes out in the form of a tiny ova, flatten creatures called a Planula. This comes out from the female jellyfish mouth. Here it separates itself from its parent to float freely in the ocean. It will be very tiny as a plankton and will not be easily able to spot with our eyes. These will not be having any tentacles at this state, they just keep on floating. The direction in which they will be floating will not be defined until they reach a place where they can hold on to something. A mature zygote goes through several cell divisions to form a Planula larva. This larva is free-swimming which will set out on its own. A thin hair-like cilia covers planula completely, these cilia beat rapidly there-by helping it to flow in the ocean current for a brief period of time until it is set for the next stage of its life. After floating on the surface of the water this tiny Planula if survived drops from the surface of the water and tries to settle on the rock or any other solid surface which is suitable to attach itself.
STAGE 3 (ATTACHED PLANULA)
Once the planula finds something sturdy to anchor itself and undergo transformation into a Polyp. The name that has been given to this Polyp is Scyphistoma. This will be cylindrical in shape and will look something like a stalk. At the top of Polyp where the mouth is present consists of a large number of small tentacles. Coming to the bottom of the Polyp, it displays a disk-like feature. The Polyp will be able to retain its form for a period of several years. During this stage in their life, it will be feeding on small marine animals by drawing them using its tentacles towards its mouth. During this stage of Polyp, the mouth and the tentacles are facing towards the top.
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STAGE 4 (BUDDING POLYP)
The Polyp does not require any additional kind of fertilization for it to initiate budding, as they will be performing asexual reproduction. This happens when the Polyp becomes bigger and mature. This is initiated by Polyp, by starting to grow branches on its sides. As these branches grow to become larger, they would detach themselves and drift down to besides the original Polyp to attach itself to the surface. This creates the same copy of the original Polyp. Both of them now begin to create more Buds. This intern leads to a much larger colony of Polyp covering the ocean floor. Gradually as time passes the Polyp forms a hybrid colony, where each and every Polyp is attached to one another by feeding tubes. When these polyps attain a certain age or grow into a size it moves on to the next stage of development. The state in which the Polyp develops further is called the Ephyra. This is no fixed time for its development, it may go up to several years.
STAGE 5 (IMMATURE JELLYFISH)
This is the next stage in the jellyfish life cycle, where-in the Polyp colony matures. The stalk part in the Polyp starts developing grooves in a horizontal manner. This process in which Polyp develops grooves is known to be Strobilation. The Polyp will look like a stack of saucers when the grooves get deeper and deeper. The upper portion of the Polyp is the once that matures faster and the later buds of Ephyra. This is what is known as a tiny immature jellyfish that is seen in the ocean.
STAGE 6 (ADULT JELLYFISH)
In this stage of a life cycle, a jellyfish which is fully grown in size is called a Medusa. Medusa is an adult jellyfish, this is the shortest part of the jellyfish life cycle, as they live only for a short period of time. The structure of Medusa resembles that of an umbrella, with tentacles hanging on to its lower position of the body. Once a jellyfish is grown full into an adult, we can say it is ready to reproduce. A jellyfish gets a significant amount of food it spawns very frequently. We observe 2 major cell layers in Medusa, the internal layer is called Gastrodermis and the outer layer is called the Epidermis. The jellyfish gut is lined by the Gastrodermis. The food is ingested through the gut and this is where the reproductive cells are taken in and released. As there are no lungs, stomach or intestine in a jellyfish, the nutrients, oxygen directly flow in and out of the body through the Gastrodermis. The Epidermis has cells which are loosely set in the network called the Nerve Net. This is the most basic nervous system that you will see in any of the multicellular animals. The layer seems between the epidermis and the gastrodermis is called mesoglea. This layer consists of most of the jellyfish body. As the jellyfish body consists of 95% water, we can say that mesoglea is mostly made up of water. The jellyfish consists of structural proteins, nerve cells, and muscle cells along with the water, all of this contributes to making the internal skeleton. The sensory structure in jellyfish is called Rhopalia, these contain receptors which help in deducting light, movement and chemicals. The most fascinating thing to see is how a jellyfish intercepts an image that has been created by the eye, as the jellyfish do not have any brains. Scientists believe the nerve ring that we see in the jellyfish play a major role in performing the brain duties. This nerve ring contains a cluster of nerves in the shape of a ring, which we will be able to observe in the adult jellyfish.
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FAQs on Jellyfish Life Cycle
1. What are the key stages in the life cycle of a typical jellyfish?
The jellyfish life cycle involves an alternation between two distinct body forms and reproductive strategies. The typical stages are:
- Egg and Sperm: Adult male and female medusae release gametes into the water, leading to fertilisation.
- Planula Larva: The fertilised egg develops into a free-swimming, ciliated larva called a planula.
- Polyp: The planula larva settles and attaches to a hard surface, developing into a sessile, stalk-like polyp (or scyphistoma).
- Strobila: The polyp matures and begins to reproduce asexually through a process called strobilation, where it develops horizontal grooves and resembles a stack of saucers. This stage is called a strobila.
- Ephyra: The individual 'saucers' break away from the strobila. These are immature, free-swimming juvenile jellyfish known as ephyrae.
- Adult Medusa: Each ephyra grows and matures into an adult jellyfish (medusa), completing the cycle.
2. How do jellyfish reproduce? Explain both the sexual and asexual phases.
Jellyfish exhibit a fascinating reproductive strategy called alternation of generations, involving both sexual and asexual phases:
- Sexual Reproduction: This phase is carried out by the familiar, free-swimming adult medusa. Males release sperm and females release eggs into the ocean. Fertilisation results in a zygote that develops into a planula larva.
- Asexual Reproduction: This phase is performed by the stationary polyp stage. After settling, the polyp can reproduce asexually by budding to create more polyps. More importantly, it undergoes strobilation, a process of transverse fission where it asexually produces and releases numerous juvenile jellyfish (ephyrae).
3. What is the difference between the polyp and medusa stages in a jellyfish's life?
The polyp and medusa stages represent two fundamentally different phases in the jellyfish life cycle. The key differences are:
- Body Form: The polyp has a sessile (fixed), cylindrical, stalk-like body with a mouth and tentacles facing upwards. In contrast, the medusa is free-swimming and has a bell-shaped or umbrella-shaped body with its mouth and tentacles facing downwards.
- Mobility: Polyps are stationary and attached to a substrate like rocks or the seafloor. Medusae are motile and drift or swim through the water.
- Reproduction: The primary role of the polyp is asexual reproduction through budding and strobilation. The medusa is the sexually reproducing stage, producing eggs and sperm.
4. What are the main classes of jellyfish and how do their life cycles generally differ?
Jellyfish belong to the phylum Cnidaria and are primarily divided into four classes, with variations in their life cycles:
- Scyphozoa: These are the 'true jellyfish'. In this class, the medusa is the large, dominant life stage, and the polyp stage is typically small and inconspicuous.
- Cubozoa: Known as 'box jellyfish'. Their life cycle is similar to Scyphozoans, but each polyp develops into only one medusa. They possess complex eyes.
- Hydrozoa: This diverse group often has a life cycle where the polyp stage is dominant, frequently forming large, colonial organisms. The medusa stage, when present, is often smaller.
- Staurozoa: These are the 'stalked jellyfish'. They are unique in that they do not have a free-swimming medusa stage. The polyp develops a trumpet-like top that functions like a medusa but remains attached to the stalk.
5. Why is the Turritopsis dohrnii species known as the 'immortal jellyfish'?
The species Turritopsis dohrnii is called the 'immortal jellyfish' because of its unique ability to reverse its life cycle. When faced with environmental stress, injury, or old age, the adult medusa can revert back to the juvenile polyp stage through a cellular process called transdifferentiation. In this process, its cells essentially transform from one type to another. By settling back down as a polyp, it can begin the life cycle anew, potentially allowing it to live indefinitely and bypass death by natural ageing. However, it can still be killed by predators or disease.
6. What is the ecological importance of the jellyfish life cycle?
The jellyfish life cycle plays a significant role in marine ecosystems. They are a crucial link in the marine food web, acting as predators of zooplankton and small fish, while also serving as prey for larger animals like sea turtles and some fish. The massive reproductive output during strobilation can lead to large 'jellyfish blooms', which can impact fisheries and tourism but also play a role in nutrient cycling by transporting nutrients from the surface to deeper waters when they die and sink.
7. What are nematocysts and what is their function in a jellyfish's life?
Nematocysts, also known as cnidocytes, are specialised explosive cells located on the tentacles and oral arms of a jellyfish. Each cell contains a coiled, harpoon-like, venomous thread. Their primary functions are:
- Prey Capture: When a small fish or plankton brushes against the tentacles, the nematocysts fire, injecting venom to paralyse or kill the prey.
- Defence: They are also used as a defence mechanism against potential predators. The sting from these cells is what causes a painful reaction in humans who come into contact with a jellyfish.
