Rib jellyfish

In the classical taxonomy, the comb jellyfish were combined with the cnidarians (Cnidaria) to form the hollow animals (Coelenterata). A close relationship to the cnidarians is, however, rather unlikely, according to studies that also include molecular methods such as the comparison of DNA sequences. The actual position and relationship of the comb jellyfish is controversial.

construction

Bar jellyfish are, apart from a color caused by symbiotically living algae cells, usually colorless and often only a few centimeters in size. Exceptions are the species of the genus Cestum , which can reach a diameter of one and a half meters.

The species that occur in deeper waters, however, can also be colored, such as the red tortuga, which to this day has no scientific name. This is dark red in color and, like many other comb jellyfish, can generate light using bioluminescence . In the case of species living on the ground, the coloring may serve as camouflage. The species Eurhamphaea vexilligera can release a bright red ink that may be used to distract predators.

The body consists of two transparent cell layers called the outer skin (ectodermis) and the inner skin (gastrodermis). The ectodermis, which is made up of two layers of cells, is usually covered by a protective layer of mucus that is secreted by special glandular cells. The gastrodermis encloses a cavity that serves as the stomach and is only accessible from the mouth opening, which is followed by a long, narrow throat. Captured prey is pre-digested in the throat by strong digestive enzymes and completely decomposed in the stomach. Apart from two small, so-called anal pores, which are not used for excretion, there is no separate exit from the stomach, so that the indigestible waste is removed through the mouth.

Statocyst and tentacles

Red tortuga with tentacles and clearly recognizable tentils

A specialized system of the comb jellyfish is the statocyst , which serves as a balance organ and controls the movement of the animals. It is located on the side of the body facing away from the mouth opening and consists of a collection of several hundred calcium cells called statolith on the one hand and four horizontally arranged groups of serpentine flagella on the other. If the comb jellyfish changes its position in space due to external influences, the statolith exerts more pressure on one of the four flagella groups than on the other three. This sensory impression is passed on to the outer skin, which is traversed by a total of eight longitudinal bands, the eponymous ribs. On these bands there are small platelets arranged one behind the other in a row, which consist of hundreds of fused flagella about two millimeters long and are also known as membranelles . By erecting these platelets in rows, a real stroke of the oar occurs which, if it is correctly synchronized between the eight ribs, can restore the original position. A group of flagella of the statocyst is responsible for stimulating the flapping movement in one quadrant each and, as a pacemaker, controls two comb ribs. The beat rhythm is transmitted in a mechanical way and not by nerve impulses. The flapping movement of the excited flagella continues in waves over the ribs. With suitable lighting, the resulting movement patterns generate interference colors and are visible to the naked eye, for example in sunlight, as rainbow-colored light reflections along the ribs.

Most species have two opposing retractable tentacles in front of the mouth opening, each emerging from a tentacle sheath and used to catch prey. They often carry a series of thread-like filaments on their sides, the tentils, which, unlike in the cnidarians, are not covered with nettle cells but with so-called "Lasso cells", the colloblasts . These consist of a head strewn with small adhesive bodies, a short, slim holding thread and a longer spiral thread wound around it. When touched, this construction acts like a spring that hurls the adhesive head at the prey. The colloblasts, like the tentacles as a whole, are regularly regenerated.

All comb jellyfish with the exception of the species of the genus Beroe (therefore called Nuda or Atentaculata) have tentacles. Some Lobata also use their muscle-lined mouth flaps instead of their tentacles to obtain food, which are then simply put over their prey.

Comb jellyfish are amazingly regenerative animals: even if half of an individual is destroyed, the remaining half can often restore it. This also applies to individual organs such as the statolith, which can still be regenerated even after total loss.

Locomotion

Many comb jellyfish simply let themselves be carried away by the ocean current. At short distances they can also swim actively by the stroke of their flagellated platelets, depending on the "rowing direction" in relation to the mouth opening forwards or backwards. This makes them the largest animals that still use flagella for locomotion, and with that they reach speeds of around five centimeters per second. A possible evolutionary advantage is seen in the fact that, thanks to the even stroke of the oars, neither prey nor possible predators such as other comb jellyfish become aware of them through vibrations triggered by muscle movements.

However, some species also use the muscle cells of their mouth lobes for swimming, while others move forward with undulating body movements or crawl like flatworms .

Diet and predators

Comb jellyfish foraging for food, mouth on the left

Rib jellyfish are predatory. With their tentacles they catch plankton , animal larvae , worms , crustaceans , cnidarians and other rib jellyfish, but sometimes also small fish . If the tentacles are contaminated with food particles, they can be drawn in and stripped off at the mouth opening. They are carried from there to the stomach by secreted mucus or internal flagella. The species of the genus Haeckelia feed almost exclusively on cnidarians, whose stinging cells, however, are not digested, but built into the tentacles as so-called kleptocnids . This "theft" has historically caused confusion among zoologists for a long time, as it was wrongly assumed that cortisized jellyfish are also able to form nettle cells.

The predators of the rib jellyfish include cnidarians, sea ​​turtles (Cheloniidae), various fish such as mackerel (Scombridae) or the sea ​​hare ( Cyclopterus lumpus ), seabirds and not least other rib jellyfish.

habitat

All comb jellyfish live in the sea, some of them up to three kilometers deep. Their area of ​​distribution is determined primarily by water currents, especially by the tides . Individual species also occur in the North Sea, such as the so-called sea gooseberry ( Pleurobrachia pileus ) or the melon jellyfish ( Beroe gracilis ) and the sea walnut ( Mnemiopsis Leidyi ).

About 35 species live on the sea floor. These species are classified in the taxon Platyctenida , as they are characterized by their flattened shape and are more like snails or flatworms than "jellyfish".

Reproduction

"Larva" of Bolenopsis sec.

Squid jellyfish reproduce, apart from the species of the order Platyctenida, which can also reproduce asexually, in principle sexually. It is almost always a hermaphrodite , so every animal has both male (testes) and female gonads (ovaries), which are located directly under the "ribs" next to the small canals of the mesoglea. In almost all species, probably triggered by external light conditions, the germ cells are released into the surrounding water through small openings in the outer skin, the gonopores , where fertilization then takes place. Self-fertilization is rather rare and apparently only occurs in the genus Mnemiopsis . Only one species, Tjalfiella tristoma , is viviparous; the young grow here in their own breeding cave.

In the fertilized egg cells, after two cell divisions, the later body symmetry of the comb jelly is already established; they develop through what is known as the Cydippea stage, which is already free- swimming and which looks very similar in all comb jellyfish and is sometimes referred to as a larva , but in reality is usually a miniature version of the adult animal. In some highly specialized groups such as the Platyctenida, however , the Cydippea and adult animals occupy different ecological niches, so that the term larva is more appropriate there.

Rib jellyfish as neozoa

Although cortis jellyfish are usually barely noticed and their impact on an ecosystem appears to be minimal, they can cause considerable damage if they enter non-native waters. The North Atlantic species Mnemiopsis Leidyi was brought into the Black Sea with the ballast water of ships in the early 1980s, where it spread rapidly. Within ten years, the anchovy fishery around the sea collapsed as the newly introduced species fed on the same plankton that the fish larvae eat. The biomass of the comb jellyfish in the Black Sea was estimated at one million tons at the height of this development. The comb jellyfish can sometimes double their weight in 24 hours. Researchers at the Helmholtz Association belonging Biological Institute Helgoland (BAH) had recently pointed out, is that the comb jellyfish due to warmer winter in the Baltic and North Sea could become a problem.

Research history

Cib jellyfish have been known since ancient times , as they can be seen when observing them closely from ships . The first surviving drawing was made by a ship's doctor in 1671. In his classification of the animal kingdom, the Swedish taxonomist Carl von Linné put them together with other "primitive" invertebrates such as sponges (Porifera) or cnidarians as the Zoophyta (translated as animal plants), alluding to the passive, "plant-like" character of the animals . The French zoologist Georges Cuvier also maintained this classification. It was not until the 19th century that the comb jellyfish were recognized as an independent taxon.

Tribal history

The classification given in the introduction is not undisputed. According to the currently leading systematic method, cladistics , the rib jellyfish are more closely related to the mirror-symmetrical bilateria than to the cnidarians. This is also supported by the fact that they have two tentacles facing each other, which break the radial symmetry and turn it into bilateral or mirror symmetry. It also differentiates from the cnidarians the presence of real muscle tissue and the "ribs" described, consisting of hundreds of small platelets. An important indicator for the sister group relationship of the comb jellyfish with the bilateria is also the structure of the sperm . In both groups, these have a single, large acrosome and an underlying subacrosomal perforation plate . In the cnidarians there are several acrosome vesicles.

Alternative 1

Hollow animals (Coelenterata):

Alternative 2

Acrosomata:

In addition, a close relationship between the rib jellyfish and flatworms has been suggested; the reasons given include the similarities between these and the flattened rib jellyfish of the order Platyctenida. For most zoologists, however, these are only superficial similarities that do not indicate a close relationship.

Alternative 3

ParaHoxozoa / Planulozoa:

Last but not least, the comb jellyfish in the combination of the ParaHoxozoa / Planulozoa alternative are placed at the base of the metazoa and form the most original multicellular animals here.

Systematics

Currently about a hundred species are known, which are traditionally divided into the two classes of the Tentaculata (also Tentaculifera) and Nuda (also Atentaculata).

• The tentaculata comprise by far the largest part of the biodiversity; As the name suggests, they have tentacles, which, however, can be very stunted. A distinction is made between the following six orders :
  • Order Cydippida , including the sea ​​gooseberry ( Pleurobrachia pileus )
  • Order Platyctenida
  • Order Ganeshida
  • Order Thalassocalycida
  • Order Lobata
  • Order Cestida , including the Venus belt ( Cestum veneris )
• Only one order, Beroida, belongs to the class Nuda , which includes the melon jellyfish ( Beroe gracilis ). Here, too, the name of the taxon indicates that Nuda species are characterized by the complete absence of tentacles.

Due to the continuing uncertainties about the classification of the comb jellyfish as a whole, it is currently unclear whether the above classification correctly reflects the actual phylogenetic relationships within the taxon. This is only the case if the tentacle-owning species evolved from tentacle-less ancestors. If instead the tentacles have been lost secondarily in the species of the class Nuda, it is very likely that the class Tentaculata represents a paraphyletic group, i.e. does not include all descendants of their common ancestor. According to the ideas of modern systematics, cladistics , it would then only be an unnatural summary of non-closely related species. Molecular genetic studies support the latter view and also see the order Cydippida as polyphyletic; If the results of these studies are confirmed, this does not even include the last common ancestor of the group and would therefore be an artificial taxon.

The following diagram shows the presumed phylogenetic relationships within the comb jellyfish on the basis of morphological and molecular genetic data (ribosomal RNA):

The position of the Ganeshida is unknown.

However, the above information is still fraught with great uncertainty - for the time being, the phylogenetic relationships within the comb jellyfish must be regarded as unexplained.

literature

• Donald T. Anderson: Invertebrate Zoology. Cape. 3. Oxford Univ. Press, Oxford 2001, p. 54. ISBN 0-19-551368-1 .
• Richard S. Barnes, Peter Calow, Peter J. Olive, David W. Golding, John I. Spicer: The invertebrates. A synthesis. Cape. 3.4.3. Blackwell, Oxford 2001, p. 63. ISBN 0-632-04761-5 .
• Richard C. Brusca, Gary J. Brusca: Invertebrates. Cape. 9. Sinauer, Sunderland Mass. 2003, p. 269. ISBN 0-87893-097-3 .
• Janet Moore: An Introduction to the Invertebrates. Cape. 5.4. Cambridge University Press, Cambridge 2001, p. 65. ISBN 0-521-77914-6 .
• Edward E. Ruppert, Richard S. Fox, Robert D. Barnes: Invertebrate Zoology. A functional evolutionary approach. Cape. 8. Thomson Brooks Cole, Belmont, Calif. 2004, p. 181. ISBN 0-03-025982-7 .
• Wilhelm Schäfer: Ctenophora, rib jellyfish. In: Wilfried Westheide , Reinhard Rieger : Special Zoology, Vol. 1: Protozoa and invertebrates . Gustav Fischer, Stuttgart 1996. p. 182. ISBN 3-437-20515-3 .
• Bruno Wenzel: Glass animals of the sea. Rib jellyfish (Acnidaria). (Neue Brehm-Bücherei; Vol. 213). Westarp Wissenschaftlicher Verlag, Hohenwarsleben 2010, ISBN 978-3-89432-659-3 (reprint of the Wittenberg 1958 edition).

Special literature

• Mark Q. Martindale, Jonathan Q. Henry: Ctenophora. In: Scott F. Gilbert, Anne M. Raunio: Embryology. Constructing the Organism. Sinauer, Sunderland Mass. 1997, p. 87. ISBN 0-87893-237-2 .
• Mircea Podar, Steven H. Haddock, Mitchell L. Sogin, G. Richard Harbison: A molecular phylogenetic framework for the phylum Ctenophora using 18S rRNA genes. In: Molecular Phylogenetics and Evolution , Vol. 21 (2001), p. 218. ISSN  1055-7903

Individual evidence