| 词条 | Rhizocephala |
| 释义 |
| image = Sacculina carcini.jpg | image_caption = Externa (highlighted) of mature female Sacculina on a female Liocarcinus holsatus | regnum = Animalia | phylum = Arthropoda | subphylum = Crustacea | classis = Maxillopoda | subclassis = Thecostraca | infraclassis = Cirripedia | superordo = Rhizocephala | superordo_authority = Müller, 1862 | subdivision_ranks = Orders | subdivision =
}}Rhizocephala are derived barnacles that parasitise decapod crustaceans. Their body plan is uniquely reduced in an extreme adaptation to their parasitic lifestyle, and makes their relationship to other barnacles unrecognisable in the adult form. The name Rhizocephala derives from the Greek roots {{lang|el|ῥίζα}} ({{lang|el|rhiza}}, "root") and {{lang|el|κεφαλή}} ({{lang|el|cephale}}, "head"), describing the adult female, which mostly consists of a network of thread-like extensions penetrating the body of the host.[1] Description and lifecycleAs adults they lack appendages, segmentation, and all internal organs except gonads, a few muscles, and the remains of the nervous system. Other than the minute nauplius stages, there is nothing identifying them as crustaceans or even arthropods in general. The only distinguishable portion of a rhizocephalan body is the externa; the reproductive portion of adult females. Nauplii released from adult females swim in water for several days without taking any food (the larva has no mouth and no intestine) and transform into cypris larvae (cyprids) after several moults. In some species, for example, Thompsonia, embryos develop directly into cypris larvae before they are released from adult females. A female cypris settles on a host and metamorphoses and injects its internal cell mass into host animal. The cell mass then grows into root-like threads through the host, centering on the digestive system. This network of threads is called the interna. The female then grows a sac-like externa extruding from the abdomen of the host.[2]The externa remains immature until a male cypris injects its internal cells into a female's externa. Injected male cells migrates into a pair of cypris cell receptacles which was once called the testes. Within the receptacle, male cells transforms into nothing but sperm-producing germ cells. In other words, a male cypris becomes hyper-parasitic to a female which is already parasitic to the host (crab or shrimp). Since the male becomes nothing but spermatogenic (sperm-forming) cells, we may consider that an adult male rhizocephala represents the simplest form of male in the entire animal kingdom. Mature female externa releases eggs into its mantle cavity where eggs are fertilised by sperm from hyper-parasitic male(s). The female produces two types of eggs: small eggs, when fertilised, develop into female cypres, while the large eggs develop into male cypres. In Peltogastella gracilis, each externa produces several batches of larvae before it drops off the host. After all externae disppear, the host moults and a new young virgin externa "buds" from the female interna within the host's body. In Peltogasterella gracilis, many externae develop simultaneously and repeatedly from a single interna. Budding is a sort of cloning of a female individual. New extera receives cells from different male cypres. A female externa commonly has two cypris cell receptacles. In adults, either one or two of two receptacles contain male cypris cells (spermatogenic cells), depending on the chance of a juvenile female externa to meet one or more cypris males. Thus, a Peltogaterella female can "mate" with numerous males during its life time.{{Citation needed|date=July 2017}} The externa is where the host's egg sac would be, and the host's behaviour is chemically altered: it is castrated and does not moult until aged externa(e) drop(s) off. The host treats the externa as if it were its own egg sac.[2] This behaviour even extends to male hosts, which would never have carried eggs, but care for the externa in the same way as females.[2] ClassificationFollowing the 2001 review by Martin and Davis, the Rhizocephala are ranked as a superorder and divided into two orders which together contain 9 families and two genera which cannot be unequivocally assigned to a family:[3][4] {{col-begin|width=70%}}{{col-1-of-2}}Order Akentrogonida Häfele, 1911
References{{Portal|Crustaceans|Arthropods}}1. ^{{cite web |url=http://www.myetymology.com/latin/Rhizocephala.html |title=Etymology of the Latin word Rhizocephala |publisher=MyEtymology |accessdate=June 24, 2011}} 2. ^1 2 {{cite book |author1=Henrik Glenner |author2=Jens T. Høeg |lastauthoramp=yes |year=2002 |chapter=A scenario for the evolution of the Rhizocephala |editor=Elva Escobar-Briones & Fernando Alvarez |title=Modern Approaches to the Study of Crustacea |pages=301–310 |publisher=Springer |isbn=978-0-306-47366-1 |url=https://books.google.com/books?id=H_u6HHgd2bMC&pg=PA301}} 3. ^{{cite book |url=http://atiniui.nhm.org/pdfs/3839/3839.pdf |title=An Updated Classification of the Recent Crustacea |author1=J. W. Martin |author2=G. E. Davis |lastauthoramp=yes |year=2001 |pages=132 pp |publisher=Natural History Museum of Los Angeles County |format=PDF}} 4. ^{{cite web |url=http://www.marinespecies.org/aphia.php?p=taxdetails&id=1109 |author=Daphne Cuvelier |title=Rhizocephala |work=World Marine, Freshwater and Terrestrial Isopod Crustaceans Database |editor1=M. Schotte |editor2=C. B. Boyko |editor3=N. L. Bruce |editor4=G. C. B. Poore |editor5=S. Taiti |editor6=G. D. F. Wilson |year=2009 |publisher=World Register of Marine Species |accessdate=June 3, 2011}} External links{{NIE Poster}}
2 : Barnacles|Taxa named by Fritz Müller |
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