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Marbled Crayfish (marbled + crayfish)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Images from the Woods Hole Summer of 2009 Embryology Course

GENESIS: THE JOURNAL OF GENETICS AND DEVELOPMENT, Issue 9 2009
Article first published online: 24 SEP 200
Shown are images of Drosophila melanogaster (Fruit fly), Xenopus laevis (African clawed frog), Schmidtea mediterranea (Planaria), Hydroides (Serpulid worm), Schistocerca americana (American bird grasshopper), Euprymna scolopes (Hawaiian bobtail squid), Ciona intestinalis (Vase tunicate), Phalangium opilio (Daddy longlegs), Artemia franciscana (Brine shrimp), Mustelus canis (Dogfish), Danio rerio (Zebrafish), Gallus gallus domesticus (Chicken), Mnemiopsis leidyi (Warty comb jelly), Oscarella carmela (Desmosponge), Chaetopterus variopedatus (Parchment worm), and the Marbled crayfish that were generated and taken by members of the Woods Hole Embryology Course in the summer of 2009. Photo credits: Neel Aluru, Otger Campas, Carlos Carmona-Fontaine, Sheng-hong Chen, Katrien De Mulder, April Dinwiddie, Adele M. Doyle, Antje Fischer, Claudiu Giurumescu, Lauretta Grasso, Alysha Heimberg, Francie Hyndman, Erin Kaltenbrun, Dov Lerman-Sinkoff, Dede Lyons, Chema Martin-Durán, Lara Marxreiter, Jeremy Mosher, Malea Murphy, Lee Niswander, Vincent Pasque, Nipam H. Patel, Alberto Roselló, Prashant Sharma, Ashley Siegel, Ajay Thomas, Frank Tulenko, Alex Vasilyev, and Naveen Wijesena. For more information on the Embryology Course, please visit http://www.mblembryology.org/. [source]

Investigation of hatching and early post-embryonic life of freshwater crayfish by in vitro culture, behavioral analysis, and light and electron microscopy

JOURNAL OF MORPHOLOGY, Issue 7 2008
Günter Vogt
Abstract The late embryonic and early post-embryonic life period of freshwater crayfish, which is the main time period of organogenesis, is poorly investigated because of the protective brooding behavior of crayfish mothers. A combination of in vitro culture, behavioral observations, and microscopic investigations of organs involved in hatching, attachment, exploration of the environment, and searching and processing of food yielded deeper insights in this important period of life. Experiments were performed with the robust parthenogenetic marbled crayfish. The following results were obtained: (1) Marbled crayfish can be raised in simple in vitro systems from 80% embryonic development to juvenile Stage 4 with up to 100% survival; (2) Hatching is prepared by chemical weakening of the egg shell and completed by levering actions of the hatchling's appendages; (3) The telson thread, a safety line that keeps the hatchling secured to the mother, is formed by secretions from the telson and the detaching inner layer of the egg case; (4) Molting Stage-1 juveniles are secured by an anal thread that results from delayed molting of the hindgut; (5) Active attachment of the hatchlings to the maternal pleopods with their 1st pereiopods is achieved by an innate fixed action pattern; (6) In vitro, juveniles are motile from Stage 2 despite incomplete development of their balance controlling statocysts. Movement pattern and social behavior vary greatly among individuals; and (7) Feeding starts in Stage 3, when the mouthparts and the gastric mill are fully developed. Onset of feeding is innate and does not require maternal contributions. In vitro culture of the isogenic marbled crayfish is recommended for broader use in research because it enables not only time and stage-specific sampling but also precisely timed experimental manipulations. J. Morphol., 2008. © 2008 Wiley-Liss, Inc. [source]

Life stages and reproductive components of the Marmorkrebs (marbled crayfish), the first parthenogenetic decapod crustacean

JOURNAL OF MORPHOLOGY, Issue 3 2004
Günter Vogt
Abstract Recently, we briefly reported on the first case of parthenogenesis in the decapod Crustacea which was found in the Marmorkrebs or marbled crayfish, a cambarid species of unknown geographic origin and species identity. Curiously, this animal is known only from aquarium populations, where it explosively propagates. By means of light and electron microscopic techniques we have now investigated the reproductive components of this crayfish, using more than 100 specimens ranging from hatchling to repeatedly spawned adult. Additionally, we documented its principal life stages. Our results revealed that the external sexual characters and also the gonads of the marbled crayfish are purely female, making this fast-reproducing species a good model for investigating female reproductive features in crayfish. Testicular tissues, ovotestes, or male gonoducts, gonopores, or gonopods were never found, either in small juveniles or large adult specimens, confirming the parthenogenetic nature of this crayfish. Parthenogenesis may have arisen spontaneously or by interspecific hybridization since Wolbachia -like feminizing microorganisms were not found in the ovaries. The external sexual characters of the marbled crayfish are first recognized in Stage 4 juveniles and are structurally complete ,2 months after hatching in specimens of ,2 cm total length. In the same life stage the ovary is fully differentiated as well, although the oocytes are in previtellogenic and primary vitellogenic stages only. The architecture of the mature ovary and also the synchronous maturation of cohorts of primary vitellogenic oocytes by secondary vitellogenesis are in general agreement with data published on ovaries of bisexual crayfish. New results were obtained with respect to the muscular nature of the ovarian envelope and its extensive proliferation after the first spawning, the distribution of hemal sinuses in the ovarian envelope and in the interstitium around the oogenetic pouches, the high transport activity of the follicle cells, and the colonization of oogenetic pouches by previtellogenic oocytes that originate in the germaria. Investigation of the nuclei of oocytes in the germaria and oogenetic pouches revealed no signs of meiosis, as usually found in females of bisexual decapods, suggesting that parthenogenesis in the marbled crayfish might be an apomictic thelytoky. The detection of new rickettsial and coccidian infections in the ovary and further organs raises fears that the marbled crayfish might endanger native European species by transmission of pathogens once escaped into the wild. J. Morphol. 261:286,311, 2004. © 2004 Wiley-Liss, Inc. [source]