What are Marmorkrebs?
“Marmorkrebs” is an informal name given to marbled crayfish that were discovered by hobbyists in Germany in the late 1990s.
Marmorkrebs are parthenogenetic: they are all females, and reproduce without sex. This is the only decapod crustacean found that reproduces only this way, giving it incredible potential as a model organism for research. Some of the advantages of Marmorkrebs are that they are genetically identical, reproduce at high rates, and are easy to care for.
“Marmorkrebs” roughly translates from German as “marbled crab.” The scientific name for Marmorkrebs is Procambarus virginalis or Procambarus fallax f. virginalis; they are an asexual relative of slough crayfish (P. fallax) that live across Florida and southern Georgia in the United States. There are no known native populations of Marmorkrebs in North America; the only known cases of them in the wild are where they have been introduced by humans.
Marmorkrebs are also an invasive species. They have been introducted in many places, and have established populations in at least many countries, damaging agriculture and threatening native species. Marmorkrebs should not be used for bait (see here), kept in outdoor tanks or ponds (Marmorkrebs can migrate over land; see here), or placed in any other situation where they could be released into natural ecosystems. In North America, Marmorkrebs are prohibited in Missouri (since 2011) and Tennessee (since 2015). The European Union banned possession, trade, transport, production, and release of Marmorkrebs (and several other crayfish species) in 2016.
View Marmorkrebs introductions in a larger map
Marmorkrebs blog. Award-winning science writing!
The portal for the complete Marmorkrebs genome is at http://marmorkrebs.dkfz.de/.
Colonies and stocks
North American researchers can contact Zen Faulkes to get Marmorkrebs for research. Establishment of the Faulkes lab Marmorkrebs colony was supported by the National Science Foundation (award 0813581).
For a more comprehensive list of research papers, click here.
Deidun A, Sciberras A, Formosa J, Zava B, Insacco G, Corsini-Foka M, Crandall KA. Invasion by non-indigenous freshwater decapods of Malta and Sicily, central Mediterranean Sea. Journal of Crustacean Biology: in press. http://dx.doi.org/10.1093/jcbiol/ruy076
Velisek J, Stara A, Zuskova E, Kubec J, Buric M, Kouba A. Effects of s-metolachlor on early life stages of marbled crayfish. Pesticide Biochemistry and Physiology: in press. https://doi.org/10.1016/j.pestbp.2018.11.007
Weiperth A, Gál B, Kuříková P, Langrová I, Kouba A, Patoka J. Risk assessment of pet-traded decapod crustaceans in Hungary with evidence of Cherax quadricarinatus (von Martens, 1868) in the wild. North–Western Journal of Zoology: in press, e171303. http://biozoojournals.ro/nwjz/content/acc/nwjz_e171303_Weiperth_acc.pdf
2019 research papers
Anastácio PM, Ribeiro F, Capinha C, Banha F, Gama M, Filipe AF, Rebelo R, Sousa R. 2019. Non-native freshwater fauna in Portugal: A review. Science of The Total Environment 650: 1923-1934. https://doi.org/10.1016/j.scitotenv.2018.09.251
2018 research papers
Císar P, Saberioon M, Kozák P, Pautsina A. 2018. Fully contactless system for crayfish heartbeat monitoring: undisturbed crayfish as bio-indicator. Sensors and Actuators B: Chemical 255(1): 29-34. https://doi.org/10.1016/j.snb.2017.07.160
Gatzmann F, Falckenhayn C, Gutekunst J, Hanna K, Raddatz G, Carneiro VC, Lyko FJE. 2018. The methylome of the marbled crayfish links gene body methylation to stable expression of poorly accessible genes. Epigenetics & Chromatin 11(1): 57. https://doi.org/10.1186/s13072-018-0229-6
Göpel T, Wirkner CS. 2018. Morphological description, character conceptualization and the reconstruction of ancestral states exemplified by the evolution of arthropod hearts. PLOS ONE 13(9): e0201702. https://doi.org/10.1371/journal.pone.0201702
Gutekunst J, Andriantsoa R, Falckenhayn C, Hanna K, Stein W, Rasamy J, Lyko F. 2018. Clonal genome evolution and rapid invasive spread of the marbled crayfish. Nature Ecology and Evolution 2(3): 567–573. https://doi.org/10.1038/s41559-018-0467-9
Herrmann A, Schnabler A, Martens A. 2018. Phenology of overland dispersal in the invasive crayfish Faxonius immunis (Hagen) at the Upper Rhine River area. Knowledge and Management of Aquatic Ecosystems 419: 30. https://doi.org/10.1051/kmae/2018018
Hossain MS, Patoka J, Kouba A, Buřič M. Clonal crayfish as biological model: a review on marbled crayfish. Biologia 73(9): 841-855. https://doi.org/10.2478/s11756-018-0098-2
Linzmaier SM, Goebel LS, Ruland F, Jeschke JM. 2018. Behavioral differences in an over-invasion scenario: marbled vs. spiny-cheek crayfish. Ecosphere 9(9): e02385. https://doi.org/10.1002/ecs2.2385
Maguire I, Klobucar G, Žganec K, Jelic M, Lucic A, Hudina S. 2018. Recent changes in distribution pattern of freshwater crayfish in Croatia - threats and perspectives. Knowledge and Management of Aquatic Ecosystems 419: 2. https://doi.org/10.1051/kmae/2017053
Marenkov O, Prychepa M, Kovalchuk J. 2018. The influence of heavy metal ions on the viability and metabolic enzyme activity of the marbled crayfish Procambarus virginalis (Lyko, 2017).
International Letters of Natural Sciences 70: 11-23. https://doi.org/10.18052/www.scipress.com/ILNS.70.11
Naboka A, Marenkov O, Kovalchuk J, Shapovalenko Z, Nesterenko O, Dzhobolda B. 2018. Parameters of the histological adaptation of Marmorkrebs Procambarus virginalis (Lyko, 2017) (Decapoda, Cambaridae) to manganese, nickel and lead ions pollution. International Letters of Natural Sciences 70: 24-33. https://doi.org/10.18052/www.scipress.com/ILNS.70.24
Neff EP. 2018. The Marmorkrebs model. Lab Animal 47(4): 107-107. https://doi.org/10.1038/s41684-018-0030-y
Nentwig W, Bacher S, Kumschick S, Pyšek P, Vilŕ M. 2018. More than “100 worst” alien species in Europe. Biological Invasions 20(6): 1611–1621. https://doi.org/10.1007/s10530-017-1651-6
Nischik ES, Krieger J. 2018. Evaluation of standard imaging techniques and volumetric preservation of nervous tissue in genetically identical offspring of the crayfish Procambarus fallax cf. virginalis (Marmorkrebs). PeerJ 6: e5181. https://doi.org/10.7717/peerj.5181
Marenkov O, Batalov K, Kriachek O. 2018. Biological and biomechanical principles of the controlling molluscs Melanoides tuberculata (Müller 1774) and Tarebia granifera (Lamarck, 1822) in reservoirs of strategic importance World Scientific News 99: 71-83. http://www.worldscientificnews.com/wp-content/uploads/2018/04/WSN-99-2018-71-83.pdf
Scholz S, Richter S, Wirkner CS. 2018. Constant morphological patterns in the hemolymph vascular system of crayfish (Crustacea, Decapoda). Arthropod Structure & Development 47(3): 248-267. https://doi.org/10.1016/j.asd.2017.12.005
Velisek J, Stara A, Zuskova E, Kubec J, Buric M, Kouba A. 2018. Chronic toxicity of metolachlor OA on growth, ontogenetic development, antioxidant biomarkers and histopathology of early life stages of marbled crayfish. Science of The Total Environment 643: 1456-1463. https://doi.org/10.1016/j.scitotenv.2018.06.309
Vogt G. 2018. Investigating the genetic and epigenetic basis of big biological questions with the parthenogenetic marbled crayfish: A review and perspectives. Journal of Biosciences 43(1): 189-223. https://doi.org/10.1007/s12038-018-9741-x
Vogt G. 2018. Annotated bibliography of the parthenogenetic marbled crayfish Procambarus virginalis, a new research model, potent invader and popular pet. Zootaxa 4418(4): 301-352. https://doi.org/10.11646/zootaxa.4418.4.1
Vogt G. 2018. Glair glands and spawning in unmated crayfish: a comparison between gonochoristic slough crayfish and parthenogenetic marbled crayfish. Invertebrate Zoology 15(2): 215–220. https://doi.org/10.15298/invertzool.15.2.02, http://kmkjournals.com/journals/Inv_Zool/IZ_Index_Volumes/IZ_15/IZ_15_2_215_220_Vogt
Vogt G, Dorn NJ, Pfeiffer M, Lukhaup C, Williams BW, Schulz R, Schrimpf A. 2018. In-depth investigation of the species problem and taxonomic status of marbled crayfish, the first asexual decapod crustacean. BioRxiv: 26 June 2018. https://doi.org/10.1101/356170 [Unreviewed pre-print]
Zeng Y, Yeo DCJ. 2018. Assessing the aggregated risk of invasive crayfish and climate change to freshwater crabs: A Southeast Asian case study. Biological Conservation 223: 58-67. https://doi.org/10.1016/j.biocon.2018.04.033
Anonymous. 2007. British crayfish could be wiped out by alien species with the plague. The Daily Mail. 28 June 2007.
Anonymous. 2016. Cangrejo mármol, una curiosa especie invasora con dos caras. Real Jardín Botánico press release. 8 September 2016. http://www.rjb.csic.es/jardinbotanico/jardin/contenido.php?Pag=236&tipo=noticia&cod=5283
Coghlan A. 2003. Crayfish clones poised to invade European waters. New Scientist 2383 (22 February 2003).
Estonian Research Council. 2018. The marbled crayfish have established themselves in Narva power plant. EurekAlert!
Faulkes Z. 2009. How Marmorkrebs can make the world a better place. In: Rohn J (ed.), Grant RP (deputy ed.), Zivkovic B (series ed.), The Open Laboratory: The Best In Science Writing On Blogs 2008, pp. 86-87. Coturnix: Chapel Hill.
Faulkes Z. 2011. The decade the clones came. In: Goldman JG (ed.), Zivkovic B (series ed.), The Open Laboratory: The Best of Science Writing on the Web 2010, pp. 151-156. Coturnix: Chapel Hill.
Fujiie H. 2017. War urged to destroy alien cloning mystery crayfish. The Asahi Shimbun (Japanese newspaper) news story. 13 April 2017. http://www.asahi.com/ajw/articles/AJ201704130011.html
German Cancer Research Center. 2015. A cray-active solution for cancer research. http://medicalxpress.com/news/2015-11-cray-active-solution-cancer.html
Heimer K. 2010. Invasion of self-cloning crayfish alarms Madagascar. Deutsche Presse-Agentur wire story.
Horton J. 2013. Scots wildlife at risk from alien crayfish breeds. The Scotsman. 21 April 2013.
Le Page M. 2018. Crayfish clone army on the loose. New Scientist 239(3185): 16. https://doi.org/10.1016/S0262-4079(18)31193-X (Published online with title, “Freak accident created a massive army of super-fertile clones.”)
Linzmaier S. 2016. Vom Aquarium in den See. Verbundjournal 106: 14-15.
Löwe K. 2010. Gefahr aus dem Aquarium. Mitteldeutsche Zeitung (Central German Newspaper) news story. 13 October 2010.
Pennisi E. 2015. Crayfish create a new species of female ‘superclones’. Science News ScienceShots. https://doi.org/10.1126/science.aad1673
Privenau K. 2010. Marmorkrebs bringt Pest. Mitteldeutsche Zeitung (Central German Newspaper) news story. 12 October 2010.
Robbins M. 2009. Owning clones. Tropical Fish Hobbyist 57(7): 72-74.
Swedish Agency for Marine and Water Management. 2012. Discovery of marbled crayfish creates concern.
Swedish Agency for Marine and Water Management. 2013. First analysis of marbled crayfish completed.
Zhang S. 2018. A pet crayfish can clone itself, and it’s spreading around the world. The Atlantic
Zimmer C. 2018. This mutant crayfish clones itself, and it’s taking over Europe. The New York Times
Missouri has added Marmorkrebs to its prohibited species list, effective 1 March 2011. Read more here. Tennessee designated Marmorkrebs as “Class V wildlife,” meaning they can only be kept by zoos, effective October 2015. Read more here and here.
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This work by Zen Faulkes is licensed under a Creative Commons Attribution-Noncommercial 3.0 United States License.
This site maintained by Zen Faulkes. Last updated 13 November 2018.