【 摘 要 】

Background

We report the discovery of a nematode parasite egg (Nemata: Oxyurida) from a coprolite closely associated with the remains of several species of Cynodontia, dated to 240 million years old. This finding is particularly significant because this is the oldest record of an oxyurid nematode yet discovered, and because the cynodonts are considered a stem-group of the mammals.

Methods

We extracted material from a fully mineralized coprolite by both scraping the surface, and removing fragments from its interior with clean dental instruments used a single time. A single drop of glycerol from a new vial was added as a clearing reagent. Each slide was sealed with wax and examined with an optical microscope at 100× to 400× magnification.

Results

From one coprolite, 550 slides were examined; from 275 of these slides, sediment was examined that was scraped from the surface of the coprolite, and from the other 275 slides, material was examined that was extracted from the interior of the coprolite. All microscopic structures encountered were photographed, measured, and identified when possible.

Conclusions

From the coprolite examined, we discovered an egg representing a new species of pinworm that, based on the egg structure, clearly places it in the family Heteroxynematidae. Nematodes of the order Oxyurida have very constrained life-histories, occurring only in animals that are not strictly carnivorous and also ingest large amounts of plant material. This fact enabled us to determine which species of cynodont, from several collected at the site in Brazil, are most likely the depositors of the coprolite, and therefore were the putative host of the parasite.

【 授权许可】

   
2014 Hugot et al.; licensee BioMed Central Ltd.

【 预 览 】

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【 图 表 】

【 参考文献 】

• [1]Araújo A, Ferreira LF: Paleoparasitology and the antiquity of human host-parasite relationships. Mem Inst Oswaldo Cruz 2000, 95(Suppl. I):89-93.
• [2]Gardner SL, Cambpell M: Parasites as probes for biodiversity. J Parasitol 1992, 78:596-600.
• [3]Larew LG: Two cynipid wasp acorn galls preserved in the La Brea Tar Pits (early Holocene). Proc Ent Soc Wash 1987, 89:831-833.
• [4]Jouy-Avantin F, Combes C, Lumley H, Miskovsky JC, Moné H: Helminth eggs in animal coprolites from a middle Pleistocene site in Europe. J Parasitol 1999, 85:376-379.
• [5]Da-Rosa AAS: Paleontological tourism at Santa Maria city, Southern Brazil: potential versus reality. Arq Mus Nac Rio de Janeiro 2008, 66:291-304.
• [6]Soares MB, Schultz CL, Horn BLD: New information on Riograndia guaibensis Bonaparte, Ferigolo and Ribeiro, 2001 (Eucynodontia, Tritheledontidae) from the Late Triassic of southern Brazil: anatomical and biostratigraphic implications. An Acad Bras Cienc 2011, 83:329-354.
• [7]Da Silva PA, Borba VH, Dutra JMF, Leles D, Da-Rosa AAS, Ferreira LF, Araujo A: A new ascarid species in cynodont coprolite dated of 240 million years. An Acad Bras Cienc 2014, 86:265-269.
• [8]Kemp TS: The Origin & Evolution of Mammals. Oxford University Press, Oxford; 2005.
• [9]Introduction to Nematology. University Park Press, Baltimore, Maryland; 1950.
• [10]Hugot JP, Sutton CA: Contribution à la connaissance de la faune parasitaire d¿Argentine, XV. Étude morphologique de Heteroxynema (Cavioxyura) viscaciae n. sp., (Nematoda, Oxyuridae), parasite de Lagidium viscacia boxi. Syst Parasit 1989, 13:111-120.
• [11]Hugot JP: Étude morphologique de Syphaciella madagascariensis (Nematoda, Heteroxynematidae) parasite de Pterocles personatus (Aves, Ptroclididae). Syst Parasit 1989, 14:43-52.
• [12]Chaudhary A, Pal S, Singh MHS: Genomic DNA sequence of Leidynema appendiculata from Meerut, U.P., India. Asian J An Sci 2011, 5:243-255.
• [13]Anderson RC: Nematode Parasites of Vertebrates. Their Development and Transmission. CAB International, Wallingford and New York; 2000.
• [14]Dorris M, De Ley P, Blaxter ML: Molecular analysis of nematode diversity and the evolution of parasitism. Parasitol Today 1999, 15:188-193.
• [15]Nadler SA, Carreno RA, Mejía-Madrid H, Ullberg J, Pagan C, Houston R, Hugot JP: Molecular phylogeny of clade III nematodes reveals multiple origins of tissue parasitism. Parasitology 2007, 130:1-23.
• [16]Ulrike RZ, Bialek R, Weiß M: Molecular phylogenetic analysis of Enterobius vermicularis and development of an 18S Ribosomal DNA-targeted diagnostic PCR. J Clin Microbiol 2011, 49:1602-1604.
• [17]Adamson ML: Evolutionary patterns in life histories of Oxyurida. Int J Parasitol 1994, 24:1167-1177.
• [18]Poulin R: Evolutionary Ecology of Parasites. Princeton University Press, UK; 2007.
• [19]Pedersen AB, Altizer S, Poss M, Cunningham AA, Nunn CL: Patterns of host specificity and transmission among parasites of wild primates. Int J Parasitol 2005, 35:647-657.
• [20]Sorci G, Morand S, Hugot JP: Host-parasite coevolution: comparative evidence for covariation of life history traits in primates and oxyurid parasites. Proc R Soc Lond B 1997, 264:285-289.
• [21]Hugot JP, Feliu C, Ribas A: Laoxyuris laonasti n. gen., n. sp. (Nematoda: Syphaciinae) parasite of Laonastes aenigmamus (Rodentia: Diatomyidae): morphology, biology, taxonomy, phylogeny. Infect Genet Evol 2013, 13:213-221.
• [22]Darwin C: Letter to Henry Denny (November 7th, 1844). Charles Darwin¿s Letters (1825¿1859): A Selection. Cambridge University Press, Oxford; 1998.
• [23]Cameron TW: The species of Enterobius Leach, in Primates. J Helminthol 1929, 7:161-182.
• [24]Sandosham AA: On Enterobius vermicularis (Linnaeus, 1758) and some related species from primates and rodents. J Helminthol 1950, 24:171-204.
• [25]Brooks DR, Glen DR: Pinworms and primates: a case study in coevolution. Proc Helminthol Soc Wash 1982, 49:76-85.
• [26]Hugot JP: Phylogeny of neotropical monkeys: the interplay of morphological, molecular, and parasitological data. Mol Phyl Evol 1998, 9:408-413.
• [27]Hugot JP: Primates and their pinworm parasites: Cameron hypothesis revisited. Syst Biol 1999, 48:523-546.
• [28]Hoberg EP, Pilitt PA, Galbreath KE: Why museums matter: a tale of pinworms (Oxyuroidea: Heteroxynematidae) among pikas (Ochotona princeps and O. collaris) in the American west. J Parasitol 2009, 95:490-501.
• [29]Barberena MC: Uma nova espécie de Massetognathus (Massetognathus ochagaviae, sp.nov.) da Formação Santa Maria, Triássico do Rio Grande do Sul. Pesquisas 1981, 14:181-195.
• [30]von Huene FF: Lieferung 2. Cynodontia. In Die fossilen Reptilien des Südamerikanischen Gondwanalandes. Ergebnisse der Sauriergrabungen in Südbrasilien 1928/29. Edited byFF von Huene. Beck¿sche Verlagsbuchhandlung; 1938:83¿160.
• [31]Abdala FN, Sa-Teixeira AM: A traversodontid cynodont of African affinity in the South American Triassic. Palaeontologia africana 2004, 40:11-22.
• [32]Bonaparte JF, Soares MB, Schultz CL: A new non-mammalian cynodont from the Middle Triassic of southern Brazil and its implications for the ancestry of mammals. In The Triassic-Jurassic Terrestrial Transition. Edited by Harris HD, Lucas SG, Spielmann JA, Lockley MG, Milner ARC, Kirkland JL. New Mexico Museum of Natural History & Science Bulletin 37; 2006:599¿607.
• [33]Battail B: La phylogénie des Cynodontes gomphodontes. Acta Palaeontol Pol, Warszawa 1983, 28:19-30. Second Symposium on Mesozoic Terrestial Ecosystems, Jadwisin 1981