This work is licensed under the Creative Commons Attribution 4.0 International License.
Blackburn, D. 1999. Viviparity and oviparity: Evolution and reproductive strategies. Pp. 994–1003 in E. Knobil and J. D. Neill, eds. Encyclopedia of reproduction Vol. 4, London: Academic Press.BlackburnD.1999Viviparity and oviparity: Evolution and reproductive strategies9941003inKnobilE.NeillJ. D.eds.Encyclopedia of reproduction4LondonAcademic PressSearch in Google Scholar
Bornemissza, G. F. 1969. A new type of brood care observed in the dung beetle Oniticellus cinctus (Scarabaeidae). Pedobiologia 9:223–225.BornemisszaG. F.1969A new type of brood care observed in the dung beetle Oniticellus cinctus (Scarabaeidae)Pedobiologia9223225Search in Google Scholar
Bornemissza, G. F. 1976. Australian dung beetle project 1965–75. MRC Review. Australian Meat Research Committee 30:1–30.BornemisszaG. F.1976Australian dung beetle project 1965–75. MRC ReviewAustralian Meat Research Committee30130Search in Google Scholar
Brenner, S. 1974. The genetics of Caenorhabditis elegans. Genetics 77:71–94.BrennerS.1974The genetics of Caenorhabditis elegansGenetics777194Search in Google Scholar
Cambefort, Y., and Hanski, I. 1991. Dung beetle population biology. Pp. 36–50 in I. Hanski and Y. Cambefort, eds. Dung beetle ecology, Princeton: Princeton University Press.CambefortY.HanskiI.1991Dung beetle population biology3650inHanskiI.CambefortY.eds.Dung beetle ecologyPrincetonPrinceton University PressSearch in Google Scholar
Carta, K. K., and Li, S. 2018. Improved 18S small subunit rDNA primers for problematic nematode amplification. Journal of Nematology 50:533–542.CartaK. K.LiS.2018Improved 18S small subunit rDNA primers for problematic nematode amplificationJournal of Nematology50533542Search in Google Scholar
Floyd, R. M., Rogers, A. D., Lambshead, J. D., and Smith, C. R. 2005. Nematode-specific PCR primers for the 18S small subunit rRNA gene. Molecular Ecology Notes 5:611–612.FloydR. M.RogersA. D.LambsheadJ. D.SmithC. R.2005Nematode-specific PCR primers for the 18S small subunit rRNA geneMolecular Ecology Notes5611612Search in Google Scholar
Hara, A. H., Lindegren, J. E., and Kaya, H. K. 1981. Monoxenic mass production of the entomogenous nematode, Neoaplectana carpocapsae Weiser, on dog food agar/medium. USDA/SEA, Advanced Agriculture Technology. Western Series 16:8.HaraA. H.LindegrenJ. E.KayaH. K.1981Monoxenic mass production of the entomogenous nematode, Neoaplectana carpocapsae Weiser, on dog food agar/mediumUSDA/SEA, Advanced Agriculture Technology. Western Series168Search in Google Scholar
Herrmann, M., Ragsdale, E. J., Kanzaki, N., and Sommer, R. J. 2013. Sudhausia aristotokia n. gen., n. sp. and S. crassa n. gen., n. sp. (Nematoda: Diplogastridae): Viviparous new species with precocious gonad development. Nematology 15:1001–1020.HerrmannM.RagsdaleE. J.KanzakiN.SommerR. J.2013Sudhausia aristotokia n. gen., n. sp. and S. crassa n. gen., n. sp. (Nematoda: Diplogastridae): Viviparous new species with precocious gonad developmentNematology1510011020Search in Google Scholar
Johnigk, S., and Ehlers, R. 1999. Endotokia matricida in hermaphrodites of Heterorhabditis spp. and the effect of the food supply. Nematology 1:717–726.JohnigkS.EhlersR.1999Endotokia matricida in hermaphrodites of Heterorhabditis spp. and the effect of the food supplyNematology1717726Search in Google Scholar
Kanzaki, N., Giblin-Davis, R. M., Gonzalez, R., Wood, L. A., and Kaufman, P. E. 2017. Sudhausia floridensis n. sp. (Nematoda: Diplogastridae) isolated from Onthophagus tuberculifrons (Coleoptera: Scarabaeidae) from Florida, USA. Nematology 19:575–586.KanzakiN.Giblin-DavisR. M.GonzalezR.WoodL. A.KaufmanP. E.2017Sudhausia floridensis n. sp. (Nematoda: Diplogastridae) isolated from Onthophagus tuberculifrons (Coleoptera: Scarabaeidae) from Florida, USANematology19575586Search in Google Scholar
Kanzaki, N., Yamashita, T., Lee, J. S., Shih, P.-Y., Ragsdale, E. J., and Shinya, R. 2021. Tokorhabditis n. gen. (Rhabditida, Rhabditidae), a comparative nematode model for extremophilic living. Scientific Reports 11:16470.KanzakiN.YamashitaT.LeeJ. S.ShihP.-Y.RagsdaleE. J.ShinyaR.2021Tokorhabditis n. gen. (Rhabditida, Rhabditidae), a comparative nematode model for extremophilic livingScientific Reports1116470Search in Google Scholar
Kawai, S., Hori, S., Kawahara, M., and Inagaki, M. 2008. Atlas of Japanese Scarabaeoidea Vol.1 Coprophagous group. Roppon-Ashi Entomological Books.KawaiS.HoriS.KawaharaM.InagakiM.2008Atlas of Japanese Scarabaeoidea Vol.1 Coprophagous groupRoppon-Ashi Entomological BooksSearch in Google Scholar
Kühne, R. 1996. Relations between free-living nematodes and dung-burying Geotrupes spp.(Coleoptera: Geotrupini). Fundamental and Applied Nematology 19: 263–271.KühneR.1996Relations between free-living nematodes and dung-burying Geotrupes spp.(Coleoptera: Geotrupini)Fundamental and Applied Nematology19263271Search in Google Scholar
Ledón-Rettig, C. C., Moczek, A. P., and Ragsdale, E. J. 2018. Diplogastrellus nematodes are sexually transmitted mutualists that alter the bacterial and fungal communities of their beetle host. Proceedings of the National Academy of Sciences of the United States of America 115:10696–10701.Ledón-RettigC. C.MoczekA. P.RagsdaleE. J.2018Diplogastrellus nematodes are sexually transmitted mutualists that alter the bacterial and fungal communities of their beetle hostProceedings of the National Academy of Sciences of the United States of America1151069610701Search in Google Scholar
Nunn, G. B. 1992. Nematode molecular evolution. An investigation of evolutionary patterns among nematodes based upon DNA sequences. Ph. D. dissertation. University of Nottingham, UK.NunnG. B.1992Nematode molecular evolution. An investigation of evolutionary patterns among nematodes based upon DNA sequencesPh. D. dissertation.University of NottinghamUKSearch in Google Scholar
Ogura, N., and Mamiya, Y. 1989. Artificial culture of an entomogenous nematode, Steinernema kushidai (Nematoda: Steinernematidae). Applied Entomology and Zoology 24:112–116.OguraN.MamiyaY.1989Artificial culture of an entomogenous nematode, Steinernema kushidai (Nematoda: Steinernematidae)Applied Entomology and Zoology24112116Search in Google Scholar
Ragsdale, E. J., Kanzaki, N., Yamashita, T., and Shinya, R. 2022. Tokorhabditis tauri n. sp. and T. atripennis n. sp. (Rhabditida: Rhabditidae), isolated from Onthophagus dung beetles (Coleoptera: Scarabaeidae) from the Eastern USA and Japan. Journal of Nematology 54:20220028.RagsdaleE. J.KanzakiN.YamashitaT.ShinyaR.2022Tokorhabditis tauri n. sp. and T. atripennis n. sp. (Rhabditida: Rhabditidae), isolated from Onthophagus dung beetles (Coleoptera: Scarabaeidae) from the Eastern USA and JapanJournal of Nematology5420220028Search in Google Scholar
Shih, P.-Y., Lee, J. S., Shinya, R., Kanzaki, N., PiresdaSilva, A., Badroos, J. M., Goetz, E., Sapir, A., and Sternberg, P. W. 2019. Newly identified nematodes from Mono Lake exhibit extreme arsenic resistance. Current Biology 29:3339–3344.ShihP.-Y.LeeJ. S.ShinyaR.KanzakiN.PiresdaSilvaA.BadroosJ. M.GoetzE.SapirA.SternbergP. W.2019Newly identified nematodes from Mono Lake exhibit extreme arsenic resistanceCurrent Biology2933393344Search in Google Scholar
Sudhaus, W. 1976. Vergleichende Untersuchungen zur Phylogenie, Systematik, Ökologie, Biologie und Ethologie der Rhabditidae (Nematoda). Zoologica 43:1–229.SudhausW.1976Vergleichende Untersuchungen zur Phylogenie, Systematik, Ökologie, Biologie und Ethologie der Rhabditidae (Nematoda)Zoologica431229Search in Google Scholar
Vigne, P., Gimond, C., Ferrari, C., Vielle, A., Hallin, J., Pino-Querido, A., El Mouridi, S., Mignerot, L., Frøkjær-Jensen, C., Boulin, T., Teotónio, H., and Braendle, C. 2021. A single-nucleotide change underlies the genetic assimilation of a plastic trait. Science Advances 7:eabd9941.VigneP.GimondC.FerrariC.VielleA.HallinJ.Pino-QueridoA.El MouridiS.MignerotL.Frøkjær-JensenC.BoulinT.TeotónioH.BraendleC.2021A single-nucleotide change underlies the genetic assimilation of a plastic traitScience Advances7eabd9941Search in Google Scholar
Yamashita, T., Ekino, T., Kanzaki, N., and Shinya, R. 2023. The developmental and structural uniqueness of the embryo of the extremophile viviparous nematode, Tokorhabditis tufae. Frontiers in Physiology 14:1197477.YamashitaT.EkinoT.KanzakiN.ShinyaR.2023The developmental and structural uniqueness of the embryo of the extremophile viviparous nematode, Tokorhabditis tufaeFrontiers in Physiology141197477Search in Google Scholar
