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Article | Open Access

What is the Chinese caterpillar fungus Ophiocordyceps sinensis (Ophiocordycipitaceae)?

Bhushan ShresthaaWeimin ZhangbYongjie ZhangcXingzhong Liud( )
Green Energy Mission/Nepal, Anam Nagar, Kathmandu, P.O. Box 10647, Nepal
Guangdong Institute of Microbiology, Guangzhou 510070, China
School of Life Sciences, Shanxi University, Taiyuan 030006, China
Key Laboratory of Systematic Mycology and Lichenology, Institute of Microbiology, Chinese Academy of Sciences, Datun Road, Chaoyang District, Beijing 100101, China
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Abstract

Ophiocordyceps sinensis is a well-known insect fungus, naturally distributed in the Tibetan Plateau of Asia. It has been long known by its synonym Cordyceps sinensis both in scientific and non-scientific communities but was recently transferred to Ophiocordyceps. Over the last 300 years, the morphological characters of this taxon have been studied by different professionals and experts, such as religious persons, travelers, entomologists, pharmacologists and mycologists. Morphological descriptions of mature O. sinensis stroma based on recent studies are compared in this study with those of the type specimens of Berkeley (Lond J Bot. 2:205–211;1843). A literature review indicates that the specimens of Berkeley (1843) are immature. New names have been proposed for O. sinensis-like species from alpine regions, such as O. gansuënsis, O. crassispora, O. kangdingensis, O. multiaxialis and O. nepalensis, and it is not obvious how these differ from O. sinensis. Epitypification and revision of O. sinensis is, therefore, essential to resolve the taxonomic ambiguity of O. sinensis and related species.

Keywords

Cordyceps sinensisChong CaoDong Chong Xia CaoDong Chung Ha ChoemendationepitypificationSphaeria sinensistaxonomic revisionTochu-Kaso, Yarsa Gumba

References

 

Adhikari MK. 2008. The diversity of Cordycepioid fungi (Ascomycotina: Clavicipitales) reported from Nepal. Bull Dept Plant Resour. 30:1–7.
Google Scholar
 

Adhikari MK, Durrieu G. 1996. Ethnomycologie Nepalaise. Bull Soc Mycol Fr. 112:31–41.
Google Scholar
 
Ainsworth GC. 1976. Introduction to the history of mycology. London: Cambridge University Press. 359 p.
 

Balfour-Browne FL. 1955. Some Himalayan fungi. Bull Br Mus Nat Hist. 1:189–218.
Google Scholar
 

Berkeley MJ. 1843. On some entomogenous Sphaeriae. Lond J Bot. 2:205–211.
Google Scholar
 

Berkeley MJ. 1857. On some entomogenous Sphaeriae. J Proc Linn Soc. (Bot.) 1:157–159.
Crossref Google Scholar
 
Bretschneider E. 1881. Early European researches into the flora of China. London: American Presbyterian Mission Press. 194 p.
Crossref
 

Brewster JF, Alsberg CL. 1917. Notes on the physiological action of Cordyceps sinensis. J Pharmacol Exp Ther. 10:277–280.
Google Scholar
 

Cannon PF, Hywel-Jones NL, Maczey N, Norbu L, Tshitila Samdup, T Lhendup. 2009. Steps towards sustainable harvest of Ophiocordyceps sinensis in Bhutan. Biodivers Conserv. 18:2263–2281.
Crossref Google Scholar
 

Chaudhuri H. 1931. Note on a Cordyceps from Tibet. Trans Br Mycol Soc. 16:203–204.
Crossref Google Scholar
 

Chen SJ, Yin DH, Li L, Zhou XL, Za X. 2001a. Studies on anamorph of Cordyceps sinensis (Berk.). from Naqu, Tibet. China J Chin Mat Med. 26:453–454.
Google Scholar
 

Chen SJ, Yin DH, Zhong GY, Huang TF. 2002. Study on the biology of adult parasite of Cordyceps sinensis, Hepialus biruensis. China J Chin Mat Med. 27:893–895.
Google Scholar
 

Chen YJ, Zhang YP, Yang YX, Yang D. 1999. Genetic diversity and taxonomic implication of Cordyceps sinensis as revealed by RAPD markers. Biochem Gen. 37:201–13.
Crossref Google Scholar
 

Chen YQ, Wang N, Qu LH, Li TH, Zhang WM. 2001b. Determination of the anamorph of Cordyceps sinensis inferred from the analysis of the ribosomal DNA internal transcribed spacers and 5.8S rDNA. Biochem Syst Ecol. 29:597–607.
Crossref Google Scholar
 

Chen YQ, Hu B, Xu F, Zhang WM, Zhou H, Qu LH. 2004. Genetic variation of Cordyceps sinensis, a fruit-body-producing entomopathogenic species from different geographical regions in China. FEMS Microbiol Lett. 230:153–158.
Crossref Google Scholar
 

Cheng Z, Geng Y, Liang HG, Yang XL, Li S, Zhu YG, Guo GG, Zhou TS, Chen JK. 2007. Phylogenetic relationships of host insects of Cordyceps sinensis inferred from mitochondrial cytochrome b sequences. Prog Nat Sci. 17:789–797.
Crossref Google Scholar
 
Chhetri R, Lodhiyal LS. 2008. Collection of Cordyceps sinensis (Berk). Sacc. (yarsagomba) and its implications to rural livelihood and biodiversity conservation: a case of Darchula, Nepal. In: Jha PK, Karmacharya SB, Chettri MK, Thapa CB, Shrestha BB, editors. Medicinal plants in Nepal: an anthology of contemporary research. Kathmandu: Ecological Society. p 214–223.
 

Chu HF. 1965. The host insect of Chinese “Insect Herb”, Hepialus armoricanus Oberthur. Acta Entomol Sin. 14:620–621.
Google Scholar
 

Cooke MC. 1884. Notes on Hypocreaceae. Grevillea 12:78–80.
Google Scholar
 
Cooke MC. 1892. Vegetable wasps and plant worms – a popular history of entomogenous fungi or fungi parasitic upon insects. London: Society for promoting Christian knowledge. 364 p.
Crossref
 
Department of Medicinal Plants. 1976. Medicinal plants of Nepal. Ministry of Forests, HMG Nepal. Bull. No. 9
 

Devkota S. 2006. Yarsagumba [Cordyceps sinensis (Berk.) Sacc.]; traditional utilization in Dolpa district, Western Nepal. Our Nature 4:48–52.
Crossref Google Scholar
 

Devkota S. 2008. Distribution and status of highland mushrooms: a study from Dolpa, Nepal. J Nat Hist Mus. 23:51–59.
Crossref Google Scholar
 

Devkota S. 2009. The frequency and relationship of flowering plants on the distribution pattern of Ophiocordyceps sinensis (Yarchagunbu) in the highlands of Dolpa district, Nepal. Banko Janakari 19:29–36.
Crossref Google Scholar
 
Dickson J. 1785. Plantarum cryptogamicarum Britanniae. Fasciculus I. London: WG Farlow. 28 p.
 
du Halde PJB. 1736. Description géographique, historique, chronologique, politique, et physique de l’empire de la Chine et de la Tartarie Chinoise. Vol. 3. Henri Scheurileer. 652 p.
 

Esteban CI. 2007. Cordyceps sinensis, un hongo usado en la medicina tradicional china. Rev Iberoam Micol. 24:259–262.
Crossref Google Scholar
 

Gao ZX, Chen J, Yu H. 1992. Study on the main host swiftmoth, Hepialus oblifurcus Chu et Wang of caterpillar fungus, Cordyceps sinensis (Berkeley) Sacc. in Kangding. Acta Entomol Sin. 35:317–321.
Google Scholar
 

Ginns J. 1988. Typification of Cordyceps canadensis and C. capitata, and a new species, C. longisegmentis. Mycologia. 80:217–222.
Crossref Google Scholar
 
Gray GR. 1858. Notices of insects that are known to form the bases of fungoid parasites. Privately printed. 22 p.
 
Halpern GM. 1999. Cordyceps: China’s healing mushroom. New York: Avery Publishing Group. 115 p.
 
Halpern GM. 2007. Healing mushrooms. New York: Square One Publishers. 184 p.
 
Holliday J, Cleaver M, Wasser SP. 2005. Cordyceps. Encyclopedia of dietary supplements. Dekker Encyclopedias. London: Taylor and Francis. p 1–13.
 

Holliday J, Cleaver M. 2008. Medicinal value of the caterpillar fungi species of the genus Cordyceps (Fr.) Link (Ascomycetes): a review. Intl J Med Mush. 10:219–234.
Crossref Google Scholar
 

Hyde KD, Zhang Y. 2008. Epitypification: should we epitypify?. J Zhejiang Univ Sci B 9:842–846.
Crossref Google Scholar
 

Jiang Y, Yao YJ. 2002. Names related to Cordyceps sinensis anamorph. Mycotaxon 84:245–254.
Google Scholar
 

Jiang Y, Yao YJ. 2003. Anamorphic fungi related to Cordyceps sinensis. Mycosystema 22:161–176.
Google Scholar
 

Jiang Y, Yao YJ. 2004. Current understanding of molecular systematics of Cordyceps. J Fung Res. 2:58–67.
Google Scholar
 
Jones K. 1997. Cordyceps: tonic food of ancient China. Seattle: Sylvan Press. 52 p.
 

Kang JC, Liang ZQ, Liu AY, Kong RYC. 2000. Molecular evidence of polymorphism in Cordyceps based on 5.8S rRNA and ITS2 sequences. Mycosystema 19:492–497.
Google Scholar
 

Kinjo N, Zang M. 2001. Morphological and phylogenetic studies on Cordyceps sinensis distributed in Southwestern China. Mycoscience 42:567–574.
Crossref Google Scholar
 

Kobayasi Y. 1941. The Genus Cordyceps and its allies. Sci Rep Tokyo Bunrika Daigaku B 84(5):53–260.
Google Scholar
 

Kobayasi Y. 1981. Revision of the Genus Cordyceps and its allies 2. Bull Nat Sci Mus Tokyo B 7:123–129.
Google Scholar
 
Koval EZ. 1974. Opredelitel Entomofilnych Gribov CCCP. Kiev: Naukova Dumka. 258 p.
 

Kurihara Y, Shirouzu T, Tokumasu S, Harayama S. 2009. Hirsutella proturicola sp. Nov. isolated from a proturan, Baculentulus densus (Protura, Hexapoda). Mycoscience. 50:56–62.
Crossref Google Scholar
 

Kuo HC, Su YL, Yang HL, Chen TY. 2005. Identification of Chinese medicinal fungus Cordyceps sinensis by PCR-single-stranded conformation polymorphism and phylogenetic relationship. J Agri Food Chem. 53:3963–3968.
Crossref Google Scholar
 
Li SP, Tsim KWK. 2004. The biological and pharmacological properties of Cordyceps sinensis, a traditional Chinese medicine that has broad clinical applications. In: Packer L, Ong CN, Halliwell B, editors. Herbal and traditional medicine: molecular aspects of health. New York: Marcel Dekker. p 657–684.
Crossref
 

Li SP, Yang FQ, Tsimb KWK. 2006. Quality control of Cordyceps sinensis, a valued traditional Chinese medicine. J Pharm Biomed Anal. 41:1571–1584.
Crossref Google Scholar
 

Li ZZ, Huang B, Fan MZ. 2000. Molecular evidence for anamorph determination of Cordyceps sinensis (Berk.). Sacc. Mycosystema 19:60–64.
Google Scholar
 

Liang HH, Cheng Z, Yang XL, Li S, Ding ZQ, Zhou TS, Zhang WJ, Chen JK. 2008. Genetic diversity and structure of Cordyceps sinensis populations from extensive geographical regions in China as revealed by inter-simple sequence repeat markers. J Microbiol. 46:549–556.
Crossref Google Scholar
 
Liang ZQ. 2007. Cordyceps. Flora fungorum sinicorum. Vol. 32. Beijing: Science Press. 190 p.
 

Liang ZQ, Liu AY, Liu ZY. 1995. The development of ascospores in Cordyceps sinensis. Acta Mycol Sin. 14:148–152.
Google Scholar
 

Lim JH, Kim BK. 1973. Taxonomic investigations on Korean higher fungi (II): two unrecorded species of the genus Cordyceps in Korea. Kor J Mycol. 1:13–16.
Google Scholar
 

Liu XJ, Guo YL, Yu YX, Zeng W. 1989. Isolation and identification of the anamorphic state of Cordyceps sinensis (Berk.). Sacc. Acta Mycol Sin 8:35–40.
Google Scholar
 

Liu ZY, Yao YJ, Liang ZQ, Liu AY, Pegler DN, Chase MW. 2001. Molecular evidence for the anamorph–teleomorph connection in Cordyceps sinensis. Mycol Res. 105:827–832.
Crossref Google Scholar
 

Liu ZY, Liang ZQ, Liu AY, Yao YJ, Hyde KD, Yu ZN. 2002. Molecular evidence for teleomorph-anamorph connections in Cordyceps based on ITS-5.8S rDNA sequences. Mycol Res. 106:1100–1108.
Crossref Google Scholar
 

Liu ZY, Liang ZQ, Liu AY. 2003a. Investigation on microcycle conidiation of ascospores and conidiogenous structures of anamorph of Cordyceps sinensis. Guizhou Agri Sci. 31:3–5.
Google Scholar
 

Liu ZY, Liang ZQ, Xin ZH. 2003b. Microscopic re-observation of Cordyceps sinensis and study of its ascosporal development. Guizhou Sci. 21:51–57,68.
Google Scholar
 

Liu F, Wu XL, Yin DH, Chen SJ, Zeng W. 2005. Overview in biological studies of host insects of Cordyceps siensis. Chongqing J Res Chin Drugs Herbs 1:45–52.
Google Scholar
 

Lloyd CG. 1918. Cordyceps sinensis, from N. Gist Gee, China. Mycol Notes 54:766–780.
Google Scholar
 

Lohwag H. 1923. Beobachtungen an Cordyceps sinensis (Berk.). Sacc. und verwandten Pilzen. Plant Syst Evol. 72:294–302.
Crossref Google Scholar
 

Maczey N, Dhendup K, Cannon P, Hywel-Jones N, Rai TB. 2010. Thitarodes namnai sp. nov. and T. Caligophilus sp. Nov. (Lepidoptera: Hepialidae), hosts of the economically important entomopathogenic fungus Ophiocordyceps sinensis in Bhutan. Zootaxa 2412:42–52.
Crossref Google Scholar
 

Massee G. 1895. A revision of the genus Cordyceps. Ann Bot. 9:1–44.
Crossref Google Scholar
 
McKenna DJ, Jones K, Hughes K. 2002. Botanical medicines: the desk reference for major herbal supplements. 2nd ed. New York: Haworth Herbal Press. 1138 p.
 

Otani Y. 1982. Cordyceps fungi collected in Nepal Himalayas. Tochukaso 2:9–12.
Google Scholar
 

Pegler DN, Yao YJ, Li Y. 1994. The Chinese ‘caterpillar fungus’. Mycologist 8:3–5.
Crossref Google Scholar
 
Pereira J. 1854. The elements of materia medica and therapeutics. 3rd Am ed. Vol. 2. Philadelphia: Blanchard and Lea. 1226 p.
 
Pratt AE. 1892. To the snows of Tibet through China. London: Longmans, Green, and Co. 268 p.
Crossref
 
Réaumur RAF de. 1726. Remarques sur la plante appelle’e a la Chine Hia Tsao Tom Tschom ou plante ver. Mem Acad Roy Sci Paris. 302–306.
 

Rehm H. 1904. Ascomycetes exsiccati. Fasc. 33. Ann Mycol. 2:516–517.
Google Scholar
 
Rennie J. 1835. The natural history of insects. Vol. 2. New York: Harper and Brothers. 308 p.
 
Robin C. 1853. Histoire naturelle des végétaux parasites qui croissent sur l’homme et sur les animaux vivants. Paris: Chez JB, Baillière. 702 p.
Crossref
 

Saccardo PA. 1878. Enumeratio pyrenomycetum hypocreaceorum hucusque congitorum systemate carpologico dispositorum. Michelia 1:277–325.
Google Scholar
 
Saccardo PA. 1883. Sylloge fungorum omnium hucusque cognitorum. Patavii. Vol. 2
Crossref
 
Saccardo PA. 1891. Sylloge fungorum omnium hucusque cognitorum. Supplementum Universale. Patavii. Vol. 9
 

Sharma S. 2004. Trade of Cordyceps sinensis from high altitudes of the Indian Himalaya: conservation and biotechnological priorities. Curr Sci. 86:1614–1619.
Google Scholar
 

Shrestha B, Sung JM. 2005. Notes on Cordyceps species collected from the central region of Nepal. Mycobiology. 33:235–239.
Crossref Google Scholar
 
Soubeiran JL, Thiersant D de. 1874. La matière médicale chez les Chinois. Paris: Libraire de l’académie de médecine de Paris. 319 p.
 

Stensrud Ø, Schumacher T, Shalchian-Tabrizi K, Svegården IB, Kauserud H. 2007. Accelerated nrDNA evolution and profound AT bias in the medicinal fungus Cordyceps sinensis. Mycol Res. 111:409–415.
Crossref Google Scholar
 
Stuart GA. 1911. Chinese materia medica. Shanghai: Presbyterian Mission Press. 558 p.
Crossref
 
Sung JM. 1996. The insects-born fungus of Korea in color. Seoul: Kyohak Publishing Co., Ltd. 315 p.
 

Sung GH, Hywel-Jones NL, Sung JM, Luangsa-ard JJ, Shrestha B, Spatafora JW. 2007. Phylogenetic classification of Cordyceps and the clavicipitaceous fungi. Stud Mycol. 57:5–63.
Crossref Google Scholar
 
Teng SC. 1939. A contribution to our knowledge of the higher fungi of China. National Institute of Zoology and Botany. Beijing: Academia Sinica. 614 p.
 
Thunberg CP. 1796. Travels in Europe, Africa, and Asia, performed between the years 1770 and 1779. 3rd ed. Vol. 3. London: F & C Rivington. 285 p.
 

Vassiljeva LN, Koval EZ. 1961. Botanicheskie Materialy Otd. Spor Rast Akad Nauk SSSR 14:164–169.
Google Scholar
 

Westwood WW. 1842. Proceedings of learned societies. Entomological Society, March 1st, 1841. Ann Mag Nat Hist. 8:217–222.
Google Scholar
 
Wilson EH. 1913. A naturalist in Western China with casculum, camera, and gun. Vol. 2. London: Methuen & Co. Ltd. 229 p.
 

Winkler D. 2008. Yartsa Gunbu (Cordyceps sinensis) and the fungal commodification of Tibet's rural economy. Econ Bot. 62:291–305.
Crossref Google Scholar
 

Xiao SR, Shi ZY, Chen QT. 1983. Studies on Cordyceps. Ⅰ. Habitat and morphology. Microbiology 10:5–6.
Google Scholar
 

Yang Y, Yang D, Shen F, Dong D. 1989. Studies on hepialid larvae for being infected by Chinese “insect herb” fungus (Cordyceps sinensis). Zool Res. 10:227–231.
Google Scholar
 

Zang M, Kinjo N. 1996. Type study on the Cordyceps sinensis. Acta Bot Yunn. 18:205–208.
Google Scholar
 

Zang M, Kinjo N. 1998. Notes on the Alpine Cordyceps of China and nearby nations. Mycotaxon 66:215–229.
Google Scholar
 

Zang M, Yang DR, Li CD. 1990. A new taxon in the genus Cordyceps from China. Mycotaxon 37:57–62.
Google Scholar
 

Zhang KY, Wang CJ, Yan MS. 1987. A preliminary study on Cordyceps gansuensis in China. China J Northwest Teach Coll. (Nat Sci.) 4:95–98.
Google Scholar
 

Zhang KY, Wang CJ, Yan MS. 1989. A new species of Cordyceps from Gansu, China. Trans Mycol Soc Jpn. 30:295–299.
Google Scholar
 

Zhang WM, Li TH, Chen YQ, Qu LH, Zhong H, Xu XP. 2002. Molecular study on anamorph of Cordyceps sinensis from Tibet. Microbiology 29:54–57.
Google Scholar
 

Zhang YJ, Xu LL, Zhang S, Liu XZ, An ZQ, Wang M, Guo YL. 2009. Genetic diversity of Ophiocordyceps sinensis, a medicinal fungus endemic to the Tibetan Plateau: implications for its evolution and conservation. BMC Evol Biol. 9:290
Crossref Google Scholar
 

Zhang YW, Chen YJ, Shen FR, Yang YX, Yang DR, Zhang YP. 1999. Study on genetic divergence in Cordyceps sinensis and C. crassispora from northwest of Yunnan by using RAPD. Mycosystema 18:176–183.
Google Scholar
 

Zhao J, Wang N, Chen YQ, Li TH, Qu LG. 1999. Molecular identification for the asexual stage of Cordyceps sinensis. Acta Sci Nat Univ Sunyatseni 38:121–123.
Google Scholar
 

Zhao ZX, Cui XL, Cong YG. 2006. Phylogenetic analysis based on 5.8S rDNA and ITS spacer of anamorph of Cordyceps sinensis from Tibet. J Yunnan Uni. 28:83–87.
Google Scholar
 

Zhu JS, Halpern GM, Jones K. 1998. The scientific rediscovery of an ancient Chinese herbal medicine: Cordyceps sinensis Part Ⅰ. J Alter Compl Med. 4:289–303.
Crossref Google Scholar
Mycology
Volume 1 Issue 4,
December 2010
Pages 228-236
DOI: 10.1080/21501203.2010.536791
Cite this article:
Shrestha B, Zhang W, Zhang Y, et al. What is the Chinese caterpillar fungus Ophiocordyceps sinensis (Ophiocordycipitaceae)?. Mycology, 2010, 1(4): 228-236. https://doi.org/10.1080/21501203.2010.536791

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Received: 20 October 2010
Accepted: 29 October 2010
Published: 10 December 2010
© 2010 Mycological Society of China
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