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International Journal of Medicinal Mushrooms

Published 12 issues per year

ISSN Print: 1521-9437

ISSN Online: 1940-4344

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The Domestication and Cultivation of Ganoderma (Agaricomycetes) Medicinal Mushroom Species from Nigeria

Volume 24, Issue 6, 2022, pp. 69-78
DOI: 10.1615/IntJMedMushrooms.2022043906
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ABSTRACT

Commercial cultivation of Ganoderma species found in Nigeria does not exist. Four Ganoderma isolates (YCT-BKS, YCT-Q2, YCT-Q14, and YCT-Q18) collected in Lagos were tested for mycelia growth and cultivation in sawdust-based substrates. Internal transcribed spacer sequences (ITS1 and ITS4) from three isolates upon a GenBank BLAST search gave DNA sequence closest identities as YCT-BKS and YCT-Q14 = G. mbrekobenum and YCT-Q2 = G. enigmaticum. The mycelia growth rate was highest in YCT-BKS (1.2 cm/day), whereas the other three isolates averaged 0.7 cm/day. On substrate A (sawdust/water hyacinth, 7:3), the time to form primordia was 30 days for YCT-BKS, YCT-Q18, and YCT-Q14. YCT-Q2 and YCT-Q18 formed primordia (27 days) on substrate B (sawdust/sorghum, 3:2). YCT-BKS was the first to produce basidiocarp on substrate A (75 days after inoculation) and had the highest biological efficiency (BE) of 13.4%, followed by YCT-Q18 with BE of 12.1% on substrate B after 99 days. YCT-Q14 produced fruiting bodies after 92 days on substrate A, with a low BE of 7.0%. Results indicate the need to supplement sawdust (substrate C = 100% sawdust) to cultivate the Ganoderma spp. A mixture of sawdust and water hyacinth appears to be the best substrate among those tested. This is the first report on the domestication and cultivation of indigenous isolates of Ganoderma spp. from Nigeria on sawdust and water hyacinth. Water hyacinth is a noxious weed causing major problems in fresh waterways in Nigeria.

REFERENCES
  1. Chang ST. Ganoderma lucidum-a leader of edible and medicinal mushrooms. Int Agric Trade. 2004;90:22-4.

  2. Zion Market Research. Mushroom market to witness fabulous growth, with a CAGR of 9.2%. 2018 [cited 2021 Jan 12]. Available from: http://www.zionmarketresearch.com/report/mushroom-market.

  3. Huang P, Ohga S. Utilization of ceramic beads for edible mushrooms cultivation. Adv Microbiol. 2017;7:853-62.

  4. Zion Market Research. Global mushroom market is expected to reach USD 59.48 billion in 2021. 2017 [cited 2012 Jan 1]. Available from: https://www.zionmarketresearch.com/report/mushroom-market.

  5. Hapuarachchi KK, Karunarathna SC, McKenzie EHC, Wu XL, Kakumyan P, Hyde KD, Wen TC. High phenotypic plasticity of Ganoderma sinense (Ganodermataceae, Polyporales) in China. Asian J Mycol. 2019;2:1-47.

  6. Cao Y, Yuan HS. Ganoderma mutabile sp. nov. from southwestern China based on morphological and molecular data. Mycol Prog. 2013;12:121-6.

  7. Hapuarachchi KK, Elkhateeb WA, Karunarathna SC, Cheng CR, Bandara AR, Kakumyan P, Hyde KD, Daba GM, Wen TC. Current status of global Ganoderma cultivation, products, industry and market. Mycosphere. 2018;9:1025-52.

  8. De Silva DD, Rapior S, Sudarman E, Stadler M, Xu J, Alias SA, Hyde KD. Bioactive metabolites from macrofungi: Ethnopharmacology, biological activities and chemistry. Fungal Divers. 2013;62:1-40.

  9. Lai T, Gao Y, Zhou S. Global marketing of medicinal ling zhi mushroom Ganoderma lucidum (W.Curt.: Fr.) Lloyd (Aphyllophoromycetidae) products and safety concerns. Int J Med Mushrooms. 2004;6(2):189-94.

  10. Wu GS, Guo JJ, Bao JL, Li XW. Anti-cancer properties of triterpenoids isolated from Ganoderma lucidum - a review. Expert Opin Invest Drugs. 2013;22:981-92.

  11. Dong C, Han Q. Ganoderma lucidum (Lingzhi, Ganoderma): Fungi, algae, and other materials. In: Liu Y, Wang Z, Zhang J, editors. Dietary Chinese herbs chemistry: Pharmacology and clinical evidence. London, UK: Springer; 2015. p. 759-65.

  12. Shahtahmasebi SH, Pourianfar HR, Mahdizadeh V, Shahzadeh Fazeli SA, Amoozegar MA, Nasr SH, Zabihi SS, Rezaeian SH, Malekzadeh KH, Janpoor J. A preliminary study on domestication of wild-growing medicinal mushrooms collected from Northern Iran. Curr Res Environ Appl Mycol. 2018;8:606-23.

  13. Uzoebo CP, Azeez AA, Akeredolu OA, Adetunji AS, Bolaji OO, Abdulkadir AK. History of mushroom hunting and identification in Nigeria. J Med Plants Stud. 2019;7:89-91.

  14. Semwal KC, Stephenson SL, Bhatt VK, Bhatt RP. Edible mushrooms of the Northwestern Himalaya, India: A study of indigenous knowledge, distribution and diversity. Mycosphere. 2014;5:440-61.

  15. Adedokun OM, Okomadu CA. Wild and domesticated mushroom consumption in Nigeria. Afr Crop Sci J. 2017;25:123-31.

  16. Osemwegie OO, Isikhuemhen SO, Onyolu OJ, Okhuoya JA. Cultivation of selected sporophore-only producing strain of the edible and medicinal mushrooms; Pleurotus tuber-regium (Fr.) Singer (Agaricomycetidae) on waste papers and plantain peelings. Int J Med Mushrooms. 2002;4(4):343-8.

  17. Alemawor F, Dzogbefia VPE, Oddoye OK, Oldham JH. Effect of Pleurotus ostreatus fermentation on cocoa pod husk composition: Influence of fermentation period and Mn2+ supplementation on the fermentation process. Afr J Biotechnol. 2009;8:1950-8.

  18. Marshall E, Nair NG. Make money by growing mushrooms. FAO Diversification Booklet Number 7. Rome, Italy: Food and Agriculture Organization of the United Nations; 2009.

  19. Upton R. Reishi mushroom: Ganoderma lucidum: Standards of analysis, quality control, and therapeutics. American Herbal Pharmacopeia and Therapeutic Compendium. Scotts Valley, CA: American Herbal Pharmacopeia; 2006. p. 25.

  20. Hennicke F, Cheikh-Ali Z, Liebisch T, Macia-Vicente JG, Piepenbring M. Distinguishing commercially grown Ganoderma lucidum from Ganoderma lingzhi from Europe and East Asia on the basis of morphology, molecular phylogeny, and triterpenic acid profiles. Phytochemistry. 2016;127:29-37.

  21. Moncalvo JM, Wang HF, Hseu RS. Gene phylogeny of the Ganoderma lucidum complex based on ribosomal DNA sequences. Comparison with traditional taxonomic characters. Mycol Res. 1995;99:1489-99.

  22. Zhou LW, Cao Y, Wu SH, Vlasak J, Li DW, Li MJ, Dai YC. Global diversity of the Ganoderma lucidum complex (Ganodermataceae, Polyporales) inferred from morphology and multilocus phylogeny. Phytochemistry. 2015;114:7-15.

  23. Loyd AL, Barnes CW, Held BW, Schink MJ, Smith ME, Smith JA, Blanchette RA. Elucidating "lucidum": Distinguishing the diverse laccate Ganoderma species of the United States. PLoS One. 2018;13:e0199738.

  24. Cabarroi-Hernandez M, Villalobos-Arambula AR, Torres-Torres MG, Decock C, Guzman-Davalos L. The Ganoderma weberianum-resinaceum lineage: Multilocus phylogenetic analysis and morphology confirm G. mexicanum and G. parvulum in the Neotropics. MycoKeys. 2019;59:95-131.

  25. Kinge TR, Mih AM, Coetzee MPA. Phylogenetic relationships among species of Ganoderma (Ganodermataceae, Basidiomycota) from Cameroon. Aust J Bot. 2012;60:526-38.

  26. Kinge TR, Mih AM. Diversity and distribution of species of Ganoderma in south western Cameroon. J Yeast Fungal Res. 2015;6:17-24.

  27. Coetzee MPA, Marincowitz S, Muthelo VG, Wingfield MJ. Ganoderma species, including new taxa associated with root rot of the iconic Jacaranda mimosifolia in Pretoria, South Africa. IMA Fungus 2015;6:249-56.

  28. Crous PW, Wingfield MJ, Richardson DM, Le Roux JJ, Strasberg D, Edwards J, Roets F, Hubka V, Taylor PWJ, Heykoop M, Martin MP, Moreno G, Sutton DA, Wiederhold NP, Barnes CW, Carlavilla JR, Gene J, Giraldo A, Guarnaccia V, Guarro J, Hernandez-Restrepo M, Kolaiik M, Manjon JL, Pascoe IG, Popov ES, Sandoval-Denis M, Woudenberg JHC, Acharya K, Alexandrova AV, Alvarado P, Barbosa RN, Baseia IG, Blanchette RA, Boekhout T, Burgess TI, Cano-Lira JF, Cmokova A, Dimitrov RA, Yu Dyakov M, Duenas M, Dutta AK, Esteve-Raventos F, Fedosova AG, Fournier J, Gamboa P, Gouliamova DE, Grebenc T, Groenewald M, Hanse B, Hardy GE St J, Held BW, Juijevic Z, Kaewgrajang T, Latha KPD, Lombard L, Luangsaard JJ, Lyskova P, Mallatova N, Manimohan P, Miller AN, Mirabolfathy M, Morozova OV, Obodai M, Oliveira NT, Ordonez ME, Otto EC, Paloi P, Peterson SW, Phosri C, Roux J, Salazar WA, Sanchez A, Sarria GA, Shin H-D, Silva BDB, Silva GA, Smith MT, Souza-Motta CM, Stchigel AM, Stoilova-Disheva MM, Sulzbacher MA, Telleria MT, Toapanta C, Traba JM, Valenzuela-Lopez N, Watling R, Groenewald JZ. Fungal planet description sheets: 400-468. Persoonia. 2016;36:316-458.

  29. Tchoumi T, Coetzee MPA, Rajchenberg M, Wingfield MJ, Roux J. Three Ganoderma species, including Ganoderma dunense sp. nov., associated with dying Acacia cyclops trees in South Africa. Australas Plant Pathol. 2018;47:431-47.

  30. Ofodile LN, Uma NU, Kokubum T, Grayer ORJ, Ogundipe OT, Simmonds MSJ. Antimicrobial activity of some Ganoderma species from Nigeria. Phytother Res. 2005;19:310-3.

  31. Ofodile LN, Bikomo EO. Antibacterial activity of Ganoderma lucidum from Nigeria. Hamdard Med. 2008;51:1-5.

  32. Shikongo LT, Chimwamurombe PM, Lotfy HR, Kandawa-Schulz M. Antimicrobial screening of crude extracts from the indigenous Ganoderma lucidum mushrooms in Namibia. Afr J Microbiol Res. 2013;7:4812-6.

  33. Reid T, Kashangura C, Chidewe C, Benhura MA, Stray-Pedersen T, Mduluza B. Characterization of anti-Salmonella typhi compounds from medicinal mushroom extracts from Zimbabwe. Int J Med Mushrooms. 2019;21:713-24.

  34. Lee SB, Taylor JW. Isolation of DNA from fungal mycelia and single spores. In: Innis MA, Gelfand DH, Srinsky JJ, White TJ, editors. PCR protocols: A guide to methods and applications. New York, NY: Academic Press; 1990. p. 282-7.

  35. Isikhuemhen OS, Nerud F, Moncalvo J-M, Vilgalys R. Mating compatibility and phylogeography in Pleurotus tuberregium. Mycol Res. 2000;104:732-7.

  36. Jo W-S, Cho Y-J, Cho D-H, Park S-D, Yoo Y-B, Seok S-J. Culture conditions for the mycelial growth of Ganoderma applanatum. Mycobiology. 2009;37:94-102.

  37. Cortina-Escribano M, Veteli P, Linnakoski R, Miina J, Vanhanen H. Effect of wood residues on the growth of Ganoderma lucidum. Karstenia. 2020;58:6-28.

  38. Bijalwan A, Bahuguna K, Vasishth A, Singh A, Chaudhary S, Tyagi A, Thakur M, Thakur TK, Dobriyal M Jr, Kaushal R, Singh A, Maithani N, Kumar D, Kothari G, Chourasia P K. Insights of medicinal mushroom (Ganoderma lucidum): Prospects and potential in India. Biodivers Int J. 2020;4(5):202-9.

  39. Karsten PA. Enumeratio boletinearum et polyporearum fennicarum, systemate novo dispositarum. Revue mycologique. Toulouse. 1881;3:16-9 (in Latin).

  40. Sekan AS, Myronycheva OS, Karlsson O, Gryganskyi AP, Blume Y. Green potential of Pleurotus spp. in biotechnology. Peer J. 2019;7:e6664.

  41. Yang W, Guo F, Wan Z. Yield and size of oyster mushroom grown on rice/wheat straw basal substrate supplemented with cotton seed hull. Saudi J Biol Sci. 2013;20:333-8.

  42. Anele UY, Anike FN, Davis-Mitchell A, Isikhuemhen OS. Solid-state fermentation with Pleurotus ostreatus improves the nutritive value of corn stover-kudzu biomass. Folia Microbiol. 2021;66(1):41-8.

  43. Anike FN, Isikhuemhen OS, Yusuf M. Co-substrating of peanut shells and cornstalks enhances biodegradation by Pleurotus ostreatus. J Bioremediat Biodegrad. 2016;7:1-7.

  44. Tan W-C, Kuppusamy UR, Phan C-W, Tan Y-S, Raman J, Anuar AM, Sabaratnam V. Ganoderma neo-japonicum Imazeki revisited: Domestication study and antioxidant properties of its basidiocarps and mycelia. Sci Rep. 2015;5:12515.

  45. Luangharn T, Karunarathna SC, Khan S, Xu JC, Mortimer PE, Hyde KD. Antibacterial activity, optimal culture conditions and cultivation of the medicinal Ganoderma australe, new to Thailand. Mycosphere. 2017;8:1108-23.

  46. Gurung OK, Budathoki U, Parajuli G. Effect of different substrates on the production of Ganoderma lucidum (Curt.: Fr.) Karst. Our Nature. 2012;10:191-8.

  47. El-Fallal AA, El-Sayed A, El-Esseily SR. First record of two Ganoderma species from North East Nile Delta-Egypt. Mycosphere. 2015;6:248-59.

  48. Magday JC Jr, Bungihan ME, Dulay RMR. Optimization of mycelial growth and cultivation of fruiting body of Philippine wild strain of Ganoderma lucidum. Curr Res Environ Appl Mycol. 2014;4:162-72.

  49. Erkel EI. Yield performance of Ganoderma lucidum (Fr.) Karst. cultivation on substrates containing different protein and carbohydrate sources. African J Agric Res. 2009;4(11):13313.

  50. Oyeyemi AC, Osubor CC. Assessment of nutritional quality of water hyacinth leaf protein concentrate. Egypt J Aquat Res. 2016;42:269-72.

  51. Mustafa NO, Sajid SS, Al-Saeedi VS, Idham AA, Al-Assaffii JR. Growth performance and cultivation of four oyster mushroom species on sawdust and rice bran substrates. J Adv Biotechnol. 2015;4:424-9.

  52. Bernabe-Gonzalez T, Cayetano-Catarino M, Bernabe-Villanueva G, Romero-Flores A, Angel-Rios MD, Perez-Salgado J. Cultivation of Ganoderma lucidum on agricultural by-products in Mexico. Micol Aplicada Int. 2015;27:25-30.

  53. Jeewanthi LAMN, Ratnayake K, Rajapakse P. Growth and yield of reishi mushroom Ganoderma lucidum (Curtis) P. Karst. in different sawdust substrates. J Sci Food Agric. 2017;10:8-16.

  54. Veena SS, Pandey M. Effect of spawn substrate and spawn rate on cultivation of Ganoderma lucidum. J Mycol Plant Pathol. 2010;40:158-61.

  55. Ninluam N, Potiprasert W, Romreun U, Bangyeekhun E. Cultivation of lingzhi mushroom, Ganoderma lucidum, by using sugarcane bagasse veridian. Sci Technol Silpakorn Univ. 2016;3:390-7.

  56. Roy S, Jahan MAA, Das KK, Munshi SK, Noor R. Artificial cultivation of Ganoderma lucidum (reishi medicinal mushroom) using different sawdust as substrates. Am J BioSci. 2015;3:178-82.

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