Abstrak

Jamur merupakan fungi dengan bentuk makroskopik yang terdistribusi pada berbagai relung ekologi. Pemanfaatan jamur sebagai bahan pangan dan medis telah dilakukan sejak lama di seluruh dunia, termasuk Indonesia. Namun, karena secara morfologi tubuh buah jamur sering kali terlihat identik antara satu dengan lainnya, keracunan jamur menjadi resiko yang sering muncul. Hingga saat ini catatan keragaman, potensi pemanfaatan, dan informasi mengenai keracunan jamur liar di Indonesia masih sangat minim. Ulasan ini bertujuan untuk memberikan informasi beberapa jamur liar beracun (hasil penelitian penulis, diskusi dengan penggiat jamur, dan studi literatur) yang dilengkapi dengan deskripsi jamur sebagai media diseminasi ilmu mikologi. Sebanyak 11 kelompok jamur diuraikan pada tulisan ini yaitu Amanita spp., Chlorophyllum molybdites, Clarkeindat trachodes, Cantharocybe cf. virosa, dan Coprinus spp. Pada fase tua, Gymnopilus sp., Inocybe sp., Lepiota sp., Panaeolus sp., Podostroma cornu-damae, dan Scleroderma spp.Beberapa jamur tersebut telah dilaporkan menyebabkan keracunan hingga kematian di Indonesia. Sebagian besar kasus keracunan terjadi akibat kesalahan identifikasi beracun sebagai jamur edible. Namun, beberapa  genus jamur yang dilaporkan juga memiliki spesies yang bisa dikonsumsi pada jenis yang tepat atau umur tubuh buah. Identifikasi yang baik dan pengalaman saat merambah jamur liar merupakan salah satu cara untuk membedakan jamur liar beracun dan konsumsi.

Abstract

Mushrooms are macroscopic forms of fungi that are distributed in various ecological niches. The utilization of mushrooms as food and medical ingredients has been done for a long time all over the world, including Indonesia. However, because morphologically the fruiting bodies of mushrooms often look identical to each other, mushroom poisoning is a risk that often arises. Until now, records of diversity, potential utilization, and information on wild mushroom poisoning in Indonesia are still minimal. This review aims to provide information on several poisonous wild mushrooms (the results of the author's research, discussions with mushroom activists, and literature studies) equipped with mushroom descriptions as a medium for disseminating mycological science. A total of 11 groups of fungi are described in this paper, namely Amanita spp., Chlorophyllum molybdites, Clarkeindat trachodes, Cantharocybe cf. virosa, and Coprinus spp. in the old phase, Gymnopilus sp., Inocybe sp., Lepiota sp., Panaeolus sp., Podostroma cornu-damae, and Scleroderma spp. Some of these fungi have been reported to cause poisoning and death in Indonesia. Most of the poisoning cases occurred due to misidentification of the poisonous mushrooms as edible mushrooms. However, some of the reported fungal genus mushrooms also have species that can be consumed at the right type or age of the fruiting body. Good identification and experience when foraging for wild mushrooms is one way to differentiate between poisonous and edible wild mushrooms.

Al-Ulya, A. N., Leksono, S. M., & Khastini, R. O. (2017). Biodiversitas dan potensi jamur Basidomycota di kawasan kasepuhan Cisungsang, Kabupaten Lebak, Banten. Al-Kauniyah: Jurnal Biologi, 10(1), 9-16.

Bijeesh, C., Vrinda, B., & Pradeep, C. (2017). Mushroom poisoning by Chlorophyllum molybdites in Kerala. Journal of Mycopathological Research, 54(4), 477-483.

Boa, E. (2004). Wild edible fungi: A global overview of their use and importance to people. Rome: Food and Agriculture Organization of The United Nations.

Boedjin, K. B. (1951). Notes on Indonesian fungi. Sydowia, 15(2), 317-327.

Carmine, M., & Contu. (2002). Clarkeinda trachodes, one new species for the micoflora Italian recovered in Calabria. Bulletin of group micologico New G. bresadola Series, 45(1), 33-39.

Choe, S., In, S., Jeon, Y., Choi, H., & Kim, S. (2018). Identification of trichothecene-type mycotoxins in toxic mushroom Podostroma cornu-damae and biological specimens from a fatal case by LC–QTOF/MS. Forensic Science International, 291, 234-244.

Ge, Z. -W., Jacobs, A., Vellinga, E. C., Sysouphanthong, P., van der Walt, R., Lavorato, C., … Yang, Z. L. (2018). A multi-gene phylogeny of Chlorophyllum (Agaricaceae, Basidiomycota): New species, new combination and infrageneric classification. MycoKeys, 32, 65-90. doi: 10.3897/mycokeys.32.23831.

Graeme, K. A. (2014). Mycetism: A review of the recent literature. Journal of Medical Toxicology, 10(2), 173-189.

Hayati, N. (2013). Karakterisasi morfologi dan anatomi Jamur ektomikorhiza Scleroderma spp. pada tanaman melinjo (Gnetum Gnemon L.) di Kabupaten Pacitan. Bioma, 2(1),32-48.

Hosen, I., & Ge, Z.W. (2011). Clarkeinda trachodes (Agaricales, Basidiomycetes), first record from Bangladesh. Mycotaxon, 118(1), 331-336.

Jo, W. -S., Hossain, Md. A., & Park, S.-C. (2014). Toxicological profiles of poisonous, edible, and medicinal mushrooms. Mycobiology, 42(3), 215-220. doi: 10.5941/myco.2014.42.3.215.

Karun, N. C., & Sridhar, K. R. (2017). Edible wild mushrooms of the Western Ghats: Data on the ethnic knowledge. Data in Brief, 14, 320-328.

Kim, H. N., Do, H. H., Seo, J. S., & Kim, H. Y. (2016). Two cases of incidental Podostroma cornu-damae poisoning. Clinical and Experimental Emergency Medicine, 3(3),186-189.

Kosentka, P., Sprague, S. L., Ryberg, M., Gartz, J., May, A. L., Campagna, S. R., & Matheny, P. B. (2013) Evolution of the toxins muscarine and psilocybin in a family of mushroom-forming fungi. PLoS ONE, 8(5), e64646.

Kose, M., Yilmaz, I., Akata, I., Kaya, E., & Guler, K. (2015). A case study: Rare Lepiota brunneoincarnata poisoning. Wilderness & Environmental Medicine, 26(3), 350-354.

Kumla, J., Suwannarach, N., Bussaban, B., & Lumyong, S. (2013). Scleroderma suthepense, a new ectomycorrhizal fungus from Thailand. Mycotaxon, 123(1),1-7.

Læssøe, T., Ole, P., & Sysouphanthong, P. (2019). Introduction to the edible, poisonous and medicinal fungi of Northern Laos. Laos : Agro-Biodiversity Project.

Latha, S. S., Naveen, S., Pradeep, C. K., Sivaraj, C., Dinesh, M. G., & Anilakumar, K. R. (2018). Toxicity assessment of wild mushrooms from the Western Ghats, India: An in vitro and sub-acute in vivo study. Frontiers in Pharmacology, 9. doi: 10.3389/fphar.2018.00090.

Lehmann, P. F., & Khazan, U. (1992). Mushroom poisoning by Chlorophyllum molybdites in the Midwest United States. Mycopathologia, 118(1), 3-13. doi: 10.1007/bf00472564.

Lee, I-K., Cho, S-M., Seok, S-J., & Yun, B-S. (2008). Chemical constituents of Gymnopilus spectabilis and their antioxidant activity. Mycobiology, 36(1),55-59.

Lee, S. R., Seok, S., Ryoo, R., Choi, S. U., & Kim, K. H. (2018). Macrocyclic trichothecene mycotoxins from a deadly poisonous mushroom, Podostroma cornu-damae. Journal of Natural Products, 82(1),122-128.

Lima, A. D., Fortes. R. C., Carvalho, G., Novaes, M. R., & Percário, S. (2012). Poisonous mushrooms: A review of the most common intoxications. Nutricion Hospitalaria, 27(2),402-408.

Lembaga Ilmu Pengetahuan Indonesia (LIPI). (2019). Status keanekaragaman hayati Indonesia: Kekayaan jenis tumbuhan dan jamur Indonesia. Jakarta: LIPI Press.

Matheny, P. B. (2009). A phylogenetic classification of the Inocybaceae. McIlvainea, 18, 11-21.

Park, J., Min, J., Kim, H., Lee, S., Kang, J., & An, J. (2016). Four cases of successful treatment after Podostroma Cornu-Damae Intoxication. Hong Kong Journal of Emergency Medicine, 23(1), 55-59.

Parnmen, S., Sikaphan, S., Leudang, S., Boonpratuang, T., Rangsiruji, A., & Naksuwankul, K. (2016). Molecular identification of poisonous mushrooms using nuclear ITS region and peptide toxins: A retrospective study on fatal cases in Thailand. The Journal of Toxicological Sciences, 41(1), 65-76. doi: 10.2131/jts.41.65.

Pegler, D. N. (1985). The genus Clarkeinda (Basidiomycotina: Agaricaceae). Botanical Journal of the Linnean Society, 91(1-2), 245-252.

Permatananda, P. A. N. K., Pandit, I. G. S., Citra, U. D., & Suranaya, P. I. (2021). Pemberdayaan kelompok toga paras usadha Desa Bukian dalam pemanfaatan bahan alam untuk kesehatan. COMSERVA : Indonesian Jurnal of Community Services and Development, 1(5), 187-194.

Permatananda, P. A. N. K (2022). Gambaran penggunaan herbal oleh masyarakat pedesaan Bali. Syntax Literate: Jurnal Ilmiah Indonesia, 7(3), 2165-2175.

Putra, I. P., & Hafazallah, K. (2020). Catatan komunitas pemburu jamur Indonesia : Kolaborasi lintas profesi dan generasi mengenai etnomikologi jamur-jamur Indonesia. Sukabumi: Haura.

Putra, I. P. (2020). The potency of some wild edible mushrooms with economic value in Belitong Island, The Province of Bangka Belitung. Jurnal Wasian, 307(2),121-135.

Putra, I. P. (2022). Kasus-kasus keracunan jamur liar di Indonesia. Jurnal Ekologi Kesehatan, 20(3), 215-230.

Rokuya, I., Yoshio, O., & Tsugia, H. (2011). Fungi of Japan. Japan: Yama-Kei Publishers.

Sato, Y., Tomonari, H., Kaneko, Y., & Yo, K. (2019). Mushroom poisoning with Scleroderma albidum : A case report with review of the literature. Acute Medicine & Surgery, 7(1).

Susan, D., & Retnowati, A. (2017). Catatan beberapa jamur makro dari Pulau Enggano: Diversitas dan potensinya. Berita Biologi, 16(3), 243-256.

Varvenne, D., Retornaz, K., Metge, P., De Haro, L., & Minodier, P. (2015). Amatoxin-containing mushroom (Lepiota brunneoincarnata) familial poisoning. Pediatric Emergency Care, 31(4),277-8.

Vellinga, E. C.(2004). Ecology and distribution of lepiotaceous fungi (Agaricaceae) a review. Nova Hedwigia, 78(3-4), 273-99.

White, J., Weinstein, S. A., De Haro, L., Bédry, R., Schaper, A., Rumack, B. H., & Zilker, T. (2019). Mushroom poisoning: A proposed new clinical classification. Toxicon, 157, 53-65. doi: 10.1016/j.toxicon.2018.11.007.

Yilmaz, I., Ermis, F., Akata, I., & Kaya, E. (2015). A case study: What doses of Amanita phalloides and amatoxins are lethal to humans? Wilderness & Environmental Medicine, 26(4), 491-496. doi: 10.1016/j.wem.2015.08.002.