Optimasi Produksi Badan Buah Tiga Jenis Jamur Kayu dengan Inovasi Perlakuan pada Waktu Inkubasi dan Jumlah Penyobekan pada Baglog
Denny Irawati(1*), Naresvara Nircela P(2), Febe Margareta RM(3), J.P. Gentur Sutapa(4)
(1) Departemen Teknologi Hasil Hutan Fakultas Kehutanan Universitas Gadjah Mada
(2) Departemen Teknologi Hasil Hutan Fakultas Kehutanan Universitas Gadjah Mada
(3) Departemen Teknologi Hasil Hutan Fakultas Kehutanan Universitas Gadjah Mada
(4) Departemen Teknologi Hasil Hutan Fakultas Kehutanan Universitas Gadjah Mada
(*) Corresponding Author
Abstract
Di Indonesia permintaan jamur konsumsi, baik yang untuk obat maupun bahan makanan, terus meningkat. Akselerasi produksi perlu dilakukan untuk memenuhi kebutuhan pasar. Penelitian ini bertujuan untuk mengetahui pengaruh lama waktu inkubasi dan banyaknya jumlah penyobekan baglog terhadap produktivitas 3 jenis jamur konsumsi yang banyak dibudidayakan di Indonesia. Sampel baglog pada penelitian ini diperoleh dari petani jamur Sedyo Lestari, Bantul. Selanjutnya pada baglog tersebut diinokulasikan 3 jenis jamur yaitu Auricularia sp. (jamur kuping), Pleurotus sp. (jamur tiram), dan Ganoderma sp. (jamur lingzhi). Setelah inokulasi, media diinkubasi selama 30, 40, dan 50 hari, untuk selanjutnya dibudidayakan selama 60 hari. Pada akhir masa inkubasi dilakukan pengukuran kadar glukosamin dan penyobekan baglog pada 1 atau 2 ujung untuk memicu munculnya badan buah. Selama periode pembudidayaan, dilakukan pemanenan badan buah dan diukur produktivitas badan buah serta intensitas pemanenan. Hasil penelitian menunjukkan bahwa perlakuan lama waktu inkubasi dan jumlah sobekan pada baglog memberikan pengaruh yang berbeda terhadap setiap jenis jamur. Lama waktu inkubasi tidak berpengaruh nyata terhadap produktivitas badan buah dan nilai konversi biologi pada jamur tiram dan kuping, namun berpengaruh nyata terhadap jamur lingzhi. Lama waktu inkubasi terbaik untuk jamur lingzhi adalah 40 hari. Jumlah sobekan pada baglog tidak memberi pengaruh terhadap produktivitas jamur tiram dan kuping, akan tetapi berpengaruh terhadap produktivitas jamur lingzhi dan intensitas pemanenan jamur kuping.
Optimization of Fruiting Body Production of Three Kinds Edible Mushrooms Species by Innovate the Incubation Time and Number of Rips on Baglog
Abstract
In Indonesia the demand for edible mushroom, both for medicine and food, continues to increase. Production acceleration is needed to meet the market needs. This study aims to determine the effect of the incubation time and the number of rips on baglog to the productivity of 3 species of edible mushrooms that are widely cultivated in Indonesia. The baglog as sample in this study was obtained from Sedyo Lestari mushroom farmer in Bantul. The baglog was inoculated by 3 kinds of mushroom of Auricularia sp. (ear fungus), Pleurotus sp. (oyster mushroom), and Ganoderma sp. (lingzhi mushroom). After inoculation, the medium was incubated for 30, 40, and 50 days, for subsequent cultivation for 60 days. At the end of the incubation period, the glucosamine content was analysed and the baglog was teared at 1 or 2 ends to trigger the appearance of the fruiting body. During the cultivation period, the fruiting bodies were harvested and the productivity of the fruiting body and the harvesting intensity were measured. The results showed that the incubation time and the amount of rips on the baglog gave a different effect on each mushroom species. The duration of incubation time had no significant effect on fruiting body productivity and biological conversion on oyster and ear mushrooms.However, it had a significant effect on Lingzhi mushroom. The best time of incubation for Lingzhi mushroom was 40 days. The amount of rips on the baglog did not give effect to the productivity of oyster and ear mushrooms, but it affected the productivity of Lingzhi mushroom and the harvesting intensity of ear mushroom.
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Achmad. 2012. Jamur. Agriflo. Bogor.
Anonim 2017. Statistik Pertanian 2017. Pusat Data dan Sistem Informasi Pertanian Kementerian Pertanian Republik Indonesia. Jakarta.
Baker MC. 1969. Decay of wood. http://web.mit.edu/parmstr/Public/NRCan/CanBldgDigests/cbd111_e.html. Diakses Febuari 2018.
Banfi R, Pohner Z, Kovac J, Luzics S, Nagy A, Dudas M, Tanos P, Marialigeti K, Vajna B. 2015. Characterisation of the large-scale production process of oyster mushroom (Pleurotus ostreatus) with the analysis of succesion and spatial heterogeneity of lignocellulolytic enzyme activities. fungal biology. British Mycology Society 110: 1-10.
Bellettini MB, Fiorda FA,Maieves HA, Teixeira GL, Avila S, Hornung PS, Junior AM, Ri RH. 2016. Factors affecting mushroom Pleurotus spp. Saudi Journal of Biological Sciences. DOI:10.1016/j.sjbs.2016.12.005.
Braid GH, Line MA. 1981. A sensitive chitin assay for the estimation of fungal biomass in hardwoods. Holzforschung 35: 10-15.
Brisach CA, Armengol J. 2012. Effects of temperature, pH and water potential on mycelial growth, sporulation and chlamydospore production in culture of Cylindrocarpon spp. Associated with black foot of grapevines. Phytopathologia Mediterranea 51(1): 37−50
Chang ST, Miles PG. 2004. Mushrooms cultivation, nutrition value, medicinal effect, and environmental impact Second Edition. CRC Press. Washington.
Chang ST, Wasser SP. 2017. The cultivation and environmental impact of mushrooms. http://environmentalscience.oxfordre.com/view/10.1093/ a c r e f o re / 9 7 8 0 1993 8 9 4 1 4 . 0 0 1 . 0 0 0 1 / a c re fore-9780199389414-e-231. Diakses Januari 2018.
Chitamba J, Dube F, Chiota WM, Handiseni M. 2012. Evaluation of substrate productivity and market quality of oyster mushroom (Pleurotus ostreatus) grown on different substrate. A International Journal of Agricultural Research 7 (2): 100-106.
Fischer MWF, Money NP.2010. Why mushrooms form gills: Efficiency of The lamellate morphology. Fungal Biology 114(1): 57–63.
Gurung OK, Budathoki U, Parajuli G. 2012. Effect of different substrates on the production of Ganoderma lucidum (Curt.:Fr.) Karst. Our Nature 10: 191-198.
Hassan FRH, Medany GM. 2012. Studies on submerged culture conditions for mycelial biomass production of wood ears mushroom (Auricularia polytricha). Middle East Journal of Agriculture Research 1 (1): 33-39.
Irawati D, Hayashi C, Takashima Y, Wedatama S, Ishiguri F, Iizuka K, Yoshizawa N, Yokota S. 2012. Cultivation of the edible mushroom Auricularia polytricha using sawdust based substrate made of three Indonesian commercial plantation species, Falcataria moluccana, Shorea sp., and Tectona grandis. Micologia Aplicada International 24:33-41.
Koutrotsios G, Mountzouris KC, Chatzipavlidis I, Zervakis GI. 2014. Bioconversion of lignocellulosic residues by Agrocybe clyndracea and Pleurotus ostreatus mushroom fungi – Assessment of their effect on the final product and spent substrate properties. Food Chemistry 161:127-135.
Kumar A, Singh M, Singh G. 2013. Effect of different pretreatments on the quality of mushrooms during solar drying. Journal of Food Science and Technology 50(1):165–170.
Mandeel QA, Al-Laith AA, Mohamed SA. 2005. Cultivation of oyster mushrooms (Pleurotus spp.) on various lignocellulosic wastes.World Journal of Microbiology and Biotechnology 21: 601-607.
Mohamed MF, Refaei EFS, Abdalla MMA, Abdelgalil SH. 2016. Fruiting bodies yield of oyster mushroom (Pleurotus columbinus) as affected by different portions of compost in the substrate. International Journal Recycling Organic Waste in Agriculture 5:281–288.
Obadi M, Cleland-Okine J, Vowotor KA. 2003. Comparative study on the growth and yield of Pleurotus ostreatus mushroom on different lignocellulosic by-products. Journal of Industrial Microbiology and Biotechnology 30: 146-149.
Oei P, Nieuwenhuijzen BV. 2005. Small-scale mushroom cultivation: Oyster, shiitake and wood ear mushrooms. Agromisa Foundation and CTA, Wageningen.
Ohga S. 2000. Influence of wood species on the sawdust-based cultivation of Pleurotus abalonus and Pleurotus eryngii. Journal of Wood Science 46: 175-179.
Parjimo H, Andoko A. 2007. Budidaya jamur (Jamur kuping, jamur tiram, dan jamur merang). Agro Media Pustaka, Jakarta.
Siwulski M, Sobieralski K, Mańkowski J. 2010. Comparison of mycelium growth of selected species of cultivated mushrooms on textile industry wastes. Acta Scientiarum Polonorum Hortorum Cultus 9 (3):37-43
World M. 2004. Mushroom growers handbook 1 : Oyster mushroom cultivation. Aloha Medical Inc. Hawaii.
DOI: https://doi.org/10.22146/jik.46209
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