Indonesia produces a large amount of oil palm empty fruit bunch (EFB) that has potency used as media for mushroom cultivation. The research emphasized the use of EFB to grow oyster mushrooms as an alternative for delignification without chemicals. This research aimed to study the growth of oyster mushroom (Pleurotus ostreatus) at EFB based growing media treatments. The media consisted of a mixture of EFB and sawdust at the composition of 0%, 25%, 50%, 75%, and 100%. The media were also supplemented with rice bran, CaCO3, and TSP fertilizer. The data were collected on the mycelium growth and the mushroom weight. During cultivation in baglog, there was no difference in mycelium growth rate. The EFB composition of 25% showed faster growth among the other compositions, followed by the EFB composition of 50%, 75%, and 0%. The highest Biological Efficiency Ratio (BER) at 56.25% was obtained at media composition of 50%. The EFB contained in baglog also showed biodelignification process. Biodelignification has the benefit which can reduce the use of chemicals in the delignification process to convert EFB into cellulose. The highest lignin reduction (40.12%) occurred in 75% of EFB media composition, while hemicellulose (49.56%) occurred in 100% EFB media composition.

Ali, N., Mohd Tabi, A. N., Ahmad Zakil, F., Mohd Fauzai, W. N. F., & Hassan, O. (2013). Yield Performance and Biological Efficiency of Empty Fruit Bunch (EFB) and Palm Pressed Fibre (PPF) as Substrates for the Cultivation of Pleurotus Ostreatus. Jurnal Teknologi, 64(1), 93–99. DOI

Arfiana, Finalis, E. R., Fausiah, Noor, I., Destian, E. F., Nuswantoro, D. B., ... & Noda, R. (2019, April). Utilization of empty fruit bunch (EFB) char in the production of NPK slow release fertilizer (SRF). In AIP Conference Proceedings (Vol. 2097, No. 1, p. 030051). AIP Publishing LLC. DOI

Bhattacharjya, D. K., Paul, R. K., Miah, M. N., & Ahmed, K. U. (2014). Effect of Different Saw Dust Substrates on the Growth and Yield of Oyster Mushroom (Pleurotus ostreatus). IOSR Journal of Agriculture and Veterinary Science, 7(2), 38–46. DOI

Bisaria, R., Madan, M., & Bisaria, V. S. (1987). Biological efficiency and nutritive value of Pleurotus sajor-caju cultivated on different agro-wastes. Biological Wastes, 19(4), 239–255. DOI

Chanakya, H. N., Malayil, S., & Vijayalakshmi, C. (2015). Cultivation of Pleurotus spp. on a combination of anaerobically digested plant material and various agro-residues. Energy for Sustainable Development, 27(August, 2015), 84–92. DOI

Chang, S. T., Lau, O. W., & Cho, K. Y. (1981). The cultivation and nutritional value of Pleurotus sajor-caju. European Journal of Applied Microbiology and Biotechnology, 12(1), 58–62. DOI

Chirinang, P., & Intarapichet, K.-O. (2009). Amino acids and antioxidant properties of the oyster mushrooms, Pleurotus ostreatus and Pleurotus sajor-caju. ScienceAsia, 35(4), 326–331. DOI

Corral-Bobadilla, M., González-Marcos, A., Vergara-González, E., & Alba-Elías, F. (2019). Bioremediation of Waste Water to Remove Heavy Metals Using the Spent Mushroom Substrate of Agaricus bisporus. Water, 11(3), 454. DOI

El Enshasy, H. A., & Hatti-Kaul, R. (2013). Mushroom immunomodulators: unique molecules with unlimited applications. Trends in Biotechnology, 31(12), 668–677. DOI

Fatah, I. Y. A., Khalil, H. P. S., Hossain, M., Aziz, A. A., Davoudpour, Y., Dungani, R., & Bhat, A. (2014). Exploration of a chemo-mechanical technique for the isolation of nanofibrillated cellulosic fiber from oil palm empty fruit bunch as a reinforcing agent in composites materials. Polymers, 6(10), 2611-2624. DOI

Hambali, E., & Rivai, M. (2017). The Potential of Palm Oil Waste Biomass in Indonesia in 2020 and 2030. IOP Conference Series: Earth and Environmental Science, 65, 012050. DOI

Islam, M. S., Kasim, S., Alam, K. M., Amin, A. M., Geok Hun, T., & Haque, M. A. (2021). Changes in Chemical Properties of Banana Pseudostem, Mushroom Media Waste, and Chicken Manure through the Co-Composting Process. Sustainability, 13(15), 8458. DOI

Isroi, Cifriadi, A., Panji, T., Wibowo, N. A., & Syamsu, K. (2017). Bioplastic production from cellulose of oil palm empty fruit bunch. IOP Conference Series: Earth and Environmental Science, 65, 012011. DOI

Jwanny, E. ., Rashad, M. ., & Abdu, H. . (1995). Solid-state fermentation of agricultural wastes into food through pleurotus cultivation. Applied Biochemistry and Biotechnology, 50(1), 71–78. DOI

Karimawati, N., & Suparti. (2016). Pemanfaatan umbi talas sebagai media pertumbuhan bibit f0 jamur tiram dan jamur merang (1). Seminar Nasional Pendidikan Dan Saintek 2016, 2016(1), 1055–1058.

Khalid, M., Ratnam, C. T., Chuah, T. G., Ali, S., & Choong, T. S. Y. (2008). Comparative study of polypropylene composites reinforced with oil palm empty fruit bunch fiber and oil palm derived cellulose. Materials & Design, 29(1), 173–178. DOI

Khatiwada, D., Palmén, C., & Silveira, S. (2021). Evaluating the palm oil demand in Indonesia: production trends, yields, and emerging issues. Biofuels, 12(2), 135–147. DOI

Kim, S., & Kim, C. H. (2013). Bioethanol production using the sequential acid/alkali-pretreated empty palm fruit bunch fiber. Renewable Energy, 54(June 2013), 150–155. DOI

Mahari, W. A. W., Peng, W., Nam, W. L., Yang, H., Lee, X. Y., Lee, Y. K., Liew, R. K., Ma, N. L., Mohammad. A., Sonne, C., Van, L. Q., Show, P. L., Chen, W., & Lam, S. S. (2020). A review on valorization of oyster mushroom and waste generated in the mushroom cultivation industry. Journal of hazardous materials, 400, 123156. DOI

Mamimin, C., Chanthong, S., Leamdum, C., O-Thong, S., & Prasertsan, P. (2021). Improvement of empty palm fruit bunches biodegradability and biogas production by integrating the straw mushroom cultivation as a pretreatment in the solid-state anaerobic digestion. Bioresource Technology, 319(January 2021), 124227. DOI

Marlina, L., Sukotjo, S., & Marsudi, S. (2015). Potential of Oil Palm Empty Fruit Bunch (EFB) as Media for Oyster Mushroom, Pleurotus ostreatus Cultivation. Procedia Chemistry, 16, 427–431. DOI

Moonmoon, M., Uddin, M. N., Ahmed, S., Shelly, N. J., & Khan, M. A. (2010). Cultivation of different strains of king oyster mushroom (Pleurotus eryngii) on saw dust and rice straw in Bangladesh. Saudi Journal of Biological Sciences, 17(4), 341–345. DOI

Muryanto, Sahlan, M., & Y, S. (2012). Simultaneous Saccharification and Fermentation of Oil Palm Empty Fruit Bunch for Bioethanol Production by Rhizopus oryzae. International Journal of Environment and Bioenergy, 3(2), 111–120. website

Nazir, M. S., Wahjoedi, B. A., Yussof, A. W., & Abdullah, M. A. (2013). Eco-Friendly Extraction and Characterization of Cellulose from Oil Palm Empty Fruit Bunches. BioResources, 8(2), 2161–2172. DOI

Niu, J., Li, X., Qi, X., & Ren, Y. (2021). Pathway analysis of the biodegradation of lignin by Brevibacillus thermoruber. Bioresource Technology, 341, 125875. DOI

Ogidi, C. O., Akindulureni, E. D., Agbetola, O. Y., & Akinyele, B. J. (2020). Calcium bioaccumulation by Pleurotus ostreatus and Lentinus squarrosulus cultivated on palm tree wastes supplemented with calcium-rich animal wastes or calcium salts. Waste and Biomass Valorization, 11(8), 4235-4244. DOI

Phat, C., Moon, B., & Lee, C. (2016). Evaluation of umami taste in mushroom extracts by chemical analysis, sensory evaluation, and an electronic tongue system. Food Chemistry, 192(February 2016), 1068–1077. DOI

Ragunathan, R., Gurusamy, R., Palaniswamy, M., & Swaminathan, K. (1996). Cultivation of Pleurotus spp. on various agro-residues. Food Chemistry, 55(2), 139–144. DOI

Ragunathan, R., & Swaminathan, K. (2003). Nutritional status of Pleurotus spp. grown on various agro-wastes. Food Chemistry, 80(3), 371–375. DOI

Rambey, R., Simbolon, F. M., & Siregar, E. B. M. (2020). Growth and productivity of oyster mushrooms (Pleurotus ostreatus) on media rice straw mixed with sawdust. IOP Conference Series: Earth and Environmental Science, 454(1), 012082. DOI

Rizki, M., & Tamai, Y. (2011). Effects of different nitrogen rich substrates and their combination to the yield performance of oyster mushroom (Pleurotus ostreatus). World Journal of Microbiology and Biotechnology, 27(7), 1695–1702. DOI

Sucipto, E., Oktaviani, R., & Rizal, R. (2015). The effects of partnership and entrepreneurship toward business performance of oyster mushroom (PLEUROTUSOSTREATUS). Indonesian Journal of Business and Entrepreneurship, 1(1), 32–41. DOI

Sudirman, L. I., Sutrisna, A., Listiyowati, S., Fadli, L., & Tarigan, B. (2011). The potency of oil palm plantation wastes for mushroom production. Proceedings of the 7th International Conference on Mushroom Biology and Mushroom Products, 383–389. PDF

Sudiyani, Y., & Hermiati, E. (2010). Utilization of oil palm empty fruit bunch (opefb) for bioethanol production through alkali and dilute acid pretreatment and simultaneous saccharification and fermentation. Indonesian Journal of Chemistry, 10(2), 261–267. DOI

Sukri, A., Othman, R., Abd-Wahab, F., & M Noor, N. (2021). Self-Sustaining Bioelectrochemical Cell from Fungal Degradation of Lignin-Rich Agrowaste. Energies, 14(8), 2098. DOI

Tan, L., Yu, Y., Li, X., Zhao, J., Qu, Y., Choo, Y. M., & Loh, S. K. (2013). Pretreatment of empty fruit bunch from oil palm for fuel ethanol production and proposed biorefinery process. Bioresource Technology, 135(May 2013), 275–282. DOI

Triyono, S., Haryanto, A., Telaumbanua, M., Dermiyati, Lumbanraja, J., & To, F. (2019). Cultivation of straw mushroom (Volvariella volvacea) on oil palm empty fruit bunch growth medium. International Journal of Recycling of Organic Waste in Agriculture, 8(4), 381–392. DOI

Yaakob, Z., Sukarman, I. S. Bin, Narayanan, B., Abdullah, S. R. S., & Ismail, M. (2012). Utilization of palm empty fruit bunch for the production of biodiesel from Jatropha curcas oil. Bioresource Technology, 104(January 2012), 695–700. DOI

Yang, W., Guo, F., & Wan, Z. (2013). Yield and size of oyster mushroom grown on rice/wheat straw basal substrate supplemented with cotton seed hull. Saudi Journal of Biological Sciences, 20(4), 333–338. DOI