Oyster mushroom baglog waste that is not used properly will cause problems such as environmental pollution, and can also be a source of pollution for cultivated oyster mushrooms. Composting is an alternative to the management of oyster mushroom baglog waste. However, the compost must also be of good quality, the quality of the compost can be determined both by the physical and chemical properties of compost. Given the importance of compost quality, compost must refer to the standard criteria that have been determined. Therefore, this research aims to evaluate the physical quality (temperature, aroma, and color) and chemical (pH, organic C, total N, ratio C/N, total P, and total K) compost of oyster mushroom baglog waste based on the Indonesian National Standard (SNI) 19-7030-2004, corn seed germination, and rice root growth on acid sulfate soil applied to oyster mushroom baglog waste compost. The results showed that the compost of oyster mushroom baglog waste had complied with the SNI, where the parameters of the compost had met SNI, namely: temperature 33 ^oC, blackish-brown color, smell like soil, organic C 14.38%, N 0.74%, ratio C/N 19.43, P 0.50%, K 0.35%, and the percentage of germination of corn seeds of Exsotic Pertiwi Varieties was 97% of germinated seeds. The application of oyster mushroom baglog waste compost at a dose of 20 ton.ha^-1 was able to increase the root length of rice in acid sulfate soils.

Acid Sulfate Soils; Organic Fertilizer; Pleurotus ostreatus; Seed Germination Test; Zero Waste Agriculture

[BSN] Badan Standarisasi Nasional. 2004. Spesifikasi kompos dari sampah organik domestik. SNI-19-7030-2004.(Cd):7030.

Adhikari HS, Jha SK. 2017. Postharvest microbial contamination in oyster mushroom and their manangement using plant essential oils. Bio Bull. 3(1):104–108.

Alex SM. 2011. Untung besar budidaya jamur: dengan modal sedikit di lahan sempit. Yogyakarta (ID): Pustaka Baru Press.

Alpandari H. 2015. Isolasi dan uji efektifitas aktivator alam terhadap aktivitas dekomposisi dan kualitas kompos tongkol jagung. J Agroteknologi. 1(1):36–78.

Amanillah Z. 2011. Pengaruh konsentrasi Em4 pada fermentasi urin sapi terhadap konsentrasi N, P, dan K [Skripsi]. Malang (ID): Universitas Brawijaya.

Aminah S, Soedarsono G, Sastra Y. 2003. Teknologi Pengomposan. Jakarta (ID): Balai Pengkajian Teknologi.

Djuarnani N, Kristian, Setiawan BS. 2005. Cara Cepat Membuat Kompos. Tangerang (ID): Agromedia Pustaka.

Etika YV. 2007. Kotoran ayam dan kombinasinya terhadap ketersediaan unsur N , P dan K pada inceptisol [Skripsi]. Malang (ID): Universitas Brawijaya.

Farhana B, Ilyas S, Budiman LF. 2013. Pematahan dormansi benih kelapa sawit (Elaeis guineensis Jacq.) dengan perendaman dalam air panas dan variasi konsentrasi Ethephon. Bul Agrohorti. 1(1):72–78. https://doi.org/10.29244/agrob.1.1.72-78.

Haq AS, Nugroho WA, Lutfi M. 2014. Pengaruh perbedaan sudut rak segitiga pada pengomposan sludge biogas terhadap sifat fisik dan kimia kompos. J Keteknikan Pertan Trop dan Biosist. 2(3):225–233.

Hartatik W, Setyorini D, Widowati LR, Widati S. 2005. Laporan akhir penelitian teknologi pengelolaan hara pada budidaya pertanian organik. Laporan Bagian Proyek Penelitian Sumberdaya Tanah dan Proyek Pengkajian Teknologi Pertanian Partisipatif (Tidak dipublikasikan).

Hasbiah AW, Yustiani YM, Desiriani NS. 2017. Pengomposan limbah baglog jamur tiram secara anaerobik dengan variasi aktivator, kotoran kambing dan urea di desa Cisarua, Lembang Kabupaten Bandung barat. In: Proceeding of Community Development. Vol. 1. hal. 205–215.

Hocking MB. 1999. Solid waste. In: Environmental Geology. Dordrecht (NL): Kluwer Academic Publishers. hal. 576–578.

Hunaepi H, Dharawibawa ID, Asy’ari M, Samsuri T, Mirawati B. 2018. Pengolahan limbah baglog jamur tiram menjadi pupuk organik komersil. J SOLMA. 7(2):277–288. https://doi.org/10.29405/solma.v7i2.1392.

Huy NN, Thuy NT, Hien LPT, Hang NTT, Khuong VB, Phung LTK, Lien NTL. Studi on the removal of odorous gases from composting process using local bio-media of Vietnam. AJChE. 20(2): 130-139. https://doi.org/10.22146/ajche.54735.

Irawan TB. 2014. Pengaruh susunan bahan terhadap waktu pengomposan sampah pasar pada komposter beraerasi. METANA. 10(01):18–24. https://doi.org/10.14710/metana.v10i01.9773.

Isroi. 2008. Kompos. Dipresentasikan pada: Study Research Siswa SMU Negeri 81 Jakarta. Bogor (ID): Balai Penelitian Bioteknologi Perkebunan Indonesia.

Jumar J, Saputra RA, Wafiuddin MS. 2020. Teknologi pengomposan limbah kulit durian menggunakan EM4. EnviroScienteae. 16(2):241–251. http://doi.org/10.20527/es.v16i2.9656.

Juo ASR, editors. 1978. Selected Methods for Soil and Plant Analysis. 2nd Ed. Ibadan (NG): International institute of topical agriculture.

Kartika D. 2016. Peningkatan ketersediaan fosfor (P) dalam tanah akibat penambahan arang sekam padi dan analisisnya secara Spektofotometri [Skripsi]. Jember (ID): Universitas Jember.

Maftu'ah E, Lestari Y, Pangaribuan EB, Mayasari V. 2021. Amelioration of actual acid sulfate soils to improve soil chemical properties and rice yields. IOP Conf Ser: Earth Environ Sci. 648(012167). https://doi.org/10.1088/1755-1315/648/1/012167.

Mayakaduwage S, Alamgir MD, Mosley L, Marschner P. 2020. Phosphorus pools in sulfuric acid sulfate soils: influence of water content, pH increase and P addition. J Soils Sediments. 20:1446-1453.

Michael PS. 2020. Simple carbon and organic matter addition in acid sulfate soils and time dependent changes in pH and redox under varying moisture regimes. Asian J Agric. 4(1):23-29. https://doi.org/10.13057/asianjagric/g040105.

Miller RO, Horneck D. 1997. Determination of total nitrogen in plant tissue. In Y. Kalra (Ed.), Handbook of Reference Methods for Plant Analysis (pp. 75–83). CRC Press. https://doi.org/10.1201/9781420049398.ch9.

Najera F, Tapia Y, Baginsky C, Figueroa V, Cabeza R, Salazar O. 2015. Evaluation of soil fertility and fertilization practices for irrigated maize (Zea mays L.) under Mediterranean conditions in central Chile. J Soil Sci Plant Nutrition. 15(1): 84-97. https://doi.org/10.4067/S0718-95162015005000008.

Nengsih. 2002. Penggunaan EM4 dan GT1000-WTA dalam Pembuatan Pupuk Organik Cair dan Padat dari Isi Rumen Limbah RPH [Skripsi]. [Bogor (ID)]: Institut Pertanian Bogor.

Neves AC, Costa P da, Silva CA de O e, Pereira FR, Mol MPG. 2021. Analytical methods comparison for pH determination of composting process from green wastes. Environmental Engineering and Management Journal. 20(1): 133–139. https://doi.org/10.30638/eemj.2021.014.

Nuraini. 2009. Pembuatan kompos jerami menggunakan mikroba perombak bahan organik. Bul Tek Pertan. 14(1):23–26.

Peniwiratri L. 2007. Kualitas kompos dari campuran limbah padat industri jamur tiram (baglog) dan pupuk kandang dengan inokulan P-BIO. Tanah dan Air. 8: 66-71.

Perwitasari B, Tripatmasari M, Wasonowati C. 2012. Pengaruh media tanam dan nutrisi terhadap pertumbuhan dan hasil tanaman pakchoi (Brassica juncea L.) dengan sistem hidroponik. Agrovigor J Agroekoteknologi. 5(1):14–25.

Putri RBA, Sulistyo TD, Anwar C. 2017. Penggunaan limbah baglog tiram dan jenis nutrisi terhadap pakcoy pada hidroponik substrat. Agrosains J Penelit Agron. 19(1): 28–33. https://doi.org/10.20961/agsjpa.v19i1.20928.

Prabowo H, Rahmawati N, Sitepu FET. 2020. The effect of oyster mushroom baglog compost on the growth and production some local genotypes of purple sweet potato (Ipomoea batatas L.). IOP Conf Ser Earth Environ Sci. 454(1):012172. https://doi.org/10.1088/1755-1315/454/1/012172.

Rahayu AD, Suharsi TK. 2015. Pengamatan uji daya berkecambah dan optimalisasi substrat perkecambahan benih kecipir (Psophocarpus tetragonolobus L. (DC)). Bul Agrohorti. 3(1): 18-27. https://doi.org/10.29244/agrob.v3i1.14821.

Raun WR, Olson RA, Sander DH, Westerman RL. 1987. Alternative procedure for total phosphorus determination in plant tissue. Communications in Soil Science and Plant Analysis. 18(5): 543–557. https://doi.org/10.1080/00103628709367840.

Riska NWS, Saputra RA, Sofyan A. 2021. Adaptasi pertumbuhan setek bunga krisan (Chrysanthemum sp.) menggunakan naungan di Banjarbaru, Kalimantan Selatan. J Hort. 31(1): 31-40. https://doi.org/10.21082/jhort.v31n1.2021.p31-40.

Saidy AR. 2018. Bahan organik tanah: klasifikasi, fungsi dan metode studi. Banjarmasin (ID): Lambung Mangkurat University Press. http://eprints.ulm.ac.id/4505.

Saputra RA, Nugraha MI, Gazali A, Heiriyani T, Santoso U, Wahdah R, Mulyawa R. 2019. Kualitas kompos limbah jerami padi di wilayah tungkaran desa ulin kecamatan simpur dengan penambahan kotoran ternak yang berbeda. In: Navira A, Hermawan A, Jannaky MA, editor. Optimalisasi lahan basah sub-optimal dalam mencapai Indonesia lumbung pangan dunia 2045. Prosiding Seminar Nasional Temu Ajang Kreasi Bangun Nusantara; 16 November 2019; Banjarbaru, ID. Banjarbaru (ID): Jurusan Agroteknologi, Faperta ULM.

Saputra RA, Sari NN. 2021. Ameliorant engineering to elevate soil pH, growth, and productivity of paddy on peat and tidal land. IOP Conf Ser Earth Environ Sci. 648(1):012183. https://doi.org/10.1088/1755-1315/648/1/012183.

Septiani D. 2012. Pengaruh pemberian arang sekam padi terhadap pertumbuhan dan hasil tanaman cabai rawit (Capsicum frutescens) [Skripsi]. Kota Banjarmasin (ID): Universitas Lambung Mangkurat.

Shamshuddin J, Jamilah I, Ogunwale JA. 1994. Organic carbon determination in acid sulphate soils. Pertanika J Trop Agr Sci. 17(3): 197–200.

Sidabutar N V. 2012. Peningkatan kualitas kompos UPS permata regency dengan penambahan kotoran ayam menggunakan windrow composting [skripsi]. Jakarta (ID): Universitas Indonesia.

Susilowati S, Raharjo B. 2010. Petunjuk teknis budidaya jamur tiram (Pleourotus Ostreatus Var Florida) yang ramah lingkungan. Sekayu (ID): Deutsche Gesellschaft für Technische Zusammenarbeit (GTZ) GmbH. Report No.: 50.STE.Final.

Sutedjo MM. 2008. Pupuk dan cara pemupukan tanah pertanian. Jakarta (ID): PT RINEKA CIPTA.

Upadhyay SK, Sahani RK, Srivastava NK. 2021. Microbial contamination on oyster mushroom after harvest and their management using some essential oils in Azamgarh (U.P.) India. Flora dan Fauna. 27(1):68–72. https://doi.org/10.33451/florafauna.v27i1pp68-72.

Wahyono S, Sahwan FL. 2018. Standarisasi kompos berbahan baku sampah kota. J Rekayasa Lingkung. 6(3):223–233. https://doi.org/10.29122/jrl.v6i3.1936.

Widodo KH, Kusuma Z. 2018. Pengaruh kompos terhadap sifat fisik tanah dan pertumbuhan tanaman jagung di inceptisol. J Tanah dan Sumberdaya Lahan. 5(2): 959-67.

Yuwono D. 2007. Kompos. Jakarta (ID): Penebar Swadaya.

Zhou JM. 2017. The effect of different C/N ratios on the composting of pig manure and edible fungus residue with rice bran. Compost Sci. Utilization. 25(2): 120-129. https://doi.org/10.1080/1065657X.2016.1233081.