Environmental issues are a priority in the development of the kenaf fiber industry globally, because kenaf fiber is considered an environmentally friendly vegetable fiber when used as a raw material. This is revealed from the retting process which is the main process in processing the kenaf plant into kenaf dry fiber. The purpose of this study was to determine the green productivity index on the upstream side of the kenaf fiber agro-industry network by mapping green value stream mapping. Based on the research that has been done, it can be concluded that there are 6 alternatives to clean production, 4 of which can add value to the waste and 2 of them are routine activities of the kenaf fiber agroindustry. Then the results of the GVSM Current State mapping on energy of 12,753.6 Joules, water as much as 32,810.1l, material as much as 14,340 kg, waste as much as 14,860 kg, emissions of 1,584 kg, and biodiversity as much as 4,000 kg. After the alternative production is carried out, the results of the GVSM Future State mapping are 11,159.4 Joules of energy, 32,810.1l of water, 14,340 kg of materials, 1,584 kg of emissions, and 4,000 kg of biodiversity. There was a reduction in energy in the form of human power of 1,594.2 Joules which was replaced by the use of machines. The GPI Current State value in the kenaf fiber agroindustry is 0.000759 and the GPI Future State value obtained is 0.001234. This means that the production alternatives given affect the increase in IE value and decrease in EI value from the kenaf fiber agroindustry so that the GPI Future State value produced is getting better so that the impact on the environment in the kenaf fiber agroindustry is decreasing.

Cleaner production; Green productivity index; Green value stream mapping; Kenaf fiber; Supply chain

Dunne, R., D. Desai, R. Sadiku, and J. Jayaramudu. 2016. A review of natural fibres, their sustainability and automotive applications. Journal of Reinforced Plastics and Composites 35(13):1041–1050.

FAO. 2019. Food and Agriculture Jute , Kenaf, Coir and Allied Fibres Statistical Bulletin:6–7.

Fitri, J. L., N. W. Setyanto, and L. Riawati. 2015. Peningkatan Prouktivitas dan Kinerja Lingkungan Menggunakan Pendekatan Green Productivity pada Proses Produksi Pupuk Organic (Studi Kasus di PT Tiara Kurnia, Malang). Jurnal Rekayasa dan Manajemen Sistem Industri 3(2):363–374.

Ginting, A. S. 2008. Rancang Bangun Mesin Pemisah Kulit Kenaf (Hibiscus cannabinus L) dengan Metode Pembelahan.

Hakin, R., J. Biologi, F. Matematika, P. Alam, and U. Brawijaya. 2014. Keragaman Morfologi Kenaf (Hibiscus cannabinus L ) KR 11 Mutan EMS (Ethyl Methanesulfonate) berdasarkan Panduan Karakterisasi Kenaf 2(1):8–13.

Harris, B. 1991. A Biometric Study of Human Basal Metabolism. US National Library of Medicine National Institutes of Health, USA.

Harsono, P. Widodo, A. Nurhasanah, and G. AK. 2012. Modifikasi dan Uji Mesin Pencacah Kakao Segar Untuk Pakan Ternak.

Hidayati, L., R. Astuti, Sucipto, and Herawati. 2021a. Evaluasi dan Strategi Perbaikan Produksi Berkelanjutan Usaha Penyembelihan Ayam Skala Kecil. Agrointek : Jurnal Teknologi Industri Pertanian 15(3):779–791.

Hidayati, L., R. Astuti, Sucipto, and Herawati. 2021b. Evaluasi dan Strategi Perbaikan Produksi Berkelanjutan Usaha Penyembelihan Ayam Skala Kecil. Agrointek : Jurnal Teknologi Industri Pertanian 15(3):779–791.

Indrasti, N. S., and A. M. Fauzi. 2009. Produksi Bersih. Penerbit IPB Press, Bogor.

Kementerian Perindustrian. 2015. Rencana Induk Pembangunan Industri Nasional 2015 - 2035. Kementerian Perindustrian, Jakarta.

Marimin, Machfud, Muh. A. Darmawan, S. Martini, D. Rukmayadi, B. Wiguna, Muh. P. Islam, and W. Adhi. 2015. Teknik dan Aplikasi Produktivitas Hijau (Green Productivity) Pada Agroindustri. First edition. PT Penerbit IPB Press, Bogor.

Nurhasanah, N., Machfud, D. Mangunwidjaja, and M. Romli. 2020a. A conceptual framework on the design of intelligent supply chain for natural fibre agroindustry. The 5th International Conference on Industrial, Mechanical, Electrical, and Chemical Engineering:030050-1-030050–8.

Nurhasanah, N., Machfud, D. Mangunwidjaja, and M. Romli. 2020b. A conceptual framework on the design of intelligent supply chain for natural fibre agroindustry. The 5th International Conference on Industrial, Mechanical, Electrical, and Chemical Engineering:030050-1-030050–8.

Nurhasanah, N., Machfud, D. Mangunwidjaja, and M. Romli. 2020c. Value Added of Kenaf Fibre in Natural Fibre agroindustry Supply Chain Network. IOP Conference Series: Earth and Environmental Science 472(1).

Santoso, B. 2011. Proses retting kenaf. Penas XIII(19 Juni):2.

Santoso, B., A. H. Jamil, and M. Machfud. 2015. Manfaat Kenaf (Hibiscus cannabinus L.) dalam Penyerapan Karbondioksida (CO2) Kenaf (Hibiscus cannabinus L.) Benefits in Carbon Dioxide (CO2) Sequestration. Perspektif 14(2):125–134.

Santoso, B., A. H. Jamil, and Moch. Machfud. 2016. Manfaat Kenaf (Hibiscus cannabinus L.) dalam Penyerapan Karbondioksida (CO2). Perspektif 14(2):125.

Sudjindro. 2011. Prospek Serat Alam. Perspektif 10(2):92–104.

Suryaningrat, I. B., E. R. A, and E. Novita. 2021. Penerapan Metode Green Supply Chain Operation Reference (GSCOR) Pada Pengolahan Ribbed Smoke Sheet (RSS) (Studi Kasus di PTPN XII Sumber Tengah Silo, Jember). Jurnal Agrointek 15(1):282–293.

Widhiarti, R. P. 2014. Peningkatan Produktivitas Proses Produksi ban Motor Dengan Pendekatan Produktivitas Hijau (Studi Kasus PT. XYZ).

Widyastuti, P. 2018. Analisis Produktivitas Proses Produksi Kopi Robusta Dengan Pendekatan Green Productivity (Studi Kasus PTPN XII Kebun Bangelan Malang).