The growth of immature Cinchona ledgeriana can be optimized by applying fertilizers to fill the nutritional needs of plants. Nutrients can be provided through the help of microorganisms derived from organic fertilizers and biofertilizers. This study aims to evaluate the effect of applying coffee husk compost and biofertilizer consortium on the growth of immature quinine plants. This research was conducted from November 2023 – January 2024 at Gambung Tea and Cinchona Research Center, Pasir Jambu District, Bandung Regency, West Java. The research used a randomized block design with four replications and six treatments, namely control (Urea 17 g.plant^-1 + SP36 8 g.plant^-1 + KCl 4 g.plant^-1); solid coffee husk compost 3 kg.plant^-1; liquid coffee husk compost 80 mL.L^-1; biofertilizer 10 mL.L^-1; solid coffee husk compost 3 kg.plants^-1 + biofertilizer 10 mL.L^-1; and liquid coffee husk compost 80 mL.L^-1 + biofertilizer 10 mL.L^-1. The results showed applying organic fertilizer from coffee husk waste and biofertilizer improved the growth of immature quinine plants. Combination of liquid organic fertilizer from coffee husk waste 80 mL.L^-1 water + biofertilizer 10 mL.L^-1 water produced a high increase in leaf area. Combination of solid organic fertilizer from coffee husk waste 3 kg. plants^-1 + biofertilizer 10 mL.L^-1 water showed the highest plant height increment. It implied the success of quinine improvement growth at the immature phase by applying coffee husk waste and biofertilizers. 

Aasfar A, Bargaz A, Yaakoubi K, Hilali A, Bennis I., Zeroual Y, Meftah KI. 2021. Nitrogen Fixing Azotobacter Species as Potential Soil Biological Enhancers for Crop Nutrition and Yield Stability. Frontiers in microbiology, 12, 628379.

Advinda L, Fifendy M, Anhar A. 2018. The Addition of Several Mineral Sources on Growing Media of Fluorescent Pseudomonad for the Biosynthesis of Hydrogen Cyanide. IOP Conference Series: Materials Science and Engineering. 335 012016.

Ahmed T, Noman M, Qi Y, Shahid M, Hussain S, Masood HA, Xu L, Ali HM, Negm S, El-Kott AF, Yao Y, Qi X, Li B. 2023. Fertilization of microbial composts: a technology for improving stress resilience in plants. Plants (Basel, Switzerland), 12(20), 3550.

Antúnez S, Fuentes N, Gutierrez M, Carcelen F, Trillo F, López S, Bezada S, Rivadeneira V, Pizarro S, Nunez J. 2024. Effect of different levels of extruded coffee (Coffea arabica) pulp flour on the productive performance and intestinal morphometry of cobb 500 broiler chickens. Animals. 14. 1170.

[BPS] Badan Pusat Statistik. 2019. Produksi Bulanan Perkebunan Indonesia. Badan Pusat Statistik.

Boraste, Vamsi, Jhadav, Nagpur SMP. 2009. Biofertilizer: A novel tool for agriculture. International Journal of Microbiology Research, 1(2): 23-31.

Chaudhary P, Singh S, Chaudhary A, Sharma A, Kumar G. 2022. Overview of biofertilizers in crop production and stress management for sustainable agriculture. Frontiers in plant science, 13, 930340.

Fathi, Amin. 2022. Role of nitrogen (N) in plant growth, photosynthesis pigments, and N use efficiency: A review. Agrisost. 28: 1-8.

Gamalero E, Santoyo G, Glick BR. 2023. Encyclopedia of Soils in the Environment: Plant Growth Promoters.. Academic Press. 418-427.

Hala Y, Suryani AI, Devi OC. 2023. Vegetative growth response of corn (Zea mays) to Actinomycetes, Azospirillum, and Azotobacter isolated from the rhizosphere of neem (Azadirachta indica). Journal Bionature, 23(1): 188-198.

Hariyanti, Mauludin R, Sumirtaputra YC, Kurniati NF. 2023. A Review: Pharmacological Activities of Quinoline Alkaloid of Cinchona sp. Biointerface Research in Applied Chemistry, 13 (4): 1-13.

Karamat U, Sun X, Li N, Zhao J. 2021. Genetic regulators of leaf size in Brassica crops. Hortic Res, 8 (91): 1-11

Kumar S, Sindhu SS, Kumar R. 2022. Biofertilizers: An ecofriendly technology for nutrient recycling and environmental sustainability. Curr Res Microb Sci 3: 100094.

Maria T, Maysiak B, Krawic M. 2013. The effect of storage temperature of stacking bulbs on seed stalk development and seed yield of shallot. Acta, 66 (3): 41-48.

Maxiselly Y, Nafy FR, Anjarsari IRD. 2023. Morphological trait variation of the immature liberica coffee (Coffea liberica) from west java applied difference of coffe husk compost biofertilizer. Biodiversitas Journal of Biological Diversity, 24(11): 5988-5994.

Maxiselly Y, Ariyanti M, Soleh MA, Fikri N. 2022. Application of legume cover crop and various vermicompost dosages on young cinchona in the marginal area. Kultivasi, 21 (3): 256-260.

Novita E, Fathurrohman A, Pradana HA. 2018. Pemanfaatan kompos blok limbah kulit kopi sebagai media tanam. Jurnal Agrotek, 2(2): 61–72.

Olowoboko TB, Onasanya OO, Salami OT, Azeez JO. 2017. Growth and uptake in maize as influenced by NPK fertilizer in green house experiment. International Journal of Plant & Soil Science. 17(3): 1-10.

Panjaitan E, Sianturi PLL, Sidauruk L, Manurung EY. 2023. The effect of liquid organic fertilizer and solid organic fertilizer on the growth and production of eggplant (Solanum melongena L.). Jurnal Kajian dan Penalaran Ilmu Manajemen, 1(3): 185-199.

Permentan. 2019. Peraturan Menteri Pertanian Nomor 261/KPTS/SR.310/M/4/2019 tentang Persyaratan Teknis Minimal Pupuk Organik, Pupuk Hayati, dan Pembenah Tanah.

Razaq M, Hasnain A, Muhammad I, Salahuddin. 2015. Screening of adoptive elite tea (Camellia sinensis) clones. Journal Northeast Agricultural University, 22(4): 33-36.

Reddy DRD, Suvarna D, Rao DM. 2014. Effect of 6-benzyl amino purine on in vitro shoot multiplication of grand naine (Musa sp.). Int. J. Advanced Biotech. And Research. 5(1): 36-42.

Rüscher D, Corral JM., Carluccio AV, Klemens PAW, Gisel A, Stavolone L, Neuhaus HE, Ludewig F, Sonnewald U, Zierer W. 2021. Auxin signaling and vascular cambium formation enable storage metabolism in cassava tuberous roots. Journal of experimental botany, 72(10): 3688–3703.

Sampson PH, Zarco TP, Noland T. 2003. Hyperspectral remote sensing of forest condition: estimating chlorophyll content in tolerant hardwoods. Forest Science, 49(3): 381–391.

Santos EF, Junior JCZ, Serra JCV, Archangelo ER, Sousa IJA. 2024. Anaerobic codigestion of manipulate for biogas and biofertilizer production. Agroenergi, 201-211.

Setiawati MR, Afrilandha N, Hindersah R, Suryatmana P, Fitriatin BN, Kamaluddin NN. 2023. The effect of beneficial microorganism as biofertilizer application in hydroponic-grown tomato. Journal of Soil Science and Agriclimatology, 20 (1): 66-77.

Shaji H, Chandran V, Mathew L. 2021. Controlled Release Fertilizers for Sustainable Agriculture. Academic Press.

Small CC, Degenhardt D. 2018. Plant growth regulators for enhancing revegetation success in reclamation: A review. Ecological Engineering, 118: 43-51.

Suzuki W, Sugawara M, Miwa K, Morikawa M. 2014. Plant growth- promoting bacterium Acinetobacter calcoaceticus P23 increases the chlorophyll content of the monocot Lemna minor (duckweed) and the dicot Lactuca sativa (lettuce). Journal of Bioscience Bioengineering, 118 (1): 41-44.

Thamrin S, Junaedi, Irmayana. 2020. Respon pemberian pupuk NPK terhadap pertumbuhan bibit kopi robusta (Coffea robusta). Jurnal Agroplantae, 9(1): 40-47.

Venkatashwarlu B. 2008. Role of BioFertilizers in Organic Farming: Organic Farming in Rain Fed Agriculture: Central Institute for Dry Land Agriculture, Hyderabad.pp. 85 – 95.

Vikhe PS. 2014. Azotobacter species as a natural plant hormone synthesizer. Research Journal on Recent Science, 3(15): 59-63.