Nitrogen (N) and potassium (K) are macronutrients that plants need for better growth and yield. However, they are readily lost from the soil through volatilization, denitrification, and leaching, aside from being absorbed by plant roots. Thus, a Controlled Release Fertilizer (CRF) may be formulated and applied to maximize the beneficial effects of N and K fertilization. This study aimed to describe the release pattern of ammonium nitrogen (NH4 -N), nitrate nitrogen (NO3 -N), and K from CRF through the laboratory incubation method. Two types of CRF - CRF A (16-16-16) and CRF B (30-6-8), with a non-CRF (Mutiara NPK16-16-16) as Control – were used. Each fertilizer was tested at 600 and 1200 kg ha-1 doses. The results showed that the NH4 -N release was very high at 40 – 60% but declined to almost 0% after 14 weeks. The NO3 -N release rate was 17 – 40% during the first week, followed by a steady increase to nearly 100% by the 14th incubation week. Potassium release ranged from 20% to 30% in the first week, then rose to 30 – 70% at Week 14. Overall, CRF (30-6-8) at a dose of 1200 kg ha-1 showed the slowest rate of nitrogen release.

Ammonium nitrogen (NH4-N); Controlled Release Fertilizer (CRF); nitrate nitrogen (NO3-N); potassium

Abatenh E, B Gizaw, Z Tsegaye and G Tefera. 2018. Microbial function on climate change - a review. Environ Pollut Climate Change 2: 147. doi: 10.4172/2573-458X.1000147.

Agustina TE, I Rizky, MEW Utama and MI Amal. 2018. Characterization and utilization of zeolite for NPK slow-release fertilizer. Int J Eng 31: 622-628.

Beig B, MBK Niazi, Z Jahan, A Hussain, MH Zia and MT Mehran. 2020. Coating materials for slow release of nitrogen from urea fertilizer: a review. J Plant Nutrition 43: 1510-1533.

Chen J, X Fan, L Zhang, X Chen, S Sun and R-Cang Sun. 2020. Research progress in lignin-based slow/ controlled release fertilizer. ChemSusChem 13: 4356-4366. doi: 10.1002/cssc.202000455.

Daza MC, J Diaz, E Aguirre and N Urrutia. 2015. Effect of slow-release fertilizers on nitrate leaching and nitrogen nutrition in stevia. Rev Colomb Cienc Horticolas 9: 112-123. doi http://dx.doi.org/10.17584/rcch.2015v9i1.3750.

Evi MD, Suwardi, DT Suryaningtyas and S Anwar. 2017. Utilization of natural zeolites as Cu (Ii) and Zn (Ii) adsorbent. J Trop Soils 21: 153-60.

El-Beltagi HS, MR Sofy, MI Aldaej and HI Mohamed. 2020. Silicon alleviates copper toxicity in flax plants by up-regulating antioxidant defense and secondary metabolites and decreasing oxidative damage. Sustainability 12: 4732. doi https://doi.org/10.3390/su12114732.

El-Nahas S, HM Salman, and WA Seleeme. 2019. Aluminum building scrap wire, take-out food containers, potato peels, and bagasse as valueless waste materials for nitrate removal from water supplies. Chemistry Africa 2: 143–162.

Gu J and J Yang. 2022. Nitrogen (N) transformation in paddy rice field: its effect on n uptake and relation to improved N management. Crop Environ 1: 7-14.

Hasanuzzaman M, MHM Borhannuddin Bhuyan, K Nahar, Md Shahadat Hossain, J Al Mahmud, Md Shahadat Hossen, AA Chowdhury Masud, Moumita and M Fujita. 2018. Potassium: A vital regulator of plant responses and tolerance to abiotic stresses. Agronomy 8: 31. doi https://doi.org/10.3390/agronomy8030031.

Hidayatussittah N. 2018. Pola pelepasan ammonium, nitrat, dan kalium dari slow release fertilizer (SRF) pada Epiaquept. [skripsi]. Institut Pertanian Bogor, Bogor. (in Indonesian).

Hou W, X Xue, X Li, MR Khan, J Yan, T Ren, R Cong and J Lu. 2019. Interactive effects of nitrogen and potassium on grain yield, nitrogen uptake and nitrogen use efficiency of rice in low potassium fertility soil in China. Field Crop Res 236: 14-23.

Jakkula VS and SP Wani. 2018. Zeolites: potential soil amendments for improving nutrient and water use efficiency and agriculture productivity. Sci Revs Chem Commun 8: 119.

Krapp A. 2015. Plant nitrogen assimilation and its regulation: a complex puzzle with missing pieces. Curr Opin Plant Biol 25: 115–122.

Li S-Xiu, Z-Hui Wang, and BA Stewart. 2013. Chapter Five - responses of crop plants to ammonium and Nitrate N. In DL Sparks (ed). Advances in agronomy. Department of Plant and Soil Sciences, University of Delaware, Newark, Delaware, USA, pp. 115–122.

Nainggolan GD. 2010. Pola pelepasan nitrogen dari pupuk tersedia lambat (slow release fertilizer) urea-zeolit-asam humat. [Skripsi]. Institut Pertanian Bogor, Bogor. (in Indonesian)

Sardans J and J Peñuelas. 2015. Potassium: A neglected nutrient in global change. Global Ecol Biogeogr 24: 261-275.

Soltys L, I Myronyuk, T Tatarchuk and V Tsinurchyn. 2020. Zeolite-based composites as slow-release fertilizer. Physics and Chemistry of Solid State 21: 89-104.

Suryaningtyas DT, YGN Fatiha, P Oktariani and Suwardi. 2023. Zeoponic, a plant growing medium from zeolite mineral. IOP Conference Series: Earth and Environmental Science 1133: 012020. doi: 10.1088/1755-1315/1133/1/012020.

Suwardi. 2002. Prospek pemanfaatan mineral zeolit di bidang pertanian. J Zeolit Indonesia 1:5-12.

Suwardi. 2004. Pengaruh penambahan zeolit pada media tumbuh tanaman pada tanaman melon dan semangka dalam sistem hidroponik. J Zeolit Indonesia 3:30-36.

Suwardi. 2007. Deposit dan sifat-sifat mineral zeolit serta pemanfaatannya sebagai bahan pembenah tanah. Prosiding Seminar Nasional Himpunan Ilmu Tanah Indonesia, Yogyakarta, pp. 248-257.

Suwardi and H Wijaya. 2013. Peningkatan produksi tanaman pangan dengan bahan aktif asam humat dengan zeolit sebagai pembawa. J Ilmu Pertanian Indonesia 18: 79-84.

Tian X-Fei, C-Liang Li, M Zhang, Y-Yan Lu, Y-Le Guo and L-Fei Liu. 2017. Effects of controlled-release potassium fertilizer on available potassium, photosynthetic performance, and yield of cotton. J Plant Nutrition and Soil Science 180: 505-515.

Xu X, X Du, F Wang, J Sha, Q Chen, G Tian, Z Zhu, S Ge and Y Jiang. 2020. Effects of potassium levels on plant growth, accumulation and distribution of carbon, and nitrate metabolism in apple dwarf rootstock seedlings. Front Plant Sci 11: 904.

Zulfiqar F, M Navarro, M Ashraf, NA Akram, S Munne’-Bosch. 2019. Nano fertilizer use for sustainable agriculture: advantages and limitations. Plant Sci 289: 110270.