Spent bleaching earth (SBE) is by-product of cooking oil processing industry of crude palm oil (CPO). Palm oil industry is growing every year, followed by population growth and consumption of cooking oil so that the greater volume of waste generates SBE. An innovation is needed to anticipate the problem of SBE waste in agricultural sector, dealing with a filler component in the production of NPK fertilizer additives. This study aims to determine proline response, growth and yield of the maize to fertilization NPK with SBE-based filler. The experiments used Randomized Complete Block Design (RCBD) with the treatments of NPK filler (15:15:15) consisting of BC (brown clay), SBE and DBE (deoiled bleaching earth) at a dose of 6 g polybag^-1. The results showed that the use of SBE gave the same effect on plant height, leaf number, stem diameter and 100-seed weight, but the use of SBE could increase 61.15% of proline activity. SBE can substitute filler on the additional materials of NPK fertilizer.

deoiled bleaching earth; maize; plant growth; spent bleaching earth

Abnisa, F., Arami-Niya, A., Daud, W. M. A. W., & Sahu, J. N. (2013). Characterization of bio-oil and bio-char from pyrolysis of palm oil wastes. Bioenergy Research, 6(2), 830–840. Crossref

Ackova, D. G. (2018). Heavy metals and their general toxicity for plants. Plant Science Today, 5(1), 14-18. Crossref

Ayandiran, T. A., Fawole, O. O., Adewoye, S. O., & Ogundiran, M. A. (2009). Bioconcentration of metals in the body muscle and gut of Clarias gariepinus exposed to sublethal concentrations of soap and detergent effluent. Journal of Cell and Animal Biology, 3(8), 113–118. Retrieved from Link

Balai Penelitian Tanah. (2009). Petunjuk Teknis: Analisis Kimia Tanah, Tanaman, Air, dan Pupuk. 2nd edn. Edited by B. H. Prasetyo, Djoko Santoso dan Ladiyani Retno W. Bogor: Balai Penelitian Tanah. Retrieved from Link

Bates, L. S., Waldren, R. P., & Teare, I. D. (1973). Rapid determination of free proline for water-stress studies. Journal of Plant and Soil, 39(1), 205–207. Crossref

Beshara, A., & Cheeseman, C. R. (2014). Reuse of spent bleaching earth by polymerisation of residual organics. Waste Management, 34(10), 1770-1774. Crossref

Boukerroui, A., Belhocine, L., & Ferroudj, S. (2018). Regeneration and reuse waste from an edible oil refinery. Environmental Science and Pollution Research, 25(19), 18278–18285. Crossref

Brukhin, V., & Morozova, N. (2011). Plant growth and development - basic knowledge and current views. Mathematical Modelling of Natural Phenomena, 6(2), 1–53. Crossref

Cao, H., Zhou, Y., Chang, Y., Zhang, X., Li, C., & Ren, D. (2019). Comparative phosphoproteomic analysis of developing maize seeds suggests a pivotal role for enolase in promoting starch synthesis. Progress in Polymer Science, 19, 3-28. Crossref

Cheong, K. Y., Loh, S. K., & Salimon, J. (2013). Effect of spent bleaching earth based bio organic fertilizer on growth, yield and quality of eggplants under field condition. AIP Conference Proceedings, 1571, 744–748. Crossref

Emamverdian, A., Ding, Y., Mokhberdoran, F., & Xie, Y. (2015). Heavy metal stress and some mechanisms of plant defense response. Scientific World Journal, 201, 1–18. Crossref

Embrandiri, A., Ibrahim, M. H., & Singh, R. P. (2013). Palm oil mill wastes utilization; sustainability in the Malaysian context. International Journal of Scientific and Research Publications, 3(1), 2250–3153. Retrieved from Link

Embrandiri, A., Singh. R. P., Ibrahim, H. M., & Ramli, A. A. (2012). Land application of biomass residue generated from palm oil processing: its potential benefits and threats. Environmentalist, 32(1), 111–117. Crossref

Fauziah, F., Wulansari, R., & Rezamela, E. (2018). Pengaruh Pemberian Pupuk Mikro Zn dan Cu serta Pupuk Tanah terhadap Perkembangan Empoasca sp. pada Areal Tanaman Teh. Jurnal Agrikultura, 29(1), 26–34. Crossref

Fiyadh, S. S., AlSaadi, M. A., Jaafar, W. Z., AlOmar, M. K., Fayaed, S. S., Mohd, N. S., Hin, L. S., & El-Shafie, A. (2019). Review on heavy metal adsorption processes by carbon nanotubes. Journal of Cleaner Production, 230, 783–793. Crossref

Gül, Ö. F., Tuter, M., & Karaosmanoglu, F. (2018). Parameters affecting oleochemical production from waste bleaching earth via alcoholysis. Sadhana - Academy Proceedings in Engineering Sciences, 43(11), 191. Crossref

Himmah, N. I. F., Djajakirana, G., & Darmawan. (2018). Nutrient release performance of starch coated NPK fertilizers and their effects on corn growth. Sains Tanah - Journal of Soil Science and Agroclimatology, 15(2), 104-117. Crossref

Jiwan, S. & K. A. S. (2014). Effects of heavy metals on soil, plants, human health and aquatic life. International Journal of Research in Chemistry and Environment, 1(1), 15-21. Retrieved from Link

Kamilah, H., Al-Gheethi, A., Yang, T. A., & Sudesh, K. (2018). The use of palm oil-based waste cooking oil to enhance the production of polyhydroxybutyrate [P(3HB)] by Cupriavidus necator H16 strain. Arabian Journal for Science and Engineering, 43(7), 3453–3463. Crossref

Kasno, A., & Rostaman, T. (2013). Serapan hara dan peningkatan produktivitas jagung dengan aplikasi pupuk NPK majemuk. Jurnal Penelitian Pertanian Tanaman Pangan, 32(3), 179–186. Retrieved from Link

Kementrian Pertanian. (2018). Petunjuk Teknis Pelaksanaan Kegiatan Jagung Tahun 2018. Jakarta: Kementrian Pertanian Retrieved from Link

Kheang, L. S., Foon, C. S., May, C. Y., & Ngan, M. A. (2010). A study of residual oils recovered from spent bleaching earth: their characteristics and applications. American Journal of Applied Sciences, 3(10), 2063–2067. Crossref

Kim, G. B., & Nam, Y. W. (2013). A novel Δ1-pyrroline-5-carboxylate synthetase gene of Medicago truncatula plays a predominant role in stress-induced proline accumulation during symbiotic nitrogen fixation. Journal of Plant Physiology, 170(3), 291–302. Crossref

Kominko, H., Gorazda, K., & Wzorek, Z. (2019). Potentiality of sewage sludge-based organo-mineral fertilizer production in poland considering nutrient value, heavy metal content and phytotoxicity for rapeseed crops. Journal of Environmental Management, 248(07), 109283. Crossref

Kumar, R., Bohra, J. S., Kumawat, N., Upadhyay, P. K., & Singh, A. K. (2018). Effect of balanced fertilization on production, quality and energy use efficiency of baby corn (Zea Mays) and soil health. The Indian Journal of Agricultural Sciences, 88(01), 28–34. Retrieved from Link

Lestari, E. G. (2015). Mechanism of tolerance and methods of select drought resistant plants. Jurnal Ilmiah Nasional: Berita Biologi, 8(3), 215-222. Retrieved from Link

Li, Z., Zhang, R., Xia, S., Wang, L., Liu, C., Zhang, R., Fan, Z., Chen, F., & Liu, Y. (2019). Interactions between N, P and K fertilizers affect the environment and the yield and quality of satsumas. Global Ecology and Conservation, 19(05), 1-13. Crossref

Loh S. K., James, S., Ngatiman, M., Cheong, K.Y., Choo, Y.M., & Lim, W.S. (2013). Enhancement of palm oil refinery waste - spent bleaching earth (SBE) into bio organic fertilizer and their effects on crop biomass growth. Industrial Crops and Products, 49(03), 775–781. Crossref

Mccauley, A. (2011). Plant nutrient functions and deficiency and toxicity symptoms visual symptoms as a diagnostic tool. Montana State University, (9), 1–16. Retrieved from Link

Merikhy, A., Heydari, A., Eskandari, H., & Nematollahzadeh, A. (2018). Revalorization of spent bleaching earth a waste from vegetable oil refinery plant by an efficient solvent extraction system. Waste and Biomass Valorization, 10(10), 3045-3055. Crossref

Mu, B., & Wang, A. (2019). Regeneration and recycling of spent bleaching earth. Handbook of Ecomaterials, 5, 3147–3167. Crossref

Ofori-Boateng, C., & Lee, K. T. (2013). Sustainable utilization of oil palm wastes for bioactive phytochemicals for the benefit of the oil palm and nutraceutical industries. Phytochemistry Reviews, 12(1), 173–190. Crossref

Onoja, E., Chandren. S., Razak, F. I. A., Mahat, N. A., & Wahab, R. A. (2019). Oil palm (Elaeis guineensis) biomass in Malaysia: the present and future prospects. Waste and Biomass Valorization, 10(8), 2099–2117. Crossref

Rosariastuti, M. R., Pramono, A., Ngadiman, & Prijambada, I. D. (2012). Peran rhizobakteri dalam fitoekstraksi logam berat kromium pada tanaman jagung. Jurnal Ecolab, 6(1), 1–60. Crossref

Prokopov, T., & Mechenov, G. (2013). Utilization of spent bleaching earth from vegetable oil processing. Ukrainian Food Journal, 2(4), 489–498. Retrieved from Link

Respati, E., Suwandi., Susanti. A. A., & Akbar. (2017). Outlook 2017: Komoditas pertanian sub sektor perkebunan kelapa sawit. Pusat Data dan Sistem Informasi Sekretariat Jenderal - Kementerian Pertanian. Jakarta. Retrieved from Link

Rizvi, A., & Khan, M. S. (2018). Heavy metal induced oxidative damage and root morphology alterations of maize (Zea mays L.) plants and stress mitigation by metal tolerant nitrogen fixing Azotobacter chroococcum. Ecotoxicology and Environmental Safety, 157(01), 9–20. Crossref

Rudani, K., Patel, V., & Prajapati, K. (2018). The importance of zinc in plant growth. International Research Journal of Natural and Applied Sciences, 5(2), 38–48. Retrieved from Link

Sharma, P. & Dubey, R. S. (2005). Lead toxicity in plant, Brazil Journal Plant Physiol, 17(1), 35–52. Link

Shehu, B. M., Lawan, B. A., Jibrin, J. M., Kamara, A. Y., Mohammed, I. B., Rurinda, J., Zingore, S., Craufurd, P., Vanlauwe, B., Adam, A. M., & Merckx, R. (2019). Balanced nutrient requirements for maize in the northern nigerian savanna: parameterization and validation of QUEFTS model. Field Crops Research, 241(07), 0378-4290. Crossref

Singh, M., Kumar, J., Singh, V. P., & Prasad, S. M. (2014). Proline and Salinity tolerance in plants. Biochemistry & Pharmacology, 3(6), 1-2. Crossref

Widyawati, Y., & Ufidian, D. (2017). Pengaruh penambahan spent bleaching earth pada minyak nyamplung untuk gemuk lumas. Jurnal Konversi, 6(1), 1-6. Link

Yahia, E. M., Carrillo-lópez, A., & Barrera, G. M. (2019). Chapter 3. photosynthesis. Postharvest Physiology and Biochemistry of Fruits and Vegetables, 3(1), 47-72. Crossref

Yan, A., & Chen, Z. (2019). Impacts of silver nanoparticles on plants : a focus on the phytotoxicity and underlying mechanism, International Journal Moleculer Sciences, 20(1003), 1–21. Crossref

Yang, S. L., Lan, S. S., & Gong, M. (2009). Hydrogen peroxide-induced proline and metabolic pathway of its accumulation in maize seedlings. Journal of Plant Physiology, 166(15), 1694–1699. Crossref