Perendaman Serat Batang Aren dengan NaOH sebagai Substrat Hidroponik Cabai Merah Besar

Yulfa Astuti Ika Sari, Dwi Harjoko, Retna Bandriyati Arniputri

Abstract

NaOH treatment is expected to can increased fiber tensile strength, therefore it is to become stronger and durable as substrate on hydroponic. This research aimed to study the growth and yield responses of chili, also fiber characteristic due to NaOH soaking treatment. This research was conducted on December 2018 to July 2019 at Greenhouse B and Laboratory of Plant Physiology and Biotechnology, Faculty of Agriculture, Universitas Sebelas Maret. This method used was Completely Randomized Design (CRD) that consisted of 2 factors and 3 replications. The first factor was NaOH concentration which consists 6 levels; 0%, 1%, 2%, 3%, 4% and 5%. The second factor was soaking duration which consists 4 levels; 0, 2, 4 and 8 hours. The results showed that NaOH treatment increased pH, bulk density, particle density and water holding capacity, however it is decreased macro pores on fiber. Treatment of 5% NaOH with 2 hours soaking duration decreased percent of fiber decomposed. Arenga wood fiber soaked on 2 hours duration increased root length. NaOH treatment decreased the number of fruits, weight fruit and weight of dried plant biomass, however treatment of 5% NaOH increased vitamin C content on fruit.

Keywords

Alkali treatment; Decomposition; Soilless culture; Vitamin C

Full Text:

PDF(ID)

References

Ahmed AF, Ahmed AF, Yu H, Yang X, Jiang W. 2014. Deficit irrigation affects growth , yield , vitamin c content , and irrigation deficit irrigation affects growth , yield , vitamin c content , and irrigation water use efficiency of hot pepper grown in soilless culture. HortScience.(June). doi: 10.21273/HORTSCI.49.6.722.

Arsyad M, Negeri P, Pandang U. 2018. Analisis pengaruh konsentrasi larutan alkali terhadap perubahan diameter serat sabut kelapa. Jurnal INTEK. 4(1): 10-13. doi: 10.31963/intek.v4i1.90.

Arsyad M, Wardana ING. 2015. The morphology of coconut fiber surface under chemical treatment. Revista Materia. 20 (1):169–177.

Barus Y, Ichwan B, Rinaldi. 2014. Pertumbuhan bibit duku (Lansium domesticum Corr.) pada berbagai komposisi media tumbuh. J Universitas Jambi Seri Sains 16(1):23-30. ISSN:0852-8349.

Dwiratna S, Suryadi E. 2017. Pengaruh lama waktu inkubasi dan dosis pupuk organik terhadap perubahan sifat fisik tanah inceptisol di jatinangor. J Agrotek Indones. 2(2):110–116.

Ertek A, Bolat S. 2016. Growth and yield of pepper (Capsicum annuum L.) under root zone restriction. Agric Res Technol Open Access J c. 2(5):143–149. doi: 10.19080/ARTOAJ.2016.02.555599.

Hakim L, Febrianto F. 2009. Karakteristik fisis papan komposit dari serat batang pisang (Musa Sp ) dengan perlakuan alkali. Peronema Forestry Science Journal. 1(1): 21-28.

Handayani T, Wahyuni D. 2016. Pengaruh sifat fisik tanah terhadap konduktivitas hidrolik jenuh pada lahan pertanian produktif di Desa Arang Limbung Kalimantan Barat. J Prisma Fisika 4(1):28-35. ISSN: 2337-8204.

Indarti D. 2015. Outlook komoditas pertanian subsektor hortikultura cabai. Leli Nurya. Pusat Data dan Sistem Informasi Pertanian.

Jamilah M, Dwiputranto U. 2016. Pertumbuhan cabai merah ( Capsicum annuum L .) pada tanah masam yang diinokulasi mikoriza vesikula arbuskula (MVA) Campuran dan Pupuk Fosfat. Biosfera. 33(1):37–45. doi: 10.20884/1.mib.2016.33.1.347.

Jayabal S, Sathiyamurthy S, Loganathan KT, Kalyanasundaram S. 2012. Effect of soaking time and concentration of NaOH solution on mechanical properties of coir – polyester composites. Bull. Mater Sci. 35(4):567–574.

Maryanti B, As A, Wahyudi S. 2011. Pengaruh Alkalisasi komposit serat kelapa-poliester terhadap kekuatan tarik. Jurnal Rekayasa Mesin. 2(2):123–129.

Muniroh S, Harjoko D, Sumiyati. 2015. Kombinasi jenis pasir dengan serat batang aren serta pengaruhnya terhadap pertumbuhan dan hasil tomat secara hidroponik substrat. Agrosains. 17(1):14–20.

Novia, Khairunnas, Purboyo GT. 2015. Pengaruh konsentrasi natrium hidroksida saat pretreatment dan waktu fermentasi terhadap kadar bioetanol dari daun nanas. J Tek Kim. 21(3):16–26.

Nugraha INP. 2011. Pengaruh perlakuan kimia serat alam ramie terhadap kekuatan tarik serat tunggal. JPTK, UNDIKSHA. 8(2):89–98.

Nugroho AW. 2013. Pengaruh komposisi media tanam terhadap pertumbuhan awal cemara udang (Casuarina equisetifolia var. Incana) pada gumuk pasir pantai. For Rehabil J. 1(1):113–125.

Nurcahyo A, Supriyoni, Purwanto. 2015. Pemanfaatan limbah cair aren untuk pupuk dengan berbagai starter dekomposisi terhadap pertumbuhan dan hasil jagung. Agrosains. 17(2):44–48.

Olle M, Ngouajio M, Siomos A. 2017. Vegetable quality and productivity as influenced by growing medium : A review Vegetable quality and productivity as influenced by growing medium : a review. Zembirbyste=Agriculture. 99(4): 399-408.

Prawiranata. 2011. Dasar-dasar fisiologi tumbuhan jilid II. Bogor: Institut Pertanian Bogor.

Purkuncoro AE. 2017. Pengaruh perlakuan alkali (naoh) serat ijuk ( arenga pinata ) terhadap kekuatan tarik. Transmisi. 13(2):167–178.

Purnomo J, Harjoko D, Sulistyo TD, Pertanian F, Maret US. 2016. Budidaya cabai rawit sistem hidroponik substrat dengan variasi media dan nutrisi 1 ). Caraka Tani. 31(2):129–136.

Riama G, Veranika A, Prasetyowati. 2012. Pengaruh H2O2, konsentrasi NaOH dan waktu terhadap derajat putih pulp dari mahkota nanAS. J Tek Kim. 18(3):25–34.

Rout AK, Kar J, Jesthi K, Kumar A. 2016. Effect of surface treatment on the physical, chemical , and mechanical properties of palm tree leaf stalk fibers. BioResources11(2):4432–4445.

Rusdiana O, Fakuara Y, Kusmana C, Hidayat Y. 2000. Respon pertumbuhan akar tanaman sengon ( Paraserianthes falcataria ) terhadap kepadatan dan kandungan air tanah podsolik merah kuning. J Manaj Hutan Trop. 6(2):43–53.

Setiati R, Wahyuningrum D, Siregar S, Marhaendrajana T. 2016. Optimasi pemisahan lignin ampas tebu dengan menggunakan natrium hidroksida. Ethos: Jurnal Peneliatian dan Pengabdian Masyarakat. 4(2): 257-264. doi: 10.29313/ethos.v0i0.1970.

Siaga E, Bernas SM, Lisda R, Kartika K, Laily I. 2017. Pertumbuhan dan hasil tanaman cabai ( Capsicum annum L .) pada sistem budidaya terapung Growth and yield of chilli pepper ( Capsicum annum L .) on floating culture system. Prosiding Seminar Nasional Lahan Suboptimal 2017, Palembang 19-20 Oktober 2017:978–979.

Sunardi, Lusiana R, Nugraha AY, Fawaid M. 2018. Perlakuan alkali pada serat tandan kosong kelapa sawit terhadap mutu papan partikel. SEMNAS SAINS&TERAPAN IV.(April):84–89. doi: 10.13140/RG.2.2.23830.80967.

Supriadi DR, Susila AD. 2018. Penetapan Kebutuhan Air Tanaman Cabai Merah ( Capsicum annuum L .) dan Cabai Rawit ( Capsicum frutescens L .). J Hort Indonesia 9(April):38–46.

Suvo TP, Biswas H, Jewel MH, Islam MS, Khan MSI. 2016. Impact of substrate on soilless tomato cultivation. Int. J. Agril. Res. Innov. & Tech. 6 (2): 82-86.

Vijitha R, Mahendran S. 2010. Effect of moisture stress at different growth stages of tomato plant (Lycopersicon esculentum Mill.) on yield and quality of fruitS. J SciUnivKelaniya. 5:1–11.

Wahome PK, Oseni TO, Masarirambi MT, Shongwe VD. 2011. Effects of Different hydroponics systems and growing media on the vegetative growth , yield and cut flower quality of gypsophila ( Gypsophila paniculata L .). Word Journal of Agricultural Sciences. 7(6):692–698.

Wei J, Liu G, Liu D, Chen Y. 2017. Influence of irrigation during the growth stage on yield and quality in mango (Mangifera indica L). PLoS ONE 12(4): e0174498. https://doi.org/10.1371/journal.pone.0174498.

Refbacks

  • There are currently no refbacks.