PENGGUNAAN ASAL BAHAN STEK DAN MACAM ZAT PENGATUR TUMBUH TERHADAP PERTUMBUHAN BIBIT Antigonon leptopus

Authors

  • Muhammad Rio Maulana

DOI:

https://doi.org/10.30595/agritech.v25i1.17106

Abstract

This study aims to determine how the effect of using cuttings and types of growth regulators on the growth of Antigonon leptopus. The research will be conducted from May 2022 to July 2022. The research will be conducted at the STIPER Yogyakarta Agricultural Research and Education Park located in Maguwoharjo Village, Sleman Regency, Depok District, Special Region of Yogyakarta. The research design used was a completely randomized design (CRD) which consisted of two factors. The first factor is the source of cuttings which includes 3 levels, namely upper, middle and lower cuttings. While the second factor is the type of growth regulator which consists of 3 levels, namely control, IBA and shallot extract. There were 9 combinations and 10 repetitions, for a total of 90 strains. The results of the study of the source of cutting material and the types of growth regulators showed that there was a significant interaction between plant fresh weight and root fresh weight Antigonon leptopus. The combined treatment of shoots and cuttings with IBA growth regulator and shallot infusion was better than other treatments. The origin of shoots and intermediate cuttings gave better growth than the base of the Antigonon leptopus seedlings. Planting material soaked with IBA growth regulator and shallot extract produced better growth compared to control seedlings Antigonon leptopus.

Keywords: Antigonon leptopus, IBA growth regulator, shallot extract.

References

Abidin, Z. 1985. Pengetahuan Dasar Zat Pengatur Tumbuh. Angkasa, Bandung

Adinugraha HA, Moko H, Cepi. 2006. Pertumbuhan stek pucuk sukun dengan aplikasi zat pengatur tumbuh. Jurnal Penelitian Perkebunan 3(2):93-99.

Aminah, H., Dick, J.M.P., Leakey, R.R.B., Grace, J., & Smith, R.I. (1995). Pengaruh indole butyric acid (IBA) pada stek batang Shorea leprosula. Ekologi dan Pengelolaan Hutan, 72(2–3), 199–206.

Apriliani, A., & Aneloi, Z. (2015). Pemberian Beberapa Jenis Dan Konsentrasi Auksin Untuk Menginduksi Perakaran Pada Stek Pucuk Bayur (Pterospermum javanicum Jungh.) Dalam Upaya Perbanyakan Revegetasi Tanaman Pengaruh Jenis Dan Konsentrasi Auksin Terhadap Induksi Akar Pucuk Apikal Ba. 4 (September), 178–187.

Bakti, D., Rusmarini, U.K., & Setyawati, E.R. (2018). Pengaruh Asal Bahan Tanam dan Jenis Auksin terhadap Pertumbuhan Turnera subulata. Jurnal Agromast, 3(1), 2–15. beasiswa Google

Dwidjoseputro. 1992. Introduction to Plant Physiology. PT. Gramedia Main Libraries: Jakarta

Eddie Purwanto, 2017. Leptopus antigonon plant.

Kusumono, S. 1990. Zat Pengatur Tumbuh Tanaman. Di Muswita. 2011. Konsentrasi Bawang Merah (Alium cepa L.) Terhadap Pertumbuhan Stek Gaharu (Aquilaria malaccencis Oken). Universitas Jambi. Jambi. Volume 13, Nomor 1. Hal 17.

Mangoendidjojo, W. 2003. Dasar-dasar Pemuliaan Tanaman. Di Muswita. 2011. Konsentrasi Bawang Merah (Alium cepa L.) Terhadap Pertumbuhan Stek Gaharu (Aquilaria malaccencis Oken). Universitas Jambi. Jambi. Volume 13, Nomor 1. Hal 17.

Marfirani, M. 2014. Pengaruh Pemberian Berbagai Konsentrasi Filtrat Umbi Bawang Merah dan Rootone-F Terhadap Pertumbuhan Stek Melati. Lentera Bio 3 (1) : 73-76.

Omon, MR, 2002, Pengaruh Hormon IBA terhadap Pertumbuhan Stek Shorea balangeran (Korth.) pada Media Air di Rumah Kaca Balai Penelitian dan Pengembangan Satwa Primata, Kalimantan Timur, Buletin Penelitian Kehutanan, vol. 14, nomor 1, hlm. 1-11

Prabawati, Ghanni, Siti Herlinda, Yulia Pujiastuti, Tili Karenina. 2017. Pemanfaatan tumbuhan berbunga liar untuk konservasi musuh alami serangga pada ekosistem kelapa sawit di lahan suboptimal di Sumatera Selatan. Jurnal Lahan Suboptimal, 6(1), 1-9.

Purwanti. 2008. Pengaruh Dosis Pupuk Majemuk dan Konsentrasi EM-4 terhadap Pertumbuhan Bibit Stek Tebu. Universitas Sebelas Maret. Surakarta.

Putri, K.A., Suwirmen, S., & Noli, Z.A. (2018). Tanggapan Berbagai Sumber Bahan Setek terhadap Kemampuan Perakaran Stek Alstonia scholaris (L) R. Br. sebagai Upaya Penyediaan Benih untuk Lahan Terdegradasi. Jurnal Biologi Unand, 5(1), 1. https://doi.org/10.25077/jbioua.5.1.1-5.2017

Rahayu E. Dan N. Berlian. 1999. Shallots. Self-help Spreader. Jakarta.

Santoso, Bambang B. 2010. Vegetative Breeding in Horticulture. FKIP Press. Mataram. https://bbsagriculture.com/books/. Retrieved December 1, 2021

Silaban, A., Titiaryani, N.M., Andayani, N., Agroteknologi, M.J., Pertanian, F., & Pertanian, D.F. (2022). Pengaruh Asal Bahan Graft dan ZPT Root up terhadap Pertumbuhan Antigonon leptopus. 1–9.

Siswanto, Sekta, R. (2004). Penggunaan auksin dan sitokinin alami pada pertumbuhan bibit cabai panjang.pdf.

Wattimena, G.A. 1988. Zat pengatur tumbuh pada tanaman. Laboratorium Pusat Kebudayaan Bioteknologi Antar Universitas IPB. Bogor.

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Published

2023-07-04

Issue

Vol. 25 No. 1 (2023): AGRITECH

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Articles

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