THE ROLE OF ARBUSCULAR MYCORRHIZAL FUNGY (SCLEROCYSTIS SP) AND LEVEL OF WATER SUPPLY TO PLANT GROWTH CITRONELLA GRASS (ANDROPOGON NARDUS L.) IN ULTISOL.
- Department of Agrotechnology, Faculty of Agriculture, Andalas University, Padang, Indonesia.
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Abstract
Citronella grass (Andropogon nardus L.) is an essential oil producing plant from the Gramineae. The research was conducted at the Greenhouse, Faculty of Agriculture, Universitas Andalas, Padang, from October 2017 to January 2018. The research aimed to obtain the best interaction between FMA Sclerocystis sp. and the level of water given, to get the best effect of the Sclerocystis sp. FMA, and to get the best effect of the level of water supply for the growth and yield of citronella grass. The study was arranged in Factorial in a Completely Randomized Design (CRD) consisting of 2 factors. The first factor was giving of FMA which consisted of two levels, namely without FMA and Sclerocystis sp. FMA. The second factor was the level of water supply which consists of 100%, 75%, and 50% field capacity. Each treatment was repeated 3 times. Data were analyzed by analysis of variance if F-count was greater than F-table, followed by DNMRT test at 5% level. The results showed that there was an interaction between the giving of FMA Sclerocystis sp 85 grams and the level of the water supply of 50% field capacity to the growth and yield of citronella grass. The combination was able also to increase canopy dry weight and root canopy ratio. The giving of FMA Sclerocystis sp affects the growth and yield of citronella grass. Giving the water level capacity for 100%, 75%, and 50% field capacity did not affect the growth and yield of citronella grass.
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References
- Ketaren S. 1985. PengantarTeknologiMinyakAtsiri. PN BalaiPustaka.
- Yuhono J.T dan Sintha S. 2006. Strategi Peningkatan Randeman dan Mutu Minyak dalam Agribisnis Nilam. Balai Penelitian Tanaman Obat dan Aromatik. Litbang Balitro.
- Henny Prianto, Rurini Retnowati dan Juswono. 2013. Isolasi dan Karakterisasi dari minyak bunga cengkeh (Syicigium aromaticum) kering hasil destilasi uap. Student Journal, Vol 1, no 2.pp 269-275. Universitas Brawijaya
- Kardian A. 2005. Tanaman Penghasil Minyak Atsiri Komoditas Wangi Penuh Potensi. Agro Media Pustaka. 64 hal
- Subagyo, H., N. Suharta, and AB Siswanto. 2004. Soil-Land Farms in Indonesia. P. BH 21-66.Dalam Prasetyo And Suriadikarta DA (Ed.). Characteristics, Potential, and Ultisol Land Management Technology for the Development of Dryland Agriculture in Indonesia. Journal of Agricultural Research, 25 (2), 2006. Bogor.
- 2015. Data ProduksiPadi, Jagung, danKedelaiProvinsi Lampung tahun 2014. BeritaResmiStatistik. Lampung.
- Prasetyo B.H danSuriadikarta D.A. 2006. Karakteristik, potensidanteknologipengolahantanahultisoluntukpengembanganpertanianlahankering di JurnalLitbangPertanian, 25(2).
- Smith S. E., dan Read. 2007. Mycorrhizal Symbiosis. Third Edition. New York: Academic.
- Budi SW, Kemala IF, Turjaman M. 2014. Pemanfaatan fungi mikoriza arbuskula (FMA) dan arang tempurung kelapa untuk meningkatkan pertumbuhan semai Gmelina arborea Dan Ochroma bicolor Rowlee. di persemaian. J.Silvikultur Trop 5 (1): 24-32
- Prayudyaningsih, R., Sari R. 2016. Aplikasi Fungi Mikoriza Arbuskula (FMA) dan Kompos Untuk Meningkatkan Pertumbuhan Semai Jati (Tectona grandis Linn f) Pada Media Tanah Bekas Tambang Kapur. Balai Penelitian Kehutanan Makassar. Jurnal Penelitian Kehutanan Wallacea Vol. 5: 37- 46.
- Prihastuti, 2007. Isolasi dan Karakterisasi Mikoriza Vesikular-Arbuskular Di Lahan Kering Masam, Lampung Tengah. Berk. Penel. Hayati: 12 (99-106).
- Anjum, S. A., X. Y. Xie., L. C. Wang., M. F. Salem., C. Man., and W. Lei. 2011. Morphologycal, physiological, and biochemical response of plant to drought stress. African J. of Agric. Res. 6(9): 2026 ? 2032.
- Setiadi Y dan A Setiawan 200 Studi Status Fungi Mikoriza Arbuskula di Areal Rehabilitasi Pasca Penambangan Nikel (Studi Kasus PT INCO Tbk. Sorowako, Sulawesi Selatan). J Silvikultur Tropika 3(1): 88-95.
- Husin, E.F., A. Syarif dan Kasli. 2012. Mikoriza sebagai pendukung system pertanian berkelanjutan dan berwawasan lingkungan. Andalas University Press. 99.
- Mosse, B. 1981. Vessicular Arbuscular Myicorricz research for trofical agriculture. Hawai Institute of Trofical agriculture and human resources. 77 pp.
- Supeni, S., Suharno, dan Bone, I.H. 2011. Endomikoriza yang berasosiasi dengan tanaman pertanian non-legum di lahan pertanian daerah transmigrasi Koya Barat, Kota Jayapura. Jurnal Biologi Papua. 3 (1): 1-8.
- Truck MA, Assaf TA, Hameed KM et al. 2006. Significance of mycorrhizae. World J AgriSci 2:16-20.
- Rengganis RD, Hasanah Y, Rahmawati N. 2014. Peran fungi mikoriza arbuskula dan pupuk rock fosfat terhadap pertumbuhan dan produksi kedelai (Glycine max (L.) Merrill). Jurnal Online Agroekoteknologi Vol. 2 No. 3 : 1087 ? 1093.
- Ketut S., Naniek Kohdrata Dan Nyoman S. Antara.2012. Budidaya dan Pasca Panen Tanaman Sereh (Cymbopogon Citratus (Dc.) Stapf.). Pusat Studi Ketahanan Pangan Universitas Udayana.
- Setiadi, Y. 1992. PemanfaatanMikorizadanKehutananPusatAntarUniversitas. Bioteknologi IPB. Bogor. 103p.
- Sagala, Y., Hanafiah A.S. and Razali. 2013. Peranan mikoriza terhadap pertumbuhan, serapan p dan cd tanaman Sawi (brassica juncea ) Serta kadar p dan cd andisol yang diberi pupuk fosfat alam.
- Gardner, F. P., Pearce R. B, and Mitchell, R. L, diterjemahkanolehSusilo, H danSubiyanto, 1991. FisiologiTanamanBudidaya. PenerbitUniversitas Indonesia Press. Jakarta.
- Cavagnaro TR, Bender SF, and Asghari RH. 2015. The role of arbuscula mycorrhizas in reducing soil nutrient loss. Trends in plant Sci 20(5):283-290.
- Hidayat, C. dan M. A. Salim, 2003. Studikeanekaragamancendawanmikorizaarbuskula di bawahtegakanhutantanaman industry. FakultasKehutananUniversitasWinayaMukti Bandung. Prosiding Seminar Mikoriz Bandung, hal:41-48.
- Sitompul, S. M. and B. Guritno. 1995. AnalisisPertumbuhanTanaman. Gajah Mada University press. Yogyakarta. 412 hal.
- Ashofie I and B. Prasetya. 2019. Effects of Application of Compost and Arbuscular Mycorrhiza to Gold Mine Tailings on Phosphorus Uptake and Growth of Sun Flower Plant J. Tanah dan Sumberdaya Lahan. 6(1) : 1133 ? 1144.
- 2014. Pengaruh FMA dan pupuk organik terhadap sifat kimia tanah dan pertumbuhan bunga matahari (Helianthus annuus L.) pada lahan kritis. Jurnal Biotik. 2 (1): 1-76.Jurnal Agroekoteknologi 2(1) : 487-500.
- Erona SM. 2016. Pertumbuhan bibit vanili (Vanilla planifolia ) terinokulasi fungi mikoriza arbuskula dan Trichoderma harziamun pada tanah ultisol. [Tesis]. Bogor (ID): Sekolah Pascasarjana, Institut Pertanian Bogor.
- Malini, H. and Jais, M. 2010. Aplikasi fungi mikoriza arbuskular (FMA) dan kompos untuk meningkatkan pertumbuhan semai jati (Tectona grandis Linn. F.) pada media tanah bekas tambang kapur. Universitas Suralaya
- Pattimahu, D, V. 2004.RestorasiLahanKritisPasca Tambang SesuaiKaidahEkologi. Makalah Mata KuliahFalsafahSains, SekolahPascaSarjana, IPB Bogor.
How to Cite This Article
N. Herawati, G. Rani, A. Armansyah and W. Warnita. (2019); THE ROLE OF ARBUSCULAR MYCORRHIZAL FUNGY (SCLEROCYSTIS SP) AND LEVEL OF WATER SUPPLY TO PLANT GROWTH CITRONELLA GRASS (ANDROPOGON NARDUS L.) IN ULTISOL., Int. J. of Adv. Res., 7 (10), 455-463, ISSN 2320-5407. DOI: https://doi.org/10.21474/IJAR01/9849
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