KnE Life Sciences
ISSN: 2413-0877
The latest conference proceedings on life sciences, medicine and pharmacology.
Isolation and Characterization of Indigenous AMF on Dry Land in Central Lombok
Published date:Jun 07 2022
Journal Title: KnE Life Sciences
Issue title: The First Asian PGPR Indonesian Chapter International e-Conference 2021
Pages:487–496
Authors:
Abstract:
This research aimed to determine the diversity of FMA species in dry land that would produce an isolate of West Nusa Tenggara (NTB). The long-term goal was to create bio-fertilizer from arbuscular fungi which is inexpensive and has the potential to increase agricultural production, particularly soybean production, in NTB dry land. The methods included a preliminary survey, isolation and morphological identification in Mataram University’s microbiology laboratory, and exploration of indigenous AMF in the root rhizosphere of legume and corn plants, which took place in the Pujut subdistrict. Three mycorrhiza mushroom genera with high AMF spore density were found, specifically Glomus sp., Gigaspora sp. and Acaulospora sp.
Keywords: Mycorrhiza mushroom, dryland, soybean, production
References:
[1] Permono. Potensi lahan kering nusa tenggara barat untuk produksi benih kedelai. 2015. Available from: http//nokukuh wordpress.com. Diakses tanggal 12 Mei 2017
[2] Sihombing T. Indonesia gagal swasembada kedelai. Industribisnis; 2015. Available from: http;//industribisnis.com , Diakses 5 Mei 2015
[3] Dinas Pertanian dan Perkebunan Nusa Tenggara Barat. Koordinasi bidang pangan dan perkebunan. Mataram Nusa Tenggara Barat. 2019; Narmada, West Lombok
[4] Wibawa LA, Sjah T, Maryati S. Analisis pendapatan usahatani kedelai di Kabupaten Lombok Tengah. . Diakses 23 Juni 2020. url http:/ /eprints. unram.ac.id. .JURNAL
[5] Mushafa MK, Aini LQ, Prasetya B. Peran mikoriza arbuskula dan bakteri Pseudomonas fluorescens dalam meningkatkan serapan P dan pertumbuhan tanaman jagung pada andisol. Fakultas Pertanian, Universitas Brawijaya. Jurnal Tanah dan Sumberdaya Lahan. 2015;2(2):191-197.
[6] Purba R. Kajian aplikasi pupuk hayati pada tanaman padi sawah di Banten. Prosiding Seminar Nasional Masyarakat Biodiversity Indonesia. 2015;1(6):1524-1527.
[7] Kesaulya H, Baharuddin B, Zakaria, Z., Syaiful SA. Morphological characteristic potato (Solanum tuberosum L) variety hartapel origin South Buru Moluccas. International Journal of Current Research in Biosciences and Plant Biology. 2015;2(2):15-21.
[8] Widiastuti H. Biologi interaksi cendawan mikoriza arbuaskular kelapa sawit pada tanah masam sebagai dasar pengembangan tehnologi aplikasi dini (ringkasan disertasi). Sekolah Pascasarjana. Bogor: Institut Pertanian; 2004.
[9] Proborini WM. Pemanfaatan endomikoriza indigenus dari lahan kering di bali untuk memacu pertumbuhan bibit mente (Dissertation). Fakultas Pertanian Universitas Udayana Denpasar; 2013.
[10] Armini, Wirawan W, Wijaya. Identifikasi mikoriza arbuaskular indegenus dari rhizosfer bawang merah (Allium cepa L) dan talas (Colocasean esculenta (L) Schott) serta perbanyakan menggunakan media zeolit. e-Jurnal Agroekoteknologo Tropika.2015;4(4):324-333.
[11] Delvian, L.C. Keberadaan cendawan mikoriza arbuaskular (CMA) di hutan pantai berdasarkan gradien salinitas. Jurnal Ilmu Dasar. 2010;11(2):133-142.
[12] Schüßler, A. & Walker, C.The Glomeromycota: A species list of with new families and new genera. 2010. http://www.amf-phylogeny.com/ species_ infos /highertaxa -/funneliformisclaroideoglomus_rhizophagus_redeckera.pdf (Diakses tanggal 14 Februari 2019).
[13] Schüßler A, Scwarzott ,D., Walker C. A. New fungal phylum, the glomeromycota: Phylogeny and evolution. Mycological Research. 2001;105:1413-1421.
[14] Brundrett, M.,Bougher MN, Dell B, Grove,T., Malajczulk TN. Working with mycorrhizas in forestry and agriculture. The Australian Centre for International Agriculture Research (ACIAR), Monograph. 2008; Monograph 32 pp 374
[15] Proborini WM, Yusup DS. Study on the distribution of endomycorrhizal fungi in some species root-plants in Bali. Online Journal of Biological Science. 2017;17(4):415–419.
[16] Danesh YR, Goltapeh EM, Varma A, Mukerjii KG. Arbuscular-mycorrhizal fungi associated with alfafa rhizosphere in Iran. American-Eurasian. Jurnal Agric and Environ Sci. 2007;2(5):574-580.
[17] Hartoyo B, Ghulamahdi LK, Darusman SA, Aziz, SA.,Mansur I. Keanekaragaman fungi mikoriza arbuskula (FMA) pada rizosfer tanaman pegagan (Centella asiatica L). Urban. J.Centella asiatica (L) 2011;17(1):32- 40.
[18] Musfal. M.Potensi cendawan mikoriza arbuaskular untuk meningkatkan hasil tanaman jagung. Balai Pengkajian Teknologi Pertanian Sumatera Utara. 2010;29(4):154- 158.
[19] Bekovskal P, Bonkowski M, Konvalinkoval T et al. Utilization of organic nitrogen by arbuscular mycorrhizal fungi. Springer Nature. 2018;28(3):269-283.
[20] Guadarrama, P., Castillo, S., Ramos-Zapata, J.A and Hernandez-Cueves, L.V. Arbuscular Guadarrama, P., S. Castillo, J.A. Ramos-Zapata and L.V. HernandezCueves. Arbuscular Mycorrhizal Fungal Communities in Changing Environments: The Effect of Seasonality and Anthropogenic Disturbance in a Seasonal Dry Forest. Pedobiologia, 2014..J. of Soil Biology. 5 (7) : 87-95.
[21] Musfal. Potensi Cendawan Mikoriza Arbuaskular Untuk Meningkatkan HasiTanaman Jagung. Balai Pengkajian Teknologi Pertanian Sumatera Utara. 2010. 29(4):154- 158
[22] Bukovska, P., Bonkowski, M., Konvalinkova, T., Beskid, O., Hujslova, M., Puschel, D. Utilization of Organic Nitrogen by Arbuscular Mycorrhizal Fungi-is there a specific Role for Protists and Ammonia Oxidezers, Mycorrhiza.2018. 28:269-283
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