Effect of Salt Content (NaCl) on the Antagonistic Power  of Gliocladium sp. in Inhibiting the growth of Fusarium  oxysporum f. sp. Cubense Causes Fusarium wilt in  Banana Plants

Muhammad Affan

doi:10.59651/cceria.v17i1.39

Authors

Muhammad Affan Universitas Brawijaya, Indonesia

DOI:

https://doi.org/10.59651/cceria.v17i1.39

Keywords:

Salt (Nacl), Antagonist Power, Fusarium Wilt Disease, Banana

Abstract

This study aims to determine the effect of salt/salinity (NaCl) levels on the growth of Gliocladium sp. (Colony area, dry weight and number of spores) and antagonistic activity of Gliocladium sp. in inhibiting Foc. The research was conducted at the Laboratory of Plant Diseases, Department of Plant Pests and Diseases, Faculty of Agriculture, University of Brawijaya. The stages in this study included counting colony area, sporulation and dry weight of Gliocladium sp. with single culture method, antagonism test between Gliocladium sp. and Foc with dual culture method. In the research stage to determine the effect of salt levels used NaCl, with concentrations of 0 gr/l, 4 gr/l, 8 gr/l, 12 gr/l and 16 gr/l. The design method used in this study was a completely randomized design (CRD). Banana plants can grow in tropical climates with a pH of 4.5-7. In banana cultivation there are several obstacles that can reduce banana production, the main obstacle is caused by the attack of the pathogen Fusarium oxysporum f. sp cubense (Foc) which causes banana plants to wilt. Efforts to control the attack of pathogenic Foc, can be done by utilizing the antagonistic fungus Gliocladium sp. The results showed that the colony area, sporulation and dry weight of Gliocladium sp. showed that overall growth increased with increasing salt content used, the results obtained were colony area, sporulation and dry weight of Gliocladium sp. The highest yield was found in the treatment with a concentration of salt content of 16 gr/l, with values of 4.184 cm2, 7.933 spores/ml and 0.132 gr respectively, while the antagonism test between Gliocladium sp. and Foc, the highest inhibition percentage of Gliocladium sp. occurred at a salt concentration of 16 gr/l of 45.556%. The research shows that the addition of NaCl to the media has a positive effect on Gliocladium sp.

References

Anonymous. 2006. Budidaya Tanaman pisang. Diunduh dari http://www.deptan.go.id/ditlinhorti/tan_buah/bud_pis.html Tanggal akses28 Juni 2006.

Alexopoulus, C. J. Mims, C. W dan Blackwell. 1979. Introductory Mycology, Fourth Edition. John Willey and Sons Inc. New York. 237 hal.

Astawan, I. M. 2006. Pemanfaatan Tanaman Pisang. Diunduh dari http://www.kompas.com. Tanggal akses 28 Juni 2006

Bills, G. F., Christensen, M. Powell, M dan Greg Thorn. 2009. Biodiversity of Fungi: Saprobic of Soil Fungi. Diunduh dari www.gigapedia.com tanggal akses 23 Juli 2009.

Cahyono, B. 1995. Pisang ; Budidaya dan analisis usaha tani. Penerbit Kanisius. Yokgakarta.

Cantrell, S. A. Martinez, L. C. dan Marirosa Molina. 2009. Characterization of fungi from hypersaline enviroments of solar salterns using morphologichal and molecular techniques. Diunduh dari http://www1.uprh.edu/salterns/PDF files/Cantrell%20et%20al%202006%20MycRes.pdf Tanggal akses 21 April 2009

Carlier, J. Waele, D. D dan J. V Escalant. 2002. Global Evalution of Musa Germplasm for Resistance to Fusarium Wilt, Mycosphaerella Leaf Spot Disease and Nematodes. International Plant Genetic Resources Institute France.

Cook, R. S. dan K. F. Baker. 1993. The Nature and Practice of Biological Control of Plant Pathogen. The American Phytopathological society. Minnessota. Corda. 2007. Glicladium spp. http://www.doctorfungus. org/thefungi/gliocladium.html / 2007 . tanggal akses 23 Agustus 2007.

Diazmunoz, Greetchen M. 2009. Fungal Diversity Present at a Hypersaline Enviroment in Cabo Rojo, Perto Rico Determined by Characterzation of isolates and Analysis of Enviromental rRNA Genes Clones Libraries. Diunduh dari http://grad.uprm.edu/tesis/diazmunoz.pdf Tanggl Akses 21 April 2009.

Domsch, K. H. Gams, W dan Traute Heidi Anderson. 1980. Compendium of Soil Fungi. Academic Press. USA Griffith, DH. 1994. Fungal Physiology. John Wiley & Sons, New York.

Hariyono. 2007. Uji Antagonis Beberapa Isolat Trichoderma sp. Secara In-vitro Terhadap Ganoderma sp Penyebab Penyakit Akar Merah Pada Akasia (Acacia mangium) Skripsi. Jurusan Hama Penyakit Tumbuhan. Fakultas Pertanian. Universitas Brawijaya. Malang.

Hassan, Abdel Latif A. Waafa dan Mohamed Haggag. 2009. Biocontrol potential of salinity tolerant mutants of Trichoderma harzianum against Fusarium oxysporum causing tomato wilt disease. Diunduh dari http://www.acgssr.org/BioTechnology/V8N1January2005/Full_Paper/005. pdf Tanggal akses 23 Juli 2009.

Hassan, S. A dan Saleem Shahzhad.2004. Effect of Sea Salt on In-vitro Growth of Sclerotinia sclerotiorum. Pak. J. Bot.36 (3): 677-682.

Hedge, B.A. dan S.M. Karande. 1978. Efficacy of Presowing Treatment of Sodium Chloride on The Incidence of Green Year Disease of Pennisetum typhoides (Burm.) Stapf. & Hubb. var. HB3. J. Plant & Soil. 49: 551-559

Hermanto, C., Nurhadi dan Sahlan. 1996. Buku Komoditas: Pisang. Balai Penelitian Tanaman Buah. Solok.

Highley T. L dan Richard J. L. 1988. Antagonism of Trichoderma spp. And Gliocladium virens Against Wood Decay Fungi. Mater org (Borl). 23: 157 – 169.

Jacobson, B. J dan P.A. Backman. 1993. Biological and Cultural Plant Disease Control: Alternative and Suplements Chemicals in IPM System. Plant Disease 77 (3) 311-315. http://rudyct.250x.com/sem1_012/ke1_012.htm.

Jones, D. R. 2000. Disease of Banana, Abaca and Enset. CABI Publhising. London. UK.

Kartikasari, Triwidya. 2004. Pengaruh Potensial osmotik media sintetik terhadap pertumbuhan Beubavaria bassiana dan patogenisitas pada larva Spodoptera litura. Skripsi. Jurusan HPT FP Universitas Brawijaya.

Soesanto, L. Prabowo, A K E dan Nur Prihatiningsih. 2006. Potensi Trichoderma harzianum dalam Mengendalikan sembilan isolat Fusarium oxysporum SCHLECT f. sp zingiberi Trujillo pada Kencur. Ind. J. I. Pert..8 (2): 76-84

Suharjono. Kurniati, T H. Soejono dan Susanti Dewi. 2004. Uji Antagonis Trichoderma sp. dan Gliocladium sp. Terhadap Penyebab Penyakit Layu pada Beberapa Jenis Tanaman Pisang di Kebun Raya Purwodadi secara invitro. Biota IX (2): 119-124.

Sulityowati, L dan P. J Keane. 1992 Effect of soil salinity and water content on stem rot caused by Phytophthora citrophthora and Accumulation of Phytoalexin in citrus Rootstocks. J. Phyto. Patho.82:771-777.

Winarsih, S. 2007. Seleksi Agens Pengendali Hayati Untuk Mengendalikan Penyakit Hawar Pelepah Daun Jagung Yang Ditanam Di Tanah Gambut. Diunduh dari http://himita.freehomepage.com/6sriwin/V1N3.html Tanggal akses 5 november 2007

Winkelman, Gunther dan Dennis R Winge. 1994. Mycology II: Metal Ions In Fungi. Marcel Dekker Inc. New York.

Yusuf, E. S, W, Nuryani danAsep, S. 2003. Gliocompost Berpeluang Menggantikan Fungisida Sintesis. Diunduh dari http://www.pustakadeptan.go.id/publ/warta/w251-10.htm. Tanggal akses 5 November 2007.

Zak, John C dan Howard G. Wildman. 2009. Biodiversity of Fungi: Fungi In Stressfull Enviroments. Diunduh dari www.gigapedia.com tanggal akses 23 Juli 2009.