Abstrak

Fosfor merupakan salah satu unsur makro nutrien yang dibutuhkan untuk perkembangan tumbuhan dan dapat dihasilkan oleh bakteri pelarut fosfat. Namun, keberadaan fosfat dalam tumbuhan tidak dapat digunakan oleh tumbuhan itu sendiri, sehingga dibutuhkan bantuan bakteri endofit yang berperan sebagai agen pemacu pertumbuhan tanaman yang dapat melarutkan fosfat pada tumbuhan, khususnya tumbuhan akar kuning (Arcangelisia flava (L.) Merr) yang tumbuh liar di Pulau Enggano, Provinsi Bengkulu. Tujuan penelitian ini untuk memperoleh bakteri endofit yang dapat melarutkan fosfat. Isolasi dilakukan dengan metode sterilisasi permukaan, menggunakan alkohol 70% dan natrium hipoklorit 5,25% lalu ditempelkan di media NA. Isolat yang diperoleh kemudian diuji kemampuan melarutkan fosfat dengan digoreskan ke media Pikovskaya, lalu diukur zona bening. Hasil penelitian menunjukkan dari 18 isolat bakteri endofit, 8 di antaranya dapat melarutkan fosfat. Isolat AKE15 dan AKE18 memiliki kemampuan lebih tinggi untuk melarutkan fosfat dengan indeks pelarut fosfat (IP) ± 1,59 dan ± 1,01. Identifikasi berdasarkan pewarnaan Gram dan uji biokimia dari 8 isolat bakteri endofit pelarut fosfat (BPF) memiliki kedekatan dengan 4 genus, yaitu Bacillus, Micrococcus, Pseudomonas, dan Morococcus.

Abstrak

Phosphorus is one of the macronutrients required for plant development and produced by phosphate solubilizing bacteria. However, plants are unable to utilize phosphate themselves, thus they need the help of endophytic bacteria that play role as plant growth-promoting with ability to solubilize phosphates in plants, particularly in yellow root plants (Arcangelisia flava (L.) Merr) that grow wildly in Enggano Island, Bengkulu Province. The research aimed to obtain endophytic bacteria that can solubilize phosphate. Isolation of endophytic bacteria was carried out by surface sterilization method using 70% alcohol and 5.25% sodium hypochlorite to be further placed on Nutrient Agar (NA) media. The isolates obtained were further tested for their ability to solubilize phosphate by streaking the isolate on Pikovskaya media and measuring the clear zones formed. The results showed that 8 out of 18 endophytic bacterial isolates were able to solubilize phosphate. Endophytic isolates of AKE15 and AKE18 were found to have higher ability to solubilize phosphate with a phosphate solubilizing index (IP) of about ± 1.59 and ± 1.01, respectively. Identification based on Gram staining and biochemical tests indicated that 8 endophytic bacterial solubilizing isolates were closely related to 4 genera, namely Bacillus, Micrococcus, Pseudomonas, and Morococcus. 

Adu-Tae, A. S. J. (2004). Efesiensi pemupukan fosfat dan hasil kacang tanah (Arachis hypogaea L.) varietas lokal Kupang Barat akibat pemberian pupuk fosfat, kotoran sapi, dan bakteri pelarut fosfat (Disertasi doktoral). Program Pascasarjana Universitas Padjadjaran Bandung, Bandung, Jawa Barat, Indonesia.

Alexander, M. (1977). Introduction to soil microbiology 2nd edition. New York: John Wiley and Sons.

Bacon, C. W., & Hinton, D. M. (2006). Bacterial endophytes: The endophyticniche, its occupants, and its utility. Plant Associated Bacteria. Netherland: Springer.

Baris, O., Demir, T., & Gulluce, M. (2017). Investigation of in vitro mineral forming bacterial isolates from supragingival calculus. Nigerian Journal of Clinical Practice, 20(12),1571-1575.

Barrow, G. I., & Feltham, R. K. A. (1993). Cowan and steel’s manual for the identification of medical bacteria. United Kingdom: Cambrige University Press.

Buchanan, R. E., & Gibbons, N. E. (1974). Bergey's manual of determinative bacteriology 8th ed. Baltimore: Williams & Wilkins.

Chen, Y. P., Rekha, P. D., Arun, A. B., Shen, F. T., Lai, W. A., & Young, C. C. (2006). Phosphate solubilizing bacteria from subtropical soil and their tricalcium phosphate solubilizing abilities. Journal Soil Ecology, 34, 33-41.

Dastager, S., Deepa, C. K., & Pandey, A. (2010). Isolation and characterization of novel plant growth promoting Micrococcus sp. NII-0909 and its interaction with cowpea. Plant Physiology and Biochemistry, 48(12), 987-992.

Desriani., Kusumawati, D. E., Rivai, A., Hasanah, N., Amrinola, W., Triratnal, L., & Sukma, A. (2013). Potential endophytic bacteria for increasing paddy var rojolele productivity. International Journal on Advanced Science, Engineering and Information Technology, 3(1), 76-78.

Desriani., Safira, U. M., Bintang, M., Rivai, A., & Lisdiyanti, P. (2014). Isolasi dan karakterisasi bakteri endofit dari tanaman binahong dan katepeng China. Jurnal Kesehatan Andalas, 3(2), 89-93.

Dwipayana., & Herto. (2009). Identification of bacterial diversity in waste recycling paint sludge by conventional microbiological technique. Bandung: LAPI ITB.

Fadhilah, N. F., Hasanah, U., & Idramsa. (2015). Karakterisasi bakteri endofit pelarut fosfat dari kulit batang tumbuhan raru (Cotylelobium melanoxylon). Jurnal Biosains, 1(1), 31-38. doi: 10.24114/jbio.vl1i1.5219.

Glickman, E., & Dessaux, Y. (1995). A critical examination of specificity of the salkowski reagent for indolic compounds produced by phytopathogenic bacteria. Applied and Environmental Microbiology Journal, 61(2), 793-796. doi: 10.1128/aem.61.2.793-796.1995.

Harni, R., Munif, A., Supramana., & Mustika, I. (2007). Pemanfaatan bakteri endofit untuk mengendalikan Nematoda peluka akar (Pratylenchus brachyurus) pada tanaman nilam. HAYATI Journal of Biosciences, 14(1), 7-12. doi: 10.4308/hjb.14.1.7.

Holt, J. G., Krig, N. R., Sneath, P., Staley, J., & Williams, S. (1994). Bergeys manual of determinative bacteriology 9th edition. Philadelphia USA: Lipincott Williams and Wilkins Company.

Jutono., Joedoro., Hartati, S., Kabirun, S., Suhadi., & Soesanto. (1978). Pedoman praktikum mikrobiologi umum untuk perguruan tinggi. Yogyakarta: Universitas Gajah Mada Press.

Khan, M. S., Zaidi, A., & Wani, P. A. (2007). Role of phosphate-solubilizing microorganisms in sustainable agriculture-a review.Agronomy for Sustainable Development Journal, 27(1), 29-43. doi: 10.1051/agro:2006011.

Lamb, T. G., Tonkyn, D. W., & Kluepfel, D. A. (1996). Movement of Pseudomonas aureofaciens from the rhizosphere to aerial plant tissue. Canadian Journal of Microbiology, 42, 1112–1120.

Lay. B. W. (1994). Analisis mikroba di laboratorium. Jakarta: PT. Raja Grafindo.

Mano, H., & Morisaki, H. (2008). Minireview: Endophytic bacteria in the rice plant. Microbes and Environments, 23(2), 109-117. doi: 10.1264/jsme2.23.109.

Maryanto, I., Hamidy, A., Keim, A. P., Sihotang, V. P. L., Lupiyaningdyah, P., Irham, M., & Ardiyani, M. (2015). Ekspedisi Pulau Enggano. Jakarta: LIPI Press.

Matos, A. D. M., Gomes, I. C. P., Nietsche, S., Xavier, A. A., Gomes, W. S., Neto, J. A. D. S., & Pereira. M. C. T. (2017). Phosphate solubilization by endophytic bacteria isolated from banana trees. Anais da Academia Brasileira de Ciências, 89(4), 2945-2954.

Palleroni, N. J. (1984). Bergey’s manual of systematic bacteriology, vol 1. Baltimore: Williams & Wilkins.

Pelczar, E. M., & Chan, E. (2005). Basic of microbiology. New York: Mc-Graw Hill Lange.

Premono, M. E., Moawad A. M., & Vlek, P. L. G. (1996). Effect of phosphate solubilizing Pseudomonas putida on the growth of maize and its survival in the rhizosphere. Indonesia. Journal Crop Science, 11, 13-23.

Purwaningsih, S. (2012). Isolasi, populasi, dan karakterisasi bakteri pelarut fosfat pada daerah perakaran dan tanah dari Bengkulu, Sumatra. Journal Teknik Lingkungan, 13(1), 101-108. doi: 10.29122/jtl.v13i1.1410.

Radu, S., & Kqueen, C. Y. (2002). Preliminary screening of endophytic fungi from medicinal plants in malaysia for antimicrobial and antitumor activity. Malaysian Journal of Medical Sciences, 9(2), 23-33.

Ryan, R. P., Germaine, K., Franks, A., Ryan, D. J., & Dowling, D. N. (2008). Minireview: Bacterial endophytes: Recent development and application. FEMS Microbiol Letter, 278(1), 1-9. doi: 10.1111/j.1574-6968.2007.00918.x.

Sastrahidayat, I. R. (2011). Fitopatologi (ilmu penyakit tumbuhan). Malang: Universitas Brawijaya Press.

Wandita, R. H., Pujiyanto, S., Suprihadi, A., & Hastuti, R. D. (2018). Isolasi dan karakterisasi bakteri endofit pelarut fosfat dan penghasil hidrogen cyanide (HCN) dari tanaman bawang merah (Allium cepa L). Jurnal Bioma, 20(1), 9-16. doi: 10.14710/bioma.20.1.9-16.

Widawati, S., & Suliasih. S. (2006). The population of phosphate solubilizing bacteria (PSB) from Cikaniki, Botol Mountain, and Ciptarasa Area, and the ability of psb to solubilize insoluble p in solid pikovskaya medium. Biodiversitas, Journal of Biological Diversity, 7, 109-113.

Yulianti, T. (2012). Menggali potensi endofit untuk meningkatkan kesehatan tanaman tebu mendukung peningkatan produksi gula. Perspektif, 11(2), 113-123.

Zaidi, A., Khan, M. S., Ahemad, M., & Oves, M. (2009). Plant growth promotion by phosphate solubilizing bacteria. Acta Microbiologica et Immunologica Hungarica, 56(3), 263-284. doi: 10.1556/AMicr.56.2009.3.6.