Isolasi dan Karakterisasi Bakteri Tanah Sawah di Kecamatan Medan Satria dan Bekasi Utara, Kota Bekasi, Jawa Barat
DOI:
https://doi.org/10.36722/sst.v3i4.233Abstract
Abstrak - Produksi padi di Indonesia setiap tahun mengalami peningkatan, namun peningkatan ini belum mampu memenuhi kebutuhan nasional sehingga impor masih harus dilakukan. Salah satu masalah dalam produksi beras adalah penggunaan pupuk berlebih yang tidak hanya meningkatkan biaya produksi, namun juga merusak kondisi tanah. Aplikasi bakteri tanah sebagai Plant Growth Promoting Rhizobacteria (PGPR) dapat menjadi salah satu solusi terhadap masalah ini. Penelitian ini bertujuan untuk mengisolasi bakteri tanah dari 3 lokasi sawah daerah Bekasi, membandingkan keberadaan total bakteri pada ketiga lokasi tersebut, dan melakukan karakterisasi isolat berdasarkan karakter yang dapat memicu pertumbuhan tanaman. Dari ketiga lokasi, diperoleh total 59 isolat dan 5 diantaranya berpotensi sebagai PGPR karena kemampuan fiksasi Nitrogen, melarutkan Fosfat, katalase positif, dan motil. Dari ketiga lokasi pengambilan sampel, BK1 memiliki jumlah total bakteri terendah karena aplikasi pemupukan dan pestisida berlebih yang ditandai tingginya kadar P total, serta tingginya residu klorpirifos, karbofuran, dan paration. Kondisi fisik tanah BK1 juga didominasi partikel liat yang menyebabkan tanah menjadi lebih padat. Peningkatan jumlah penggunaan pupuk tidak selalu diikuti peningkatan produktivitas tanaman.
Â
Kata Kunci - Bakteri tanah, Rhizosfer sawah, PGPR, Pupuk Hayati
Â
Abstract - Rice production in Indonesia has increased annually, but this increase has not reached national demand,so imports still done. One of the problems in rice production is the use of excessive fertilizers that not only increase production costs, but also decreased the soil conditions. The application of soil bacteria as Plant Growth Promoting Rhizobacteria (PGPR) can be the one solution to face this problem. The objective of this study was isolate soil bacteria from 3 locations of rice field in Bekasi, compare the total bacteria in the three locations, and characterize isolates based on the character that can promote plant growth. From three locations, a total of 59 isolates were obtained and 5 of them were potential as a PGPRs due to its Nitrogen fixation activity, Phosphate solubilization, positive catalase, and motility. From three sampling sites, BK1 has the lowest TPC value because of excessive fertilizers and pesticides application which indicated by high total P levels, and also high chlorpyrifos, carbofuran and paration residues. The physical condition of BK1 soil is also dominated by clay particles which causes the soil more solid. Increasing of fertilizer application is not always followed by increased plant productivity.
Â
Keywords - Biofertilizer, PGPR, Rice field rhizosphere, Soil Bacteria
References
[BPS]. Badan Pusat Statistik. 2016. Berita Resmi Statistik Badan Pusat Statistik. Produksi padi, jagung, dan kedelai tahun 2015 No. 62/07/Th. XIX, 1 Juli 2016.
[Pusdatin]. Pusat Data dan Sistem Informasi Pertanian. 2014. Buletin Konsumsi Pangan 5(1): 1-59.
[ILPPD]. Informasi Laporan Penyelenggaraan Pemerintahan Daerah. 2014. Informasi Laporan Penyelenggaraan Pemerintahan Daerah Kota Bekasi Tahun 2014. http://bekasikota.go.id/files/fck/ILPPD%202014_%281%29.pdf (Diakses pada 04 Nopember 2015).
De-la-Peña C, Loyola-Vargas VM. 2014. Biotic Interactions in the Rhizosphere: A Diverse Cooperative Enterprise for Plant Productivity. Plant Physiology 166: 701–719
Figueiredo MVB, Seldin L, Araujo FF, Mariano RLR. 2010. Plant growth promoting rhizobacteria: fundamentals and applications. Di dalam Plant Growth and Health Promoting Bacteria, DK. Maheshwari (ed.), Microbiol Monographs 18: 21-43, Springer-Verlag Berlin.
Vacheron J, Desbrosses G, Bouffaud ML, Touraine B, Moënne-Loccoz Y, Muller D, Legendre L, Wisniewski-Dyé F, Prigent-Combaret C. 2013. Plant growth-promoting rhizobacteria and root system functioning. Frontier plant sci 4(356): 1-19.
Nareswari D. 2008. Populasi mikrob fungsional pada budidaya S.R.I (system of rice intensification) [skripsi]. Bogor: Institut Pertanian Bogor.
Paramitha AP. 2011. Keanekaragaman mikrob fungsional pada perakaran tebu transgenik IPB 1 di lahan percobaan PG Djatiroto PTPN XI, Lumajang, Jawa Timur [skripsi]. Bogor: Institut Pertanian Bogor.
Marista E, Khotimah S, Linda R. 2013. Bakteri pelarut fosfat hasil isolasi dari tiga jenis tanah rizosfer tanaman pisang nipah (Musa paradisiaca var. nipah) di Kota Singkawang. J. Protobiont. 2 (2): 93 – 101.
Nurmegawati, Makruf E. 2013. Analisis tanah sebagai indikator tingkat kesuburan lahan sawah di Provinsi Bengkulu. Prosiding Inovasi Teknologi Ramah Lingkungan 2013.
Raipuria N, Paroha S, Parveen R. 2013. Isolation of micro-organism from rice fields of Jabalpur region. Ann Exp Biol. 1 (1): 15-20.
Himedia. Jensen’s Medium (M710) Technical Data. HiMedia Laboratories Pvt. Ltd. 2011.
Himedia. Pikovskayas Agar (M520) Technical Data. HiMedia Laboratories Pvt. Ltd. 2011.
Powers EM. 1995. Efficacy of the ryu nonstaining KOH technique for rapidly determining gram reactions of food-borne and waterborne bacteria and yeasts. Appl Environ Microbiol. 61 (10): 3756-3758
Hidayat R, Alhadi F. 2012. Identifikasi Streptococcus equi dari Kuda yang Diduga Menderita Strangles. J. Ilmu Pertanian Indonesia. 17 (3) : 199 -203.
Taiz L, Zeiger E. 2010. Plant Physiology 5 ed. Sunderland, Massachusetts: Sinauer Associates Inc., Publishers
Chau JF, Bagtzoglou AC, Willig MR. 2011. The effect of soil textureon richness and diversity of bacterial community. Environ Forensic 12: 333-341.
Ge, S., Xu, H., Ji, M., & Jiang, Y. (2013). Characteristics of soil organic Carbon, total Nitrogen, and C/N ratio in Chinese apple orchards. Open Journal of Soil Science, 3, 213-217
Fulton A, et al. 2010. Primary Plant Nutrient: Nitrogen, Phosporus, and Potassium http://cetehama.ucanr.edu/newsletters/Soil_Testing_Articles by_Allan_Fulton39345.pdf
Supreeth M, Chandrashekar MA, Sachin N, Raju NS. 2016. Effect of chlorpyrifos on soil microbial diversity and its biotransformation by Streptomyces sp. HP-11. 3 Biotech 6(147): 1-6
Jacobsen CS, Hjelmsø MH. 2014. Agricultural soils, pesticides and microbial diversity. Curr Opin Biotechnol 27:15 –20.
Sari R dan Prayudyaningsih R. 2015. Rhizobium: pemanfaatannya sebagai bakteri penambat nitrogen. Info Teknis Eboni, Vol. 2(1): 51-56.
Sharma SB, Sayyed RZ, Trivedi MH, Gobi TA. 2013. Phosphate solubilizing microbes: sustainable approach for managing phosphorus deficiency in agricultural soils [review]. Springer Plus. 2 (587): 1-14.
Suliasih, Rahmat. 2006. Aktivitas fosfatase dan pelarutan kalsium fosfat oleh beberapa bakteri pelarut fosfat. Biodiversitas. 8 (1): 23-26