Keragaman dan Resistensi Antibiotik Isolat Bakteri Tanah di Dalam dan Luar TPU Bonoloyo, Surakarta Jawa Tengah
Yusnita Rahmawati(1), Triastuti Rahayu(2*), Erma Musbita Tyastuti(3), Yasir Sidiq(4)(1) Pendidikan Biologi, Fakultas Keguruan dan Ilmu Pendidikan, Universitas Muhammadiyah Surakarta
(2) Pendidikan Biologi, Fakultas Keguruan dan Ilmu Pendidikan, Universitas Muhammadiyah Surakarta
(3) Pendidikan Biologi, Fakultas Keguruan dan Ilmu Pendidikan, Universitas Muhammadiyah Surakarta
(4) Pendidikan Biologi, Fakultas Keguruan dan Ilmu Pendidikan, Universitas Muhammadiyah Surakarta
(*) Corresponding Author
Abstract
A cemetery acts as an active decomposition site and contains bacteria which most likely have antibiotic resistance. However, related data to the phenomenon is limited. This study aimed to compare the diversity of bacteria inside and outside the cemetery and examine bacterial antibiotic resistance. First, samples were collected from three different spots inside and outside the Bonoloyo public cemetery in Surakarta, Central Java. Then, the bacteria were isolated by spread plate method on NA medium and were observed using Gram staining after 48 hours of incubation. Also, bacterial resistance against cefepime, bacitracine, and ampicilin were examined. As the results, bacterial populations inside and outside the cemetery area are 3.4x106 and 4.6x106 CFU/gram, respectively, with a diversity of 38% and 34%, while 28% of isolates are collected from both areas. The result of morphological observation showed that 15 and 21 isolates are respectively round and irregular, white to yellow colour with raised (16 isolates) and flat (19 isolates) elevation. Gram staining showed 48 isolates are coccus and 2 are bacilli, with 23 isolates of Gram negative and 27 isolates of Gram positive. Bacterial isolates showed resistance against cefepime (50%-50%) and against bacitracine (52%-43%) each from both areas of the cemetery, while resistance against ampicilin was relatively low (33%-21%). The number of bacterial populations and bacterial diversity inside and outside the cemetery area are not significantly different. In fact, the resistance of the soil bacteria population collected from cemetery soil are higher than that collected from soil outside the cemetery.
Keywords
Full Text:
PDFReferences
Abia, A.L.K., Alisoltani, A., Ubomba-Jaswa, E., Dippenaar, M.A., 2019. Microbial life beyond the grave: 16S rRNA gene-based metagenomic analysis of bacteria diversity and their functional profiles in cemetery environments. Science of The Total Environment 655, 831–841.
Amaria, W., Kasim, N.N., Munif, A., 2019. Kelimpahan Populasi Bakteri Filosfer, Rizosfer, dan Endofit Tanaman Kemiri Sunan (Reutalis trisperma (Blanco) Airy Shaw), Serta Potensinya Sebagai Agens Biokontrol. Journal TABARO 3, 305–307.
Amatul-Samahah, M.A., Muthukrishnan, S., Omar, W.H.H.W., Ikhsan, N.F.M., Ina-Salwany, M.Y., 2020. Vibrio sp. associated with acute hepatopancreatic necrosis disease (AHPND) found in penaeid shrimp pond from east cost of peninsular Malaysia. JEB 41, 1160–1170.
Begum, A., Shilpi, R.Y., 2022. Analysis of antibiotic resistance of bacteria in the soil of Sundarbans mangrove forest, Bangladesh. International Journal of Advanced Research in Biological Sciences 9, 98–104.
Całkosiński, I., Płoneczka-Janeczko, K., Ostapska, M., Dudek, K., Gamian, A., Rypuła, K., 2015. Microbiological Analysis of Necrosols Collected from Urban Cemeteries in Poland. BioMed Research International 2015, 1–7.
Cappuccino, J.G., Sherman, N., 2014. Microbiology. Pearson, Lake Ave.
Caputo, D., Rattansingh, J., Hernandez, V., Nash, B., 2019. An analysis of soil microhabitats in Revolutionary War, Civil War, and modern graveyards on Long Island, NY 2, 1–5.
Christian, S., Irawati, W., 2019. Uji Resistensi Isolat Khamir Yang Diisolasi Dari Limbah Industri Di Rungkut, Surabaya, Indonesia. Bioeksperimen 5, 1–10.
Dent, B.B., Forbes, S.L., Stuart, B.H., 2004. Review of human decomposition processes in soil. Environmental Geology 45, 576–585.
Fineza, A.G., Marques, E.A.G., Bastos, R.K.X., Betim, L.S., 2014. Impacts on the Groundwater Quality Within a Cemetery Area in Southeast Brazil. S&R 37, 161–169.
Gofar, N., Munawar, M., Widjajanti, H., Mulya, A.P., 2014. Eksplorasi Bakteri Antagonis Asal Jaringan dan Rizosfer Tanaman Karet Untuk Menekan Pertumbuhan Bakteri Proteolitik Pada Bbahan Olahan Karet (Bokar). J, Tanah, Lingk, 16, 61.
Hindersah, R., Rachman, W., Fitriatin, B.N., Nursyamsi, D., 2018. Populasi Bakteri Dan Jamur Pada Rizosfer Caisim (Brassica juncea L.) Yang Ditanam Di Tanah Dikontaminasi Insektisida Organoklorin Setelah Aplikasi Konsorsia Mikroba Dan Kompos. Agrologia 3.
Indana, K., Effendi, M.H., 2020. Uji Resistensi Antibiotik Ampicillin Pada Bakteri Escherichia Coli Yang Di Isolasi Dari Beberapa Peternakan Di Surabaya 3.
Kazarina, A., Gerhards, G., Petersone-Gordina, E., Kimsis, J., Pole, I., Zole, E., Leonova, V., Ranka, R., 2019. Analysis of the bacterial communities in ancient human bones and burial soil samples: Tracing the impact of environmental bacteria. Journal of Archaeological Science 109, 104989.
Köhler, J.M., Beetz, N., Günther, P.M., Möller, F., Schüler, T., Cao, J., 2020. Microbial community types and signature-like soil bacterial patterns from fortified prehistoric hills of Thuringia (Germany). COMMUNITY ECOLOGY 21, 107–120.
Nugraheni, A.Y., Utami, M.S.P., Saputro, A.Y., 2021. Evaluasi Ketepatan Antibiotik pada Pasien Sepsis Evaluation of Antibiotic Therapy in Sepsis Patients. . ISSN 18.
Peraturan Pemerintah Republik Indonesia, 1987. Tentang Penyediaan dan Penggunaan Tanah Untuk Keperluan Tempat Pemakaman.
Putra, S.S., Rahayu, T., Tyastuti, E.M., 2023. Isolation and Characterization of Cambodian Tree Rhizospheric Bacteria (Plumeria acuminata) at Pracimaloyo TPU as a producer of IAA. BIOEDUSCIENCE 7.
Rahmadi, G., Wijatna, A.B., Satrio, 2014. Aplikasi Teknologi Isotop Alam untuk Analisis Pola Aliran Airtanah sebagai Studi Awal Pencemaran Airtanah yang Disebabkan Tempat Pemakaman Umum Kauman Kecamatan Demak. TEKNOFISIKA 3, 46–51.
Riasari, J.R., Sudarwanto, M.B., Indrawati, A., Latif, H., Krisnan, N.R., Pisestiyani, H., 2020. Resistensi Enterobacteriaceae Terhadap Antibiotik Asal Sisa Makanan dari Sampah Pesawat di Bandara Internasional Soekarno Hatta. Acta Vet Indones 8, 47–54.
Sahara, N., 2019. Populasi Fungi dan Bakteri Tanah Di Hutan Pegunungan dan Dataran Rendah Di Kawasan Taman Nasional Lore Lindu Sulawesi Tengah.
Üçisik, A.S., Rushbrook, P., 1998. The Impact of Cemeteries On The Environment And Public Health.
Utomo, M., Sabrina, T., Sudarsono, Lumbanraja, J., Rusman, B., Wawan, 2018. Ilmu Tanah. Prenada Media, Jakarta.
Van Boeckel, T.P., Gandra, S., Ashok, A., Caudron, Q., Grenfell, B.T., Levin, S.A., Laxminarayan, R., 2014. Global antibiotic consumption 2000 to 2010: an analysis of national pharmaceutical sales data. The Lancet Infectious Diseases 14, 742–750.
WHO Indonesia, 2022. Sekarang Saatnya Beraksi Menangkal Resistensi Antimikroba. WHO Indonesia. URL https://www.who.int/indonesia/id/news/detail/12-10-2022-time-to-act-to-curb-antimicrobial-resistance-now (accessed 4.26.23).
Wulansari, T., Sagita, D., Pratama, S., 2020. Uji Resistensi Antibiotik Terhadap Kultur Bakteri Enterobacter agglomerans di Ruang Intensive Care Unit (ICU) Rumah Sakit X Kota Jambi. Journal of Healthcare Technology and Medicine, Journal of Healthcare Technology and Medicine 6, 237–247.
Yayan, J., Ghebremedhin, B., Rasche, K., 2016. Cefepime shows good efficacy and no antibiotic resistance in pneumonia caused by Serratia marcescens and Proteus mirabilis – an observational study. BMC Pharmacol Toxicol 17, 10.
Z˙ ychowski, J., Bryndal, T., 2015. Impact of cemeteries on groundwater contamination by bacteria and viruses – a review. Journal of Water and Health 13, 285–301.
Article Metrics
Abstract view(s): 528 time(s)PDF: 619 time(s)
Refbacks
- There are currently no refbacks.