26 Selective Isolation and Antagonistic Activity of Actinomycetes from Mangrove Forest of Pahang Malaysia. Frontiers in Life Science. 9(1): 24- 31.

Adegboye, M. F., and O. O. Babalola. 2012. Taxonomy and Ecology of Antibiotic Producing Actinomycetes. African Journal of Agricultural Research.

7(15): 255-261.

Agrawal, T., and A. S. Kotasthane. 2012. Chitinolytic Assay of Indigenous Trichoderma Isolates Collected from Different Geographical Locations of Chhattisgarh In Central India. Journal Spinger Plus. 1(73): 1-10.

Akbar, R. A., D. Ryandini., dan D. F. Kusharyati. 2017. Potensi Aktinomisetes Asal Tanah Perakaran Mangrove Segara Anakan Cilacap Sebagai Penghasil Antifungi Terhadap Candida albicans. Journal of Tropical Biodiversity and Biotechnology. 2: 39-44.

Alimuddin., J. Widada., W. Asmara., and Mustofa. 2011. Antifungal Production of a Strain of Actinomycetes spp. Isolated from the Rhizosphere of Cajuput Plant: Selection and Detection of Exhibiting Activity Against Tested Fungi. Indonesian Journal of Biotechnology 1: 1-10.

Ambarwati., T. A. Sujono., L. Sembiring., dan S. Wahyuono. 2016. Aktivitas Antifungi Isolat Streptomyces yang Diisolasi dari Rizosfer Rumput Belulang (Eleusine indica). Jurnal Ilmu Kefarmasian Indonesia. 13(2):

221-228.

Amir, A. A. 2018. Aktivitas Antifungi Bakteri Kitinolitik Terhadap Cendawan Patogen. Skripsi. UIN Alauddin Makassar:Makasaar.

Anggraeini, W. 2015. Pengaruh pH Terhadap Aktivitas Enzim Kitinase Dari Isolat Actinomycetes Dengan Metode Somogyi-Nelson. Jurnal Ilmiah Pendidikan Fisika Al-BiRuNi. 4(2): 217-228.

Astuty. E. 2017. Isolasi dan Karakterisasi Morfologi Aktinomiset Indigenus Asal Tanah Gambut. Jurnal Ilmu Alam dan Lingkungan. 8(16): 7-15.

Azmul., Yusran., dan Irmasari. 2016. Sifat Kimia Tanah pada Berbagai Tipe Penggunaan Lahan di Sekitar Taman Nasional Lore Lindu (Studi Kasus Desa Toro Kecamatan Kulawi Kabupaten Sigi Sulawesi Tengah).

Jurnal WARTA RIMBA. 4(2): 24-31.

Baldrian, P. 2017. Forest Microbiome: Diversity, Complexity and Dynamics.

FEMS Microbiology Review. 41 (1): 109-130.

Banuett, F. 1995. Genetics of Ustilago mydis a Fungal Pathogen that Induces Tumors in Maize. Annual Review of Genetics. 29: 179-208.

Barka, E. A., P. Vasta., L. Sanchez., N. Gaveau-Vaillant., C. Jacquard., H. P.

Klenk., C. Clement., Y. Ouhdouch., G. P. V. Wazel.2016. Taxonomy, Phisiology and Natural Produsct of Actinobacteria. Microbiology and Moleuler Biology Reviews. 8(1): 1-43.

Barka, R. A., S. Z. Darus., S. Kulaseharan., and N. Jamaluddin. 2011. Effects of Ten Year Application of Empty Fruit Bunches In An Oil Palm Plantation On Soil Chemical Properties. Nutrient Cycling In Agroecosystems. 89(3): 341-349.

Brzezinska, M. S., U Jankiewicz., A. Burkowska., and M. Walczak. 2014.

Chitinolytic Microorganisms and Their Possible Application in Environmental Protection. Curr Microbiol. 68: 71-81.

Chang, S. C., J. T. Wang., P. Vandamme., J. H. Hwang., P. S. Chang., and W. M.

Chen. 2004. Chitinimonas taiwanensis Gen. Nov., sp. No., a Novel Chitinolytic Bacterium Isolated from a Freshwater Pond for Shrimp Culture. Journal System Applied Microbioliology. 27: 43-49.

Chatri, M. 2016. Pengantar Ilmu Penyakit Tumbuhan Edisi Pertama, Kencana, Jakarta.

Dean, R., J. A. V. Kan., Z. A. Pretorius., K. E. Hammond-Kosack., A. D. Pietro., P. D. Spanu., J. J. Rudd., M. Dickman., R. Kahmann., J. Ellis., and G.

D. Foster. 2012. The Top 10 Fungal Pathogens in Molecular Plant Pathology. Molecular Plant Pathology. 13(4):414-430.

Djaya, A. A., L. Supriati., dan S. M. Noor. 2015. Efektifitas Dosis Actinokompos Terhadap Penyakit Layu Fusarium dan Pertumbuhan Tanaman Tomat (Lycopersicum Esculentum Mill.).Jurnal AGRI PEAT. 16(2): 107-113.

Efron, S. E., and R. Ravid. 2019. Writing the Literature Review. The Guilford Press: New York.

Eisenlord, S. D., and D. R. Zak. 2010. Simulated Atmosphoric Nitrogen Deposition Alters Actinobacterial Community Composition in Forest Soils. Soil Biology and Biohemistry. 74(4): 1157-1166.

El-Tarabily, K. A., M. H. Soliman., A. H. Nasar., H. A. Al-Hassani., K.

Sivasithamparam., F. Mikenna., and G. E. S. J. Hardy. 2000.

Biological Control of Sclerotinia minor Using a Chitinolytic Bacterium and Actinomycetes. Plant Pathology. 49: 573-583.

Esteban, A. V., P. Martines-Hidalgo., and A. M. Hirsch. 2017. Chitinase Producing and their in Biocontrol Agents. AIMS Microbiology. 3(3):

689-705.

Farrasati, R., I. Pradiko., S. Rahutomo., E. S. Sutarta., H. Santoso., dan F.

Hidayat. 2019. C-Organik Tanah di Perkebunan Kelapa Sawit Sumatera Utara: Status dan Hubungan dengan Beberapa Sifat Kimia Tanah. Jurnal Tanah dan Iklim. 43(2): 157-165.

Gadelhak, G. G., K. A. El-Tarabily., and F. K. Al-Kaabi. 2005. Insect Control Using Chitinolytic Soil Actinomycetes as Biocontrol Agents.

International Journal of Agriculture and Biology. 7(4): 627-633.

Gao, X., N. Gulpiye., and M. Y. Wamg. 2010. Sreening of Plant Endophytic Actinomycetes Producing Chitinase and its Antagonistic Activity Sclerotinia sclerotiorum. Journal of Zhejiung University. 36: 615-622.

Gasmi, M., M. Kitouni., L. Carro., P. Pujic., P. Norwand., and H. Boubakri. 2019.

Chitinolytic Actinobacteria Isolated from an Algerian Semi-Arid Soil:

Development of an Antifungal Chitinase Dependent Assay and GH18 Chitinase Gene Identification. Annals of Microbiologi. p: 1-11.

George, M., A. Anjumol., G. George., and A. A. Mohamed-Hatha. 2012.

Distribution and Bioactive Potetntial of Soil Actinomycetes from Different Ecological Habitats. African Journal of Microbiology Research.

6(10): 2265-2271.

Golinska, P., and H. Dahm. 2011. Enzymatic Activity of Actinomycetes from the Genus Streptomyces Isolated from the Bulk Soil and Rhizosphere Of The Pinus Sylvestris. Dendrobiology. 65: 37-46.

Gupta, R., R. K. Saxena., P. Chaturvedi., and J. S. Virdi. 1995. Chitinase Production by Streptomyces viridificans its Potential in Fungal Cell Wall Lysis. Journal of Applied Bacteriology. 78: 378-383.

Habsy, B. A. 2017. Seni Memahami Penelitian Kualitatif dalam Bimbingan dan Konselinf: Studi Literatur. Jurnal Konseling Andi Matappa. 1(2): 90- 100.

Haggag, W. M., and E. G. Abdallh. 2012. Purification and Characterization of Chitinase Produced by Endophytic Streptomyces hygroscopicus Against Some Phytopathogens. Journal of Microbiology Research. 2(5):

145-151.

Haliza, W., dan M. T. Suhartono. 2012. Karakter Kitinase dari Mikroba. Buletin Teknologi Pascapanen Pertanian. 8(1): 1-14.

Hamid, R., A. K. Minhaj., M. Ahmad., M.M Ahmad., M. Z. Abidin., J. Musarrat., and S. Javed. 2013. Chitinases: An Update. Journal of Pharmacy and BioAllied Sciences. 5(1): 21-29.

Herdyastuti, N., T. J. Raharjo, Mudasir., dan S. Matjeh. 2009. Chitinase and Chitinolytic Microorganism: Isolation Characterization and Potential.

Indonesian Journal of Chemistry. 9(1): 37-47.

Inayah, M. N. 2020. Komunitas Aktinobakteri di Tanah Perkebunan Kelapa Sawit PTPN VI Jambi Berdasarkan Sekuens Amplikan Gen rRNA.

Skripsi. Sekolah Pascasarjana Institut Pertanian Bogor, Bogor.

Jeffrey, LSH, Norzaimawati, AN, & Rosnah H, 2011, Prescreening of Bioactivities from Actinomycetes Isolated from Forest Peat Soil of Sarawak, Journal Trop., Agric., and Fd Sc. 39(2): 245–253.

Jones, M, T. Huynh., C. Dekiwadia., F. Daver., and S. John. 2017. Mycelium Composites: A Review of Engineering Characteristic and Growth Kinetick. Journal of Bionanoscience. 11: 241-257.

Junedi, H. 2010. Perubahan Sifat Fisika Ultisol Akibat Konservasi Hutan Menjadi Lahan Pertanian. Jurnal Hidrolitan. 1(2): 10-14.

Kamil, Z., M. Rizk., M. Saleh., and S. Moustafa. 2007. Isolation and Identification of Rhizosphere Soil Chitinolytic Bacteria and Their Potential in Antifungal Biocontrol. Global Journal of Molecular Sciencens. 2(2): 57-66.

Khikmah, N., M. Sebastian., dan S. K. Rina. 2016. Isolasi, Seleksi, dan Indentifikasi Kapang Kitinolitik yang Diisolasi dari Tanah Pembuangan Limbah Udang dan Rhizosfer Solanaceae. Jurnal Biota.

1(1): 1-8.

Lee, Y. J., and B. K. Hwang. 2002. Diversity of Antifungal Actinomycetes in Various Vegetative Soils of Korea. Can. J. Microbiol. 48: 407-417.

Lee, C. H., B. J. Kim., G. J. Choi., K. Y. Cho., H. yang., C. Shin., S. Min., and Y.

Lim. 2002. Streptomyces With Antifungal Activity Against Rice Blast Causing Fungus Magnaporthe grisea. Journal Microbiology and Biotechnology. 12)6): 1026-1028.

Lestari., S. Mukarlina., dan R. Kurniatuhadi. 2019. Identifikasi dan Deteksi Aktivitas Daya Hambat Bakteri Actinomycetes yang diisolasi dari Tanah Gambut di Desa Tajok Kayong Kalimantan Barat. Jurnal Protobiont. 8(1): 13-19.

Li, Q., X. Chen., Y. Jiang., and C. Jiang. 2016. Morphological Identification of Actinobacteria. Actinobacteria–Basic and Biotechnological Applications, intech open.

Lim, P. H., J. A. Gansau., and K. P. Chong. 2018. Streptomyces spp. a Potential Biocontrol Agent Against Ganoderma boninense of Basal Stem Rot.

Journal of Oil Palm Research. 30(2): 265-275.

Maftuah, E., M. Alwi., dan M. Willis. 2005. Potensi Makrofauna Tanah Sebagai Bioindikator Kualitas Tanah Gambut. BIOSCIENTIAE. 2(1): 1-14.

Mahadevan, B., and D. L. Crawford. 1997. Properties of the Chitinase of the Antifungal Biocontrol Agent Streptomyces lydicus WYEC108. Enzyme and Microbial Technology. 20: 489-493.

Maritsa, H. 2019. Screening of Antagonistic Bacteria As Biocontrol Agent Against Ganoderma boninense. Joint Symposium On Plant Science and Products.

Miyadoh, S., dan M. Otoguro. 2004. Workshop on Isolation Methods and Classification of Actinomycetes. Bogor (ID): Biotechnology Center, LIPI.

Mori, M., M. Aoyama, S. Doi., A. Kanetoshi., and T. Hayashi. 1997. Antifungal Activity of Bark Extracts of Deciduous Trees. Holzs als Rohund Werkstoff Springer-Verlag. 55: 130-132.

Muthahanas, I., dan E. Listiana. 2008. Skrining Streptomyces sp. Isolat Lombok sebagai Pengendali Hayati Beberapa Jamur Patogen Tanaman.

CropAgro. 1(2): 130-136.

Nurhakim, D. S. 2019. Aktivitas Kitinolitik Actinobacteria Tanah Pmk (Podsolik Merah Kuning) Perkebunan Kelapa Sawit Muaro Jambi dalam Menghambat Colletotrichum gloeosporioides. Skripsi, Universitas Jambi, Jambi.

Nurjasmi, R., dan Suryani. 2017. Uji Antagonistik Actinomycetes Asal Limbah Bawang Merah terhadap Patogen Tanaman. Jurnal Ilmiah Respati Pertanian. 11(2): 718-722.

Nurjasmi, R., dan Suryani. 2018. Uji Daya Hambat Filtrat Zat Metabolit Actinomycetes Asal Hutan Pinus Gunung Bunder Bogor terhadap Pertumbuhan Curvularia sp. Secara In Vitro. Jurnal Ilmiah Respati.

9(2): 1-9.

Nurkanto, A. 2007. Identifikasi Aktinomisetes Tanah Hutan Pasca Kebakaran Bukit Bangkirai Kalimantan Timur dan Potensinya Sebagai Pendegradasi Selulosa dan Pelarut Fosfat. BIODIVERSITAS. 8(4): 314- 319.

Octaviana, V. 2019. Kemampuan Kitinolitik Actinobacteria Asal Hutan Harapan Provinsi Jambi terhadap Jamur Patogen Tanaman. Skripsi, Universitas Jambi, Jambi.

Oksana., M. Ifran., dan M. U. Huda. 2012. Pengaruh Alih Fungsi Lahan Hutan Menjadi Perkebunan Kelapa Sawit Terhadap Sifat Kimia Tanah. Jurnal Agroteknologi. 3(1): 29-34.

Pattanapipitpaisal, P., and R. Kamlandhamr. 2012. Screening of Chitinolytic Actinomycetes for Biological Control of Sclerotium roefsii Stem Rot Disease of Chili. Journal of Science and Technology. 34(4): 387-393.

Pithakkit, S.., V. Petcharat., S. C., Chaninun., and A. Sunpapao., 2015. Isolation of Antagonistic Actinomycetes Species From Rhizosphere as Effective Biocontrol Against Oil Palm Fungal Diseases. Walailak Journal of

Science And Technology. 12(5):481–490.

Prapagdee, B., C. Kuekulvong., and S. Mongkolsuk. 2008. Antifungal Potential of Extracellular Metabolites Produced by Streptomyces hyggroscopicus Against Phytopathogenic Fungi. International Journal of Biological Sciences. 4(5): 330-337.

Pratiwi, R. S., T. E. Susanto., Y. A. K. Wardani., dan A. Sutrisno. 2015. Enzim Kitinase dan Aplikasi di Bidang Industri. Jurnal Pangan dan Agroindustri. 3(3): 878–887.

Putri, A. L dan A. Nurkanto. 2016. Keragaman Aktinomisetes Asal Serasah dan Tanah Pulang Enggano Bengkulu. Berita Biologi. 15(3): 207-319.

Quecine, M. C., W. C. Araujo., J. Marcon., C. S. Gai., J. L. Azevecb., and A. A.

Pizzirani-Kleiner. 2008. Chitinolytic Activity of Endophytic Streptomyces and Potential for Biocontrol. Letters in Applied Microbiology. 47: 486-491.

Queendy. V, dan R. M. Rosedia. 2019. Aktivitas Antifungi Isolat Aktinomisetes Arboretum Universitas Riau Terhadap Jamur Fusarium Oxysporum F.Sp Lycopersici dan Ganoderma Boninense. AL-KAUNIYAH: Journal of Biology. 12(1): 73-88.

Raharini, A., R, Kawuri., dan K, Khalimi. 2012. Penggunaan Streptomyces sp.

Sebagai Biokontrol Penyakit Layu pada Tanaman Cabai Merah (Capsicum annuum L.) yang Disebabkan Oleh Fusarium oxysporum f.sp. capsici. AGROTROP. 2(2): 151-159.

Rahayu, M., dan Sumartini. 2017. Status Penyakit Utama pada Tanaman Kacang Tanah dan Kacang Hijau di Lahan Sub Optimal Jawa Timur.

Prosiding Seminar Hasil Penelitian Tanaman Aneka Kacang dan Umbi.

462-471.

Saragi, H. S. 2019. Potensi Kitinolitik Actinobacteria Asal Tanah Gambut Sebagai Penghambat Pertumbuhan Jamur Colletotrichum gleosporioides. Skripsi, Universitas Jambi, Jambi.

Sastrahidayat, I, R. 2014. Peranan Mikroba Bagi Kesehatan Tanaman dan Kelestarian Lingkungan. Malang: UB Press.

Sektiono, A. W., S. N. Kajariyah., dan S. Djauhari. 2016. Uji Antagonisme Actinomycetes Rhizosfer dan Endofit Akar Tanaman Cabai (Capsicum Frutescens L.) Terhadap Jamur Colletotrichum Capsici (Syd.) Bult Et Bisby . Jurnal HPT . 4(1): 17-23.

Shariffah-Muzaimah, S. A., A. S. Idris., A. Z. Madihah., O. Dzolkhifli., S.

Kamaruzzaman., and P. C. H. Cheong. 2015. Isolation of Actinomycetes from Rhizosphere of Oil Palm (Elais guineensis Jacq.) for Antagonism Against Ganoderma boninense. Journal of Oil Palm Research. 27(1): 19-29.

Shariffah-Muzaimah, S. A., A. S. Idris., A. Z. Madihah., O. Dzolkifli., S.

Kamaruzzaman., and M. Maizatul-Suriza. 2018. Characterization of Streptomyces spp. Isolated from the Rhizosphere of Oil Palm and Evaluation of their Ability to Suppress Basal Stem Rot Disease in Oil Palm Seedlings When Applied as Powder Formulations in a Glasshouse Trial. World Journal of Microbiology and Biotechnology.

34(15): 1-14.

Sharma, M., P. Dangi., and M. Choudhary. 2014. Actynomycetes: Source, Identification, and Their Applications. International Journal of Current Microbiology and Applied Sciences. 3(2): 801-832.

Sobianti, S., L. Soesanto., dan S. Hadi. 2020. Inventarisasi Jamur Patogen Tular Benih pada Lima Varietas Padi. Agricultural Journal. 3(1): 1-15.

Soeka, Y. S., E. Triana., dan N. Setianingrum. 2010. Aktivitas Aktinomisetes dari Bangka-Belitung Koleksi Bidang Mikrobiologi, Puslit Biologi- Lipi dalam Memproduksi Enzim Kitinase. Jurnal Teknik Lingkungan. 11(3):

417-423.

Soeka, Y. S., dan E. Triana. 2016. Pemanfaatan Limbah Kulit Udang untuk Menghasilkan Enzim Kitinase dari Streptomyces macrosporeus InaCC A454. Jurnal Kimia Terapan Indonesia. 18(1): 91-101.

Soeka, Y. S. 2015. Karakterisasi Enzim Kitinase dan Identifikasi Isolat Aktinomisetes KRC 21.D Berasal dari Kebun Raya Cibodas. PROS SEM NAS MASY BIODIV INDON. 1(5): 1156-1161.

Sonia, M. T., B. Hafedh., H. A bdennaceur., and G. Ali. 2011. Studies on the Ecology of Actinomycetes in an Agricultural Soil Amended with Organic Residues: II. Assessment of Enzymatic Activities of Actinomycetales Isolates.World J Microbiol Biotechnol. 27: 2251–2259.

Soares, A. C. F., C. D. S. Sousa., M. D. S. Garrido., J. O. Perez., and N. S. D.

Almoida. 2006. Soil Streptomycetes With In Vitro Activity Against The Yam Pathogens Curvularia Eragrostides And Colletotrichum Gloeosporioides. Brazilian Journal of Microbiology. 37: 456-461.

Sowmya B, Gomathi D, Kalaiselvi M, Ravikumar G, Arulraj C, Uma C. 2012.

Production and Purification of Chitinase by Streptomyces sp. from Soil.

J Adv Sci Res. 3(3): 25-29.

Sujarit, K., M. Mori., K. Dobashi., K. Shiomi., W. Pathom-Aree., and S. Lumyong.

2020. New Antimicrobial Phenyl Alkenoic Acids Isolated from an Oil Palm Rhizosphere-Associated Actinomycetes, Streptomyces palmae CMU-AB204. Microorganisms. 8: 1-15.

Sukalkar, S. R., T. A. Kadam., and H. J. Bhosale. 2018. Optimization of Chitinase Production from Streptomyces macrosporeus M1. Research Journal of Life Science, Bioinformatics, Pharmaceutical and Chemical Science. 4(1): 106-114.

Sunpapao, A., T. Chairin., and S. Ito. 2018. The Biocontrol by Streptomyces and Trichoderma of Leaf Spot Disease Caused by Curvularia oryzae in Oil Palm Seedlings. Biological Control. 1-31.

Suprapta, D. N. 2012. Potential of Microbial Antagonists Biocontrol Agents Against Plant Fungal Pathogens. Journal of The International Society for Sotheast. 18(2): 1-8.

Suryanto, D., R. H. Wibowo., E. B. M. Siregar., and E. Munir. 2012. A Possibility of Chitinolytic Bacteria Utilization to Control Basal Stems Disease Caused by Ganoderma boninense in Oil Palm Seedling. African Journal of Microbiology Research. 6(9): 2053-2059.

Taechowisan, T., J. F. Peberdy., and S. Lumyong. 2003. Chitinase Production by Endophytic Streptomyces aureofaciens CMUAc130 and its Antagonism Against Phytopathogenic Fungi. Annals of Microbiology. 53(4): 447-461.

Tan, C. J., K. C. How., P. P. Loh-Mia., A. Ismet., K. Getha., T. Seki., and S.

Vekineswary. 2002. Bioactivity of Selected Actinomycetes Against Ganoderma boninense. Asia Pacific Journal of Molecular Biology and Biotechnology. 10(2): 119-125.

Tang-um, J., and., H. Niamsup. 2012. Chitinase Production and Antifungal Potential of Endophytic Streptomyces Strain P4. Journal of Science and Technology. 6(01): 95-104.

Ting, A. S. Y., A. Hermanto., and K. L. Peh. 2014. Indegneous Actinomycetes from Empty Fruit Bunch Compost of Oil Palm: Evaluation on Enzymatic and Antagonistic Properties. Biocatalysis and Agricultural Biotechnology.

1-6.

Tsujibo, H., T. Okamoto., N. Hatano., K. Miyamoto., T. Watabane., M.

Mitsutomi., and Y. Inamori. 2000. Family 19 Chitinase from Streptomyces thermoviolaceus OPC-520: Molecular Cloning and Characterization. Bioscience, Biotechnology and Biochemistry. 64(11):

2445-2453.

Wang, Q., B. Duan., R. Yang., Y. Zhao., and L. Zhang. 2015. Screening and Identification of Chitinolytic Actinomycetes and Study on the Inhibitory Activity Against Turfgrass Root Rot Disease Fungi. Journal of Biosciences and Medicines. 3: 56-65.

Webster, J., dan R. W. S. Weber. 2007. Introduction to Fungi Thrid Edition. New York:Cambridge University Press.

Wink, J., F. Mohammadipanah., and J. Hamedi. 2017. Biology and Biotechnology of Actinobacteria. USA: Springer International Publishing.

Wonglom, P., N. Suwannarach., S. Lumyong., S. Ito., K. Matsui., and A.

Sunpapao. 2019. Streptomyces angustmyceticus NR8-2 as a Potential Microorganism for the Biological Control of Leaf Spots of Brassica rapa subsp. Pekinensis Caused by Colletotrichum sp. and Curvularia lunata.

Biological Control. 138: 1-7.

Yurnaliza., S. Margino., dan L. Sembiring. 2008. Kondisi Optimum untuk Produksi Kitinase dari Streptomyces Rkt5 dan Karakterisasi pH dan Suhu Enzim. Biota. 13(3): 169-174.

Yurnaliza., S. Margino., dan L. Sembiring. 2011. Kemampuan Kitinase Streptomyces Rkt5 Sebagai Antijamur terhadap Patogen Fusarium oxysporum. Jurnal Natur Indonesia. 14(1): 42-46.

Zain, N. M. ., R. B. Mohamad., K. Sijam., and Y. Awang. 2014. Isolation and Identification of Microorganism from Oil in a Young Oil Palm Plantation. Journal Food Agri and Environ. 12(3): 443-447.

Zenova, G. M., N. A. Manucharova., and D. G. Zuyagintsev. 2011. Extremophi;ic and Extremotolerant Actinomycetes in Different Soil Types. Eurasian Soil Science. 44(4): 457-478.

Zenova, G. M., A. A. Gryadunova., A. I. Pozdnyakov., and D. G. Zvyagintev.

2008. Aerobic and Microaerophilic Actinomycetes of Typical Agropeat and Peat Soils. Eurasian Soil Science. 41(2): 210-214.