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Menara Perkebunan

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Published by Pusat Penelitian Kelapa Sawit

ISSN : 01259318 EISSN : 18583768 DOI : -

Core Subject : Agriculture,

Agriculture, Biological Sciences & Forestry

Menara Perkebunan as a communication medium for research in estate crops published articles covering original research result on the pre- and post-harvest biotechnology of estate crops. The contents of the articles should be directed for solving the problems of production and/or processing of estate crops of smallholder, private plantations and state-owned estates, based on the three dedications of plantation. Analyses of innovative research methods and techniques in biotechnology, which are important for advancing agricultural research. Critical scientific reviews of research result in agricultural and estate biotechnology.

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Transformation of Coffee arabica using chitinase gene and regeneration of planlets from transformed-zygotic embryos Transformasi Coffea arabica menggunakan gen kitinase dan regenerasi planlet dari embrio zigotik-transforman Asmini BUDIANI; T CHAIDAMSARI; . PRIYONO; S MAWARDI; . SISWANTO
E-Journal Menara Perkebunan Vol 68, No 2: Desember 2000
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

RingkasanRekayasa genetika kopi arabika tahan penyakit cendawan dapat dilakukan dengan cara memasukkan gen kitinase (gen chi) ke dalam genom tanaman tersebut. Penelitian ini bertujuan untuk mengintroduksikan gen chi pada kopi arabika serta meregenerasi eksplan yang ditransformasi menjadi plantlet. Gen chi disubkloning dari pBS G11 ke dalam plasmid pCAMBIA2301. Melalui Agrobacterium tumefaciens, plasmid rekombinan pCAMBIA2301/35s-chi kemudian dimasukkan ke dalam eksplan daun dan embrio zigotik kopi arabika. Eksplan daun transforman ditumbuhkan pada media seleksi yang mengandung kanamisin untuk induksi kalus embriogenik . Beberapa kombinasi 2,4-D dan dicamba serta kinetin, BAP dan 2-iP diuji kemampuannya untuk menginduksi terbentuknya kalus embriogenik. Embrio zigotik transforman ditumbuhkan pada media MS modifikasi yang mengandung kanamisin. Hasil penelitian menunjukkan bahwa perbedaan tipe sitokinin dan kombinasinya dengan 2,4-D atau dicamba. menyebabkan terjadinya variasi persentase pembentukan kalus embriogenik tahan kanamisin. Penambahan 100 mg/L kanamisin dalam media seleksi cukup efektif untuk menghambat pertumbuhan eksplan daun nontransforman. Persentase tertinggi induksi kalus embriogenik pada eksplan daun non transforman maupun transforman diperoleh pada media yang mengandung 5 mM 2,4- D dengan 5 mM of kinetin atau 5 mg/L dicamba dengan 5 mM BAP. Sedangkan dalam media dengan penambahan 5 mM kinetin, 100 mg/L asam sitrat dan 100 ppm asam askorbat, jumlah eksplan yang membentuk kalus mencapai optimum pada konsentrasi 0 dan 1 ppm dicamba untuk eksplan transforman dan 10 mg/L dicamba untuk non transforman. Pada eksplan embrio zigotik transforman, peningkatan konsentrasi kanamisin dari 100 mg/L hingga 500 ppm menurunkan persentase pengecambahan embrio dari 80.5 % menjadi 49%, persentase perakaran, dari 34 % menjadi 16%, jumlah akar, panjang akar dan tinggi tunas dari 7 mm menjadi 4 mm. Pada semua perlakuan kanamisin, embrio zigotik non transforman tidak membentuk akar dan pada umur kultur yang sama tunas yang dihasilkan lebih pendek dibandingkan dengan embrio-zigotik transforman. Hasil tersebut membuktikan bahwa gen ketahanan terhadap kanamisin (NPTII) telah terinsersi dan terekspresi dengan baik pada plantlet kopi arabika yang berasal dari eksplan embrio-zigotik transforman. Karena gen chi dikonstruksi dalam satu vektor dengan NPTII, maka diharapkan gen tersebut juga telah terinsersi ke dalam genom tanaman kopi.SummaryGenetic engineering of arabica coffee resistant to fungal diseases might be done by introducing a chitinase-encoding gene (chi) into genome of this plant. This research was aimed to introduce chi construct into arabica coffee and regenerate plantlets from the transformed explants. The chi gene was previously subcloned from pBS G11 into pCAMBIA2301 plasmid. With Agrobacterium tumefaciens,the recombinant plasmid pCAMBIA2301/35s-chi was then introduced into leaf and zygotic embryos explants of arabica coffee. The transformed leaf explants were cultured on the selection media containing kanamycin in the presence of several combinations of 2,4-D and dicamba with kinetin, BAP and 2-iP to induce the formation of embryogenic callus. The transformed zygotic embryos were cultured on the media of modified MS containing kanamycin. The results showed that the several types of cytokinin used in combination with 2,4-D or dicamba caused the percentage of kanamycin resistant-embryogenic calli was varied. The addition of 100 mg/L kanamycin in the selection media was effective for inhibiting the growth of untransformed explants. Among the several combinations of auxin and cytokinin tested, the highest percentage of embryogenisis for untransformed and transformed leaf explants were achieved on the media containing 5 mM 2,4-D and 5 mM kinetin or 5 mg/L dicamba and 5 mM BAP. However in the presence of 5 mM kinetin together with antioxidants of 100 mg/L citric acid and 100 mg/L ascorbic acid, the explants calluses was optimum at 0 - 1 mg/L dicamba for transformed explants and 10 mg/L dicamba for untransformed explants. In the explants of transformed-zygotic embryos, increasing kanamycin from 100 mg/L up to 500 mg/L decreases the percentage of embryo germination from 80.5 % to 49%, rooted-shoots from 34 % to 16%, number of roots, root length and shoot length from 7 mm to 4 mm. At all the kanamycin treatments, root was not developed from the untransformed-zygotic embryos and the lenght of shoots were shorter compared to the transformed-zygotic embryos. This result demonstrates that the kanamycin-resistant gene (NPTII) has been inserted and well expressed in the plantlets of arabica coffee derived from transformed-zygotic embryos. Since the chi gene was constructed in one vector with NPTII, this gene might also been inserted in the genome of coffee.

Karakterisasi PHA yang dihasilkan oleh Pseudomonas aeruginosa dan Bacillus subtilis yang ditumbuhkan dalam media limbah cair pabrik kelapa sawit Characterization of PHA produced by Pseudomonas aeruginosa and Bacillus subtilis inoculated in palm oil mill effluent (POME) media Irma KRESNAWATY; Agustin Sri MULYATNI; Deden Dewantara ERIS; Haryo Tejo PRAKOSO
E-Journal Menara Perkebunan Vol 82, No 2: Desember 2014
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

AbstractThe difficulties in processing of petroleum-based plastic waste had encouraged the development of biodegradable plastics polyhydroxyalkanoate (PHA). Researchers isolated the PHA-producing microorganisms from various sources to obtain new species with high PHA production capability. In addition, the high cost of PHA production might be overcome by using carbon-rich waste, such as palm oil mill effluent (POME). This research conducted characterization of produced PHA and optimization of PHA production in POME. In previous research, three potential isolates were obtained, which are one Pseudomonas aeruginosa isolate and two Bacillus subtilis isolates. Analysis of Scanning Electron Microscopy (SEM) and Transmission Electron Microscopy (TEM) showed the presence of PHA accumu-lation within the bacterial cell. The results of Spectra of Fourier Transform Infra Red Spectroscopy (FT-IR) revealed differences in C-C and C-H alipathic regions of PHA produced by Pseudomonas aeruginosa and Bacillus subtilis. Optimum production of PHA was obtained using POME at concentration of 50-25% during 6 days of incubation time in an enriched media pretreatment.Abstrak Sulitnya pengolahan limbah plastik berbasis minyak bumi mendorong pengembangan plastik biodegradable poli-hidroksialkanoat (PHA). Beberapa peneliti mengisolasi mikroorganisme penghasil PHA dari berbagai sumber karena diharapkan akan diperoleh spesies baru dengan kemampuan produksi PHA yang tinggi. Selain itu kendala tingginya biaya produksi PHA dapat diatasi dengan peman-faatan limbah yang kaya akan karbon, seperti limbah cair pabrik kelapa sawit (LCPKS). Pada penelitian ini dilakukan karakterisasi PHA yang dihasilkan dan optimasi produksi PHA pada LCPKS. Pada penelitian sebelumnya telah diperoleh tiga isolat potensial, yaitu : satu isolat Pseudo-monas aeruginosa dan dua isolat Bacillus subtilis. Analisis Scanning Electron Microscopy (SEM) dan Transmission Electon Microscopy (TEM) menunjukkan adanya akumulasi PHA di dalam sel bakteri. Dari hasil analisis FT-IR disimpulkan bahwa senyawa PHA yang dihasilkan Pseudo-monas aeruginosa berbeda dengan Bacillus subtilisyang ditandai perbedaan pada spectra gugus C-C dan C-H alifatik. Produksi optimum PHA diperoleh pada konsentrasi LCPKS 50-25%, waktu inkubasi enam hari dan optima-lisasi pertumbuhan pada media kaya di awal untuk mening-katkan populasi mikroba.

Effektifitas pengendalian Phytophthora palmivora dengan agensia hayati terhadap peningkatan produktivitas Kakao [The effectiveness control of Phytophthora palmivora with biological agents on Cocoa produktivity improvement] Bahar UDIN; F. RAHMAWATI; Muh. ASAAD
E-Journal Menara Perkebunan Vol 85, No 1 (2017): April, 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

In Indonesia, the fruit rot disease is very high in the central cocoa in the Southeast Sulawesi. The study aims to test the effectiveness of some biological agents to attack of Phytophthora palmivora. The experiment was conducted in 2015 in the village of Andomesinggo, Southeast Sulawesi. Productive cocoa plant material from side grafting results, Trichoderma harzianum DT/38, T. pseudokonongii DT/39, T. Wis Grooow, and T. asperellium specific Sultra and dithiocarbamates fungicida. The study used a randomized block design, data were analyzed with ANOVA, followed by Duncan multiple test dose at t he level of 0.05. Research results show that the percentage and index of cocoa pod disease attacks decreased after controlled by T. harzianum DT/38 + T. pseudokoningii DT/39, T. asperellium specific Sultra and T. pseudokoningii DT/39 as well as signify cantly different. The intensity of the cocoa fruit rot disease lowest in treatment T. harzianum DT/38 + T. pseudokoningii DT/39 and T. asperellium specific Sultra. The highest number of fruit, dried grain weight and yield of dry beans is the best obtained in giving treatment T. harzianum DT/38 + T. pseudokoningii DT/39 and T. asperellium specific Sultra. The highest cocoa productivity and lost lowest yield achieved by treatment of T. harzianum DT/38 + T. pseudokoningii DT/39 and T. asperellium specific Sultra.[Keywords: fruit rot disease, biological agents, cocoa productivity] AbstrakDi Indonesia serangan penyakit busuk buah sangat tinggi pada sentra kakao di Sulawesi Tenggara. Penelitian bertujuan menguji keefektifan beberapa Trichoderma spp. Ter- hadap serangan penyakit busuk buah yang disebabkan oleh Phytophthora palmivora. Penelitian dilaksanakan pada tahun 2015 di Sulawesi Tenggara, Desa Andomesinggo. Bahan tanaman kakao produktif hasil sambung samping, Trichoderma harzianum DT/38, T. pseudokonongii DT/39, T. Wis Grooow dan T. asperellium spesifik Sultra dan fungisida ditiokarbamat. Penelitian menggunakan Rancang-an Acak Kelompok (RAK) 6 perlakuan, 4 ulangan dan masing-masing perlakuan diamti 15 tanaman. Data dianalisis dengan ANOVA dan dilanjutkan dengan uji selang berganda Duncan pada taraf 0,05. Hasil penelitian menunjukkan bahwa setelah diberi perlakuan T. harzianum DT/38 + T. pseudokoningii DT/39, T. asperellium spesifik Sultra dan T. pseudokoningii DT/39 efektif menurunkan persentase dan indeks serangan penyakit busuk buah kakao yang disebabkan oleh P. palmivora dibanding kontrol. Intensitas serangan penyakit busuk buah terendah setelah diberi perlakuan T. harzianum DT/38 + T. pseudokoningii DT/39 dan T. asperellium spesifik Sultra dibanding kontrol. Jumlah buah tertinggi, bobot biji kering dan rendemen biji kakao kering terbaik diperoleh pada pemberian perlakuan T. harzianum DT/38 + T. pseudokoningii DT/39 dan T. asperellium spesifik Sultra dibanding perlakuan lainnya. Produktivitas kakao tertinggi dan kehilangan hasil terendah dicapai pada perlakuan T. harzianum DT/38 + T. pseudokoningii DT/39 dan T. asperellium spesifik Sultra dibanding perlakuan lainnya.[Kata kunci : penyakit busuk buah, agensia hayati, produktivitas kakao]

Kemiripan genetik klon karet (Hevea brasiliensis Muell. Arg.) berdasarkan metode Amplified Fragment Length Polymorphisms (AFLP) Genetic similarity of rubber clones (Hevea brasiliensis Muell. Arg) based on Amplified Fragment Length Polymorphisms (AFLP) method . NURHAIMI-HARIS; Hajrial ASWIDINNOOR ASWIDINNOOR; Nurita TORUAN-MATHIUS; Agus PURWANTARA
E-Journal Menara Perkebunan Vol 71, No 1: Juni 2003
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Summary Genetic similarity among ten rubber clones originating from the Wickham collection was studied by Amplified Fragment Length Polymorphism (AFLP) markers. These clones have different levels of resistance to Corynespora cassiicola, one of the major pathogens in rubber plantations. The information resulted from this study will be used to determine resistant and susceptible clones which will be used in expression study of the genes encoding plant resistance to C. cassiicola. Genetic similarity values of clones were calculated from all AFLP markers and used to produce a dendrogram using Unweight Pair-Group Method Arithmetic (UPGMA) based on Numerical Taxonomy and Multivariate System (NTSYS) version 1.8 pc. A total of 481 fragments were detected by using ten pairs of selective AFLP primers, and 233 fragments (48,4 %) of them were polymorphic. The results clearly demonstrated that genetic background of these ten clones were 85.5% similar. At 88.0% similarity level, the clones could be divided into three clusters. Genetic similarity of IRR 100 (resistant clone) with RRIC 103, PPN 2444 and IAN 873 (susceptible clones) was 90.5, 89.5 and 89.0% respectively, while genetic similarity of other three resistant clones (AVROS 2037, PR 255 and BPM 1) to those susceptible clones was 88.0%. The lowest genetic similarity (85.5%) was found between RRIC 100 (resistant clone) and those three susceptible clones. By considering the distribution and the source of clones, AVROS 2037 (resistant) and PPN 2444 (susceptible) clones which have 88.0% genetic similarity will finally be selected for the expression study of the genes. Kemiripan genetik sepuluh klon karet yang berasal dari koleksi Wickham dipelajari dengan menggunakan marka Amplified Fragment Length Polymorphism (AFLP). Kesepuluh klon tersebut memiliki tingkat resistensi berbeda terhadap Corynespora cassiicola, salah satu cendawan patogen penting pada daun tanaman karet. Informasi yang diperoleh dalam penelitian ini akan digunakan untuk menetapkan klon resisten dan klon rentan untuk digunakan dalam mempelajari ekspresi gen yang menyandikan ketahanan tanaman karet terhadap C. cassiicola. Nilai kemiripan genetik kesepuluh klon karet dihitung berdasarkan semua marka AFLP yang diperoleh dan selanjutnya digunakan untuk. membuat dendrogram dengan menggunakan Unweight Pair-Group Method Arithmetic (UPGMA) berdasarkan Numerical Taxonomy and Multivariate System (NTSYS) version 1.8 pc. Dengan menggunakan 10 pasang primer AFLP selektif diperoleh sebanyak 481 fragmen DNA, S 2037, PR 255 and BPM 1) to those susceptible clones was 88.0%. The lowest genetic similarity (85.5%) was found between RRIC 100 (resistant clone) and those three susceptible clones. By considering the distribution and the source of clones, AVROS 2037 (resistant) and PPN 2444 (susceptible) clones which have 88.0% genetic similarity will finally be selected for the expression study of the genes. 233 fragmen (48,4 %) di antaranya polimorfik Dendrogram dengan nyata menunjukkan bahwa 85,5% latar belakang genetik kesepuluh klon karet tersebut adalah sama, dan pada tingkat 88,0% kesepuluh klon terpisah dalam tiga kelompok. Kemiripan genetik klon IRR 100 (resisten) dengan klon rentan RRIC 103, PPN 2444 dan IAN 873 masing-masing adalah 90,5, 89,5 dan 89,0%, sedangkan kemiripan genetik tiga klon resisten lainnya (AVROS 2037, PR 255 dan BPM 1) dengan ketiga klon rentan yang sama adalah 88,0%. Kemiripan genetik terendah (85,5%) terdapat antara klon RRIC 100 (resisten) dengan ketiga klon rentan tersebut. Dengan mempertimbangkan distribusi penyebaran klon dan asal klon maka klon resisten AVROS 2037 dan klon rentan PPN 2444 yang memiliki kemiripan genetik 88,0% akan dipilih untuk digunakan dalam studi ekspresi gen tanaman karet. acerun:yes'> Kesepuluh klon tersebut memiliki tingkat resistensi berbeda terhadap Corynespora cassiicola, salah satu cendawan patogen penting pada daun tanaman karet. Informasi yang diperoleh dalam penelitian ini akan digunakan untuk menetapkan klon resisten dan klon rentan untuk digunakan dalam mempelajari ekspresi gen yang menyandikan ketahanan tanaman karet terhadap C. cassiicola. Nilai kemiripan genetik kesepuluh klon karet dihitung berdasarkan semua marka AFLP yang diperoleh dan selanjutnya digunakan untuk. membuat dendrogram dengan menggunakan Unweight Pair-Group Method Arithmetic (UPGMA) berdasarkan Numerical Taxonomy and Multivariate System(NTSYS) version 1.8 pc. Dengan menggunakan 10 pasang primer AFLP selektif diperoleh sebanyak 481 fragmen DNA, S 2037, PR 255 and BPM 1) to those susceptible clones was 88.0%. The lowest genetic similarity (85.5%) was found between RRIC 100 (resistant clone) and those three susceptible clones. By considering the distribution and the source of clones, AVROS 2037 (resistant) and PPN 2444 (susceptible) clones which have 88.0% genetic similarity will finally be selected for the expression study of the genes.

Pembentukan akar in vitro planlet kelapa sawit (Elaeis guineensis Jacq.) dalam medium cair dengan penambahan auksin In vitro rooting of oil palm (Elaeis guineensis Jacq.) plantlets in a liquid medium supplemented with auxins Imron RIYADI; . SUMARYONO
E-Journal Menara Perkebunan Vol 78, No 1: Juni 2010
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

AbstractAuxin affects the growth and development of in vitro plantlets including root induction. An experiment was conducted to determine the combination and concentration of auxin for rooting of oil palm plantlets in liquid medium.Unrooted plantlets of oil palm MK 649 clone with height 6 – 7 cm and 2 – 3 leaves were used as material source. The plantlets were cultured in de Fossard liquid medium. The treatments used were combinations of NAA and IBA at 0, 5,10 and 20 μM. The results show that 10 μM NAA combined with 20 μM IBA gave the highest percentage of rooting of oil palm plantlets (73.3%) in 10 weeks. NAA and IBA concentration influenced significantly rooting percentageand root quality and there was a significant interaction between the two auxins. Root initiation response of oil palm plantlets to NAA was higher than to IBA. The best of oil palm root class which indicates root quality was obtained in a medium with 10 μM NAA + 20 μM IBA. The aerial parts of the plantlets grew well in term of shoot height, leaf number and shoot diameter especially in a medium with 10 μM NAA + 20 μM IBA. AbstrakAuksin berpengaruh terhadap pertumbuhan dan perkembangan planlet in vitro, termasuk terhadap induksi akar. Penelitian ini bertujuan untuk menentukan kombinasi dan konsentrasi auksin yang tepat dalam pembentukan akarplanlet kelapa sawit in vitro dalam medium cair. Bahan yang digunakan berupa planlet kelapa sawit klon MK 649 tanpa akar dengan tinggi 6 – 7 cm dan jumlah daun 2 – 3 helai. Planlet dikulturkan dalam medium de Fossard cair. Perlakuan yang digunakan adalah kombinasi NAA dan IBA dengan konsentrasi 0, 5, 10 dan 20 μM. Hasil penelitian menunjukkan bahwa perlakuan NAA 10 μM dikombinasikan dengan IBA 20 μM menghasilkan persentase pembentukan akar planlet kelapa sawit tertinggi yaitu 73,3% dalam waktu 10 minggu. Konsentrasi NAA dan IBA secara nyata mempengaruhi persentase pembentukan dan kualitas akar serta terdapat interaksi yang nyata antara kedua perlakuan auksin. Respons induksi akar kelapa sawit terhadap NAA lebih tinggi daripada IBA. Kelas akar planlet kelapa sawit terbaik yang menunjukkan kualitas perakaran, juga diperoleh pada NAA 10 μM dan IBA 20 μM. Pertumbuhan dan perkembangan organ bagian atas yang meliputi tinggi tunas, jumlah daun dan diameter tunas menunjukkan peningkatan yang cukup baik terutama pada perlakuan NAA 10 μM + IBA 20 μM.

The potential use of bio-activated potassium-bearing mineral from East Java for K fertilizer Potensi mineral pembawa kalium asal Jawa Timur yang dibio-aktivasi sebagai pupuk K Laksmita Prima SANTI; Didiek Hadjar GOENADI
E-Journal Menara Perkebunan Vol 80, No 2: Desember 2012
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

AbstractPotassium (K) is an essential macro-nutrient for crops to support their development, especially in the early stage of growth. Potassium is found in soils and K-bearing minerals but mainly in an unavailable form. The development of an efficient technique in improvement of K solubilization of K-bearing minerals was very strategic to reduce imported conventional K fertilizers, mainly muriate of potash (MOP). The so-called Bio-Kalium (Bio-K) product was constructed by using locally available K-bearing mineral from East Java. The objective of this research was to determine the efficiency and rational dosage of bio-activation K-bearing mineral in comparison with K conventional fertilizer on the growth of cocoa and oil palm seedlings in greenhouse experiment. The strong technical alkaline solution was used to activate K-bearing mineral. The results showed that the application of 4.2 g/cocoa seedling or 6.4 g/oil palm seedling of bio-activated K bearing mineral containing 108 cfu/gram of Burkholderia vietnamiensis Zeo3 strain (Bio-K) significantly increased of height, leaf number, and stem diameter of the four and six-month-old cocoa and oil palm seedlings respectively.Abstrak Kalium (K) merupakan unsur hara makro esensial yang diperlukan untuk mendukung pertumbuhan tanaman khususnya pada tahap awal perkembangannya. Kalium terdapat di dalam tanah dan mineral pembawa K, tetapi pada umumnya dalam bentuk yang tidak tersedia. Teknik pengembangan untuk meningkatkan kelarutan K dari mineral pembawa K yang efisien sangat strategis untuk mengurangi ketergantungan terhadap pupuk K import, khususnya muriate of potash (MOP). Pupuk Bio-Kalium (Bio-K) dikembangkan dengan menggunakan mineral pembawa K lokal yang terdapat di Jawa Timur. Tujuan penelitian ini untuk menetapkan efisiensi dan dosis rasional dari mineral pembawa K yang di aktivasi dan diperkaya dengan bakteri (bio-aktivasi) dibandingkan dengan pupuk K konvensional terhadap pertumbuhan bibit kakao dan kelapa sawit di rumah kaca. Larutan basa kuat teknis digunakan untuk meng-aktivasi mineral pembawa K. Hasil yang diperoleh menunjukkan bahwa aplikasi mineral pembawa K yang diaktivasi dan mengandung 108 cfu/g Burkholderia vietnamiensis strain Zeo3 (Bio-K) sebanyak 4,2 g/bibit kakao atau 6,4 g/bibit kelapa sawit dapat meningkatkan masing-masing tinggi, jumlah daun, dan diameter batang bibit kakao umur empat bulan dan kelapa sawit umur enam bulan secara signifikan.

Pemanfaatan sistem rotary biological contactor menggunakan kultur Omphalina sp yang diimobilisasi pada tandan kosong kelapa sawit untuk absorbsi logam berat Cu2+ dan Hg2+ (Utilization of rotary biological contactor system using Omphalina sp immobilized on oil palm empty fruit bunch for absorption of heavy metals Cu2+ and Hg2+) Firda DIMAWARNITA; Tri PANJI
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Heavy metals such as lead, chromium, cadmium, copper, mercury, and arsenic which are industrial by-products can have negative impact on the environment if they not managed properly. Biosorption is environmentally-friendly waste treatment method. The advantage of biosorption compared to other waste treatment method is ecotechnology, which means effective, cheaper than chemical treatment and environmentally-friendly technology. Using the concept of bioremediation-based on microbial enhanced recovery of metals (MERM) allows the possibility of concentration process (bio-concentration) of metal content through the process of biosorption in microbial cells. The process of bio-concentration potentially to be applied on a commercial scale to increase the recovery of high-value commercial metals. This study aims to absorb Cu2 + and Hg2 + metals using Omphalina sp. cultured on empty fruit bunches (EFB) in rotary biological contactor (RBC) systems. The principle of this technique is waste containing metals was contacted with white rot fungi (WRF) Omphalina sp. which is attached to the surface of the media inside a reactor and then the final waste concentration was analyzed. This analysis was using atomic absorption spectrometry (AAS) device to measure the concentration of Cu2+ and Hg2+ metal ions and Freundlich isothermic equations for calculating maximum absorption power (q max). The highest absorption of Cu2+ ion is 0.3304 mg/g and Hg2+ is 0.074 mg/g for 6 hours. The adsorption capacity of Omphalina sp. for Cu2 + and Hg2 + solutions based on the Freundlich adsorption equation with maximum adsorption power for Cu2 + is 71.911 mg/g and Hg2+ is 20.216 mg/g. Biosorbent Omphalina sp. can be reused in biosorption process with percentage decrease of Cu2+ is4.30% (4.3 ppm) and Hg2 + is 27.80% (1.39 ppm) for 18 hours.[Key words : biosorption technique, empty fruit bunches, immobilization, rotary biological contactor , white rot fungi-Omphalina sp.] AbstrakLogam berat seperti timbal, krom, cadmium, tembaga, merkuri, dan arsen yang merupakan hasil samping industri dapat berdampak negatif terhadap lingkungan jika tidak dikelola dengan baik. Biosorpsi merupakan metode pengolahan limbah yang ramah lingkungan. Keunggulan biosorpsi dibandingkan dengan metode pengolahan limbah yang lainnya adalah ekoteknologi yaitu teknologi efektif, murah dan ramah lingkungan. Melalui konsep bioremediasi berbasis microbial enhanced recovery of metals (MERM) memungkinkan terjadinya proses pemekatan (bio-konsentrasi) kandungan logam melalui proses biosorpsi dalam sel mikroba. Proses bio-konsentrasi tersebut berpeluang untuk diterapkan dalam skala komersial untuk meningkatkan recovery logam bernilai komersial tinggi. Penelitian ini bertujuan untuk meng-absorpsi logam Cu2+ dan Hg2+ menggunakan kultur Omphalina sp. pada media TKKS dalam sistem rotary biological contactor (RBC). Prinsip teknik ini yaitu limbah yang mengandung logam dikontakkan dengan kultur JPP Omphalina sp. yang melekat pada permukaan media di dalam suatu reaktor kemudian konsentrasi limbah akhir dianalisis kandungannya. Analisis ini mengguna-kan alat spektrometri serapan atom (SSA) untuk mengukur konsentrasiion logam Cu2+ dan Hg2+ dan persamaan isoterm Freundlich untuk menghitung daya absorbsi maksimum (q max). Penyerapan tertinggi ion Cu2+ sebesar 0,330 mg/g dan Hg2+ sebesar 0,074 mg/g selama 6 jam. Kapasitas adsorpsi Omphalina sp. terhadap larutan Cu2+ dan Hg2+ berdasarkan persamaan adsorpsi Freundlich dengan daya adsorpsi maksimumnya untuk Cu2+sebesar 71,911 mg/g dan untuk Hg2+ sebesar 20,216 mg/g. Biosorben Omphalina sp. dapat digunakan ulang dalam proses biosorpsi dengan persentase penurunan Cu2+ sebesar 4,30% (4,3 ppm) dan Hg2+ sebesar 27,80% (1,39 ppm) dalam waktu 18 jam.[Kata kunci : imobilisasi, jamur pelapuk putih Omphalina sp, rotary biological contactor, teknik biosorpsi logam, tandan kosong kelapa sawit.]

Pengaruh elisitasi terhadap pertumbuhan dan produksi alkaloida kinolin dari akar rambut tanaman kina (Cinchona succirubra Pavon ex Klotzsch) Effect of elicitation on growth and alkaloid quinoline production in hairy root of cinchona plant (Cinchona succirubra Pavon ex Klotzsch) Nurita TORUAN-MATHIUS; . NURHAIMI-HARIS; Joko SANTOSO; . ADE-HERI
E-Journal Menara Perkebunan Vol 74, No 1: Juni 2006
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Summary Manipulation to increase alkaloid producti-vity in hairy root can be done by elicitation with the addition of certain enzymes. The objective of this research is to find out the effect of elicitation by cellulase and pectyoliase enzymes on the productivity of Cinchona succirubra hairy root culture. Hairy root was cultured on ½ MS macro nutrient with the addition of 40 g/L sucrose and 7 g/L agar. Elicitation was done by the addition of cellulase and pectiolyase at the concentrations of 0; 0.05; 0.10; 0.50; 1.00; 3.00; 5.00; 10.00; 15.00; 20.00 and 25.00 mg/L, respectively.The effect of elicitation was analyzed by fresh weight of hairy root, and alkaloid content in four-month-old culture.The result showed that the best growth was obtained by the addition of 15 mg/L cellulase, with fresh weight as much as 920 mg. The addition of 10 mg/L pectyoliase increased hairy root fresh weight as much as 880 mg. The highest quinoline alkaloid production was obtained by the addition of 25 mg/L celluase (Quinine 580, quinidine 492, cinchonine 234, dihydroxyn-chonine 195 and cinchonidine 165 µg/g fresh weight) and 1 mg/L pectyoliase (Quinine 2363, quinidine 238, cinchonine 104, dihydroxyn-chonidine 138 and cinchonidine 1558 µg/g fresh weight).Ringkasan Manipulasi untuk meningkatkan produk-tivitas akar rambut dapat dilakukan di antaranya dengan elisitasi melalui penambahan enzim tertentu ke dalam medium. Tujuan penelitian ini adalah untuk menetapkan pengaruh elisitasi dengan penambahan selulase dan pektioliase terhadap produktivitas akar rambut tanaman Cinchona succirubra. Akar rambut tanaman Cinchona succirubradikulturkan dalam medium MS ½ hara makro dengan penambahan sukrose 40 g/L dan agar 7 g/L. Elisitasi dilakukan dengan penambahan selulase dan pektioliase masing-masing pada konsentrasi 0; 0,05; 0,10; 0,50; 1,00; 3,00; 5,00; 10,00; 15,00; 20,00 dan 25,00 mg/L. Peubah yang diukur adalah bobot basah akar rambut dan kandungan alkaloida kinolin pada kultur berumur empat bulan. Hasil yang diperoleh menunjukkan bahwa pertumbuh-an terbaik terjadi pada penambahan konsentrasi selulase 15 mg/L dengan bobot basah 920 mg dan pektioliase 10 mg/L dengan bobot basah 880 mg. Produksi alkaloida kinolin tertinggi diperoleh pada konsentrasi selulase 25 mg/L (kinin 580, kinidin 492, sinkonin 234, dihidrok-sinkonin 195 dan sinkonidin 165 µg/g bobot basah) dan pektioliase 1 mg/L (kinin 2363, kinidin 238, sinkonin 104, dihidroksinkonin 138 dan sinkonidin 1558 µg/g bobot basah).

Optimisasi produksi biogas dari limbah lateks cair pekat dengan penambahan logam Optimization of biogas production from concentrated-latex effluent with addition of metals Irma KRESNAWATY; I SUSANTI; . SISWANTO; . TRI-PANJI
E-Journal Menara Perkebunan Vol 76, No 1: Juni 2008
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Summary The treatment of concentrated-latex effluent process applied in the field presently, has not obtain optimum additional benefits. Besides that, the technology using ponding system needs wide area and causes air pollution that such a way caused conflicts with society. The application concept of clean industry: reuse, reduction, recovery and recycling, makes the possibilities to convert the effluent to be usefull products. One of the alternative effluent process is by utilizing it as the source of renewable energy, that is in the form of biogas as an alternative energy. The preliminary research showed that the use of spontaneous latex skim coagulation, the addition of 1% manure as source of seed, and leaf biomass as the source of carbon could increase the biogas production. This research was carried out to optimize biogas production by adding metal ion and to observe the parameters which influenced every stage of biogas production. At the beginning of the process, pH showed increasing due to the hydrolysis process that generally occured in acid condition, but it remained stable (6.6-7.7) in the next steps, whereas, the VFA value as well as BOD value tended to increase. COD value had fluctuative inclination caused by the conversion of organic compounds to produce biogas and the hydrolysis process of leaf biomass to organic compounds that decom-posed to further biogas. The best result of biogas production was showed by addition of Fe3+ with optimum concentration 0.50 mg/L effluent.

Optimization media from low-cost nutrient sources for growing Spirulina platensis and carotenoid production Optimasi media dengan sumber nutrisi murah untuk pertumbuhan dan produksi karotenoid Spirulina platensis . TRI-PANJI; . SUHARYANTO
E-Journal Menara Perkebunan Vol 69, No 1: Juni 2001
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

SummarySpirulina platensis is a cyanobacteriaproducing several bioactive compounds such ascarotenoids which are economically valuable. Toproduce carotenoids in S. platensis biomassefficiently, it is necessary to define an optimummedium composition consisting of mineral saltand organic complex derived from low-costnutrient sources. Spirulina platensis grown oncomplex media containing latex serum fromconcentrated latex factory, supplemented withsalt minerals might produce high yieldingcarotenoids. The objective of this research is todefine media composition for optimum growthand carotenoid production of S. platensis and toidentify carotenoid compounds from biomass ofthe algae. S. platensis was grown on mediacontaining latex serum from latex concentratefactory (5%, v/v), macroelements andmicroelements, for 10 weeks at a room aeratedand illuminated by 20 W TL lamp at 50 cmdistance. Microelements were formulatedat a certain amount to give eleven combinationsof C: N: P: Mg. The Aiba & Ogawa syntheticmedium was used as a reference medium. Theoptimum growth of S. platensis had reachedafter eight-week incubation. Among elevenmedia composition containing latex serumexamined, best growth on a formulated mediumwith a ratio of C: N: P: Mg = 1:3:0.3:0.2 yielding0.350 g biomass/L This amount was slightlylesser than those on synthetic Aiba & Ogawamedium that yields 0.407 g biomass/L, aftereight-week incubation. Although the biomassproduction was lower than that of synthetic Aiba & Ogawa medium, the formulated mediagave higher carotenoid content. The highestcarotenoid content in biomass was 2.866 mg/kgbiomass obtained from a medium with ratio ofC: N: P: Mg = 1: 2: 0.3: 0. Thin layerchromatography (TLC) analysis of biomassextract showed the presence of two-six carotenoidcompounds, in which one of them is β- carotene.RingkasanSpirulina platensis adalah sianobakteria yangmenghasilkan berbagai senyawa bioaktif bernilaiekonomi tinggi antara lain karotenoida. Untukmemproduksi karotenoida dari biomassa selS. platensis secara efisien, perlu ditetapkankomposisi media mineral dan bahan organikkompleks yang optimal dari sumber nutrisi yangmurah. Spirulina platensis yang ditumbuhkandalam media serum lateks dari pabrik latekspekat dengan suplemen garam-garam mineraltertentu diharapkan produktif dalammenghasilkan karotenoida. Tujuan penelitianadalah menetapkan komposisi media yangoptimal untuk pertumbuhan dan produksikarotenoid serta mengidentifikasi jenis senyawakarotenoid dalam biomassa sel S. platensis.Sianobakteria ini ditumbuhkan dalam mediakompleks mengandung serum lateks pekat(5%, v/v) dengan suplemen nutrisi berupamakronutrien dan mikronutrien selama10 minggu di dalam ruangan dengan aerasi danpenyinaran lampu TL 20 W pada jarak 50 cm.Komposisi makronutrien diformulasi untukmemberikan sebelas macam variasi nisbahC:N:P:Mg. Sebagai pembanding digunakanmedia sintetik Aiba & Ogawa. Hasil penelitianmenunjukkan bahwa pertumbuhan S. platensismencapai puncak setelah diinkubasikan selamadelapan minggu. Dari 11 komposisi mediamengandung lateks yang diuji, pertumbuhanS. platensis terbaik adalah yang ditumbuhkandalam media formula dengan nisbah C:N:P:Mg=1:3:0.3:0.2 menghasilkan 0,350 g biomassa/L,sedikit lebih rendah dibandingkan denganmenggunakan media sintetik Aiba & Ogawa yangmenghasilkan 0,407 g biomassa/L selama8 minggu. Walaupun kandungan biomassanyalebih rendah, media formula tersebut meng-hasilkan karotenoid lebih tinggi dibandingkandengan media sintetik Aiba & Ogawa.Kandungan karotenoid tertinggi pada biomassayaitu sebesar 2.866 mg/kg diperoleh pada mediadengan nisbah C:N:P:Mg=1:2:0.3:0. Analisisekstrak biomassa dengan TLC menunjukkanadanya dua-enam jenis karotenoida, salahsatunya adalah β - karotena.

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Home Page

OAI Link

Editorial Team

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Contact Name Hayati Minarsih

Contact Email menaraperkebunanppbbi@gmail.org

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Journal Mail Official menaraperkebunan@iribb.org

Editorial Address Jalan Taman Kencana No.1 Bogor 16128, Jawa Barat

Location Kab. bogor, Jawa barat INDONESIA

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Contact Name
Hayati Minarsih

Contact Email
menaraperkebunanppbbi@gmail.org

Phone
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Journal Mail Official
menaraperkebunan@iribb.org

Editorial Address
Jalan Taman Kencana No.1 Bogor 16128, Jawa Barat

Location
Kab. bogor,

Jawa barat

INDONESIA