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Menara Perkebunan
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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Articles 5 Documents
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Search results for , issue "Vol 79, No 2: Desember 2011" : 5 Documents clear
Agensia hayati dan Arachis pintoi memacu pertumbuhan tanaman lada (Piper nigrum) dan mengurangi kejadian penyakit kuning Biocontrol agents and Arachis pintoi promote the growth of black pepper (Piper nigrum) and reduce the incidence of yellow disease Muhammad TAUFIK; Andi KHAERUNI; Abdul WAHAB; . AMIRUDDIN
E-Journal Menara Perkebunan Vol 79, No 2: Desember 2011
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (165.92 KB) | DOI: 10.22302/iribb.jur.mp.v79i2.58

Abstract

AbstractYellow disease is a complex disease caused byFusarium sp., Phytophthora sp., and nematodes. Infectedplants were quickly killed and were difficult for replanting,causing significant losses for the growers. Various controlmethods were examined including the use of bioconrolagents and cover crop Arachis pintoi. The researchobjective was to determine the ability of biocontrol agentsand A. pintoi to improve pepper growth and reduce yellowdisease incidence on pepper plants in the field. Researchresults showed that the treatment of biocontrol andA. pintoi promoted vegetative growth of pepper plants, andincreased pepper height for up to more five times, andreduced yellow disease incidence to 30%AbstrakPenyakit kuning merupakan penyakit kompleks yangdisebabkan oleh Fusarium sp., Phytophthora sp. dannematoda parasit. Tanaman sakit mengalami kematianyang cepat dan kebun yang telah terinfeksi sulit untukditanami kembali, sehingga mengakibatkan kerugian yangnyata terhadap petani. Berbagai cara pengendalian telahdiuji termasuk penggunaan agens hayati Plant GrowthPromoting Rhizobacteria (PGPR), Trichoderma sp. dantanaman Arachis pintoi. Tujuan penelitian adalahmengetahui kemampuan agensia hayati dan Arachis pintoidalam meningkatkan pertumbuhan dan mengurangikejadian penyakit kuning pada tanaman lada di lapang.Hasil penelitian menunjukkan bahwa perlakuan agenshayati dan A. pintoi meningkatkan tinggi dan jumlah dauntanaman lada lebih dari lima kali serta mempercepatmunculnya sulur dibandingkan dengan kontrol danfungisida. Aplikasi Trichoderma sp. yang dikombinasidengan A. pintoi menekan kejadian penyakit kuning hampir30%.
Peningkatan laju multiplikasi tunas dan keragaan planlet Stevia rebaudiana pada kultur in vitro Increasing shoot multiplication rate and plantlet vigor of Stevia rebaudiana in vitro culture . SUMARYONO; Masna Maya SINTA
E-Journal Menara Perkebunan Vol 79, No 2: Desember 2011
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (439.221 KB) | DOI: 10.22302/iribb.jur.mp.v79i2.59

Abstract

AbstractStevia (Stevia rebaudiana Bertoni) is a natural zero-calorie sweetener plant grown in a high population density.Tissue culture technique is useful for rapid mass propagationof plants to provide superior planting materials. Experimentswere conducted to increase growth and multiplication ofshoots and vigor of plantlets of stevia. Explants used wereapical and axillary buds from plantlets grown on MS mediumwithout plant growth regulators. Combinations of BA andIAA at different concentrations were used for shoot growthand multiplication, whereas plant growth retardants(ancymidol and paclobutrazol) and light intensity were usedfor plantlet vigor. The results showed that stevia explantscultured on MS medium without plant growth regulatorsproduced the highest shoots (4.5 cm) with two shoots perexplant. The best multiplication rate of shoots were found onMS medium added with 1.13 mg/L BA combined with0.35 mg/L IAA which produced on average 4.5 shoots and11.9 nodes per initial explant. Ancymidol and paclobutrazolconcentrations affected significantly growth and vigor ofstevia plantlets. Increasing the concentration of ancymidoland paclobutrazol decreased plantlet height and biomassfresh weight, but increased stem diameter. Paclobutrazol at0.1 mg/L was the best treatment to increase the vigor ofstevia plantlets. Light intensity at 20 µmol/m 2 /s gave betterplantlet vigor than other light intensities. It can be concludedthat multiplication of stevia shoots should be grown on MSmedium supplemented with 1.13 mg/L BA + 0.35 mg/L IAAand the vigor of the shoots can be increased by culturing onMS medium containing 0.1 mg/L paclobutrazol underfluorescence lamps with 20 µmol/m 2 /s light intensity.AbstrakStevia (Stevia rebaudiana Bertoni) adalah tanamanpemanis alami nir-kalori yang ditanam dengan kerapatanpopulasi yang sangat tinggi. Teknik kultur jaringan dapatdigunakan untuk perbanyakan tanaman secara massal dancepat untuk menyediakan bahan tanam unggul. Penelitiantelah dilakukan untuk meningkatkan pertumbuhan danmultiplikasi tunas dan keragaan planlet stevia. Eksplan yangdigunakan adalah tunas pucuk dan tunas samping dari planletyang ditumbuhkan pada medium MS tanpa zat pengaturtumbuh. Kombinasi BA dan IAA dengan konsentrasi yangberbeda digunakan untuk pertumbuhan dan multiplikasitunas, sedangkan zat penghambat tumbuh (ansimidol danpaklobutrazol) serta intensitas cahaya digunakan untukkeragaan planlet. Hasil penelitian menunjukkan bahwaeksplan stevia yang ditumbuhkan pada medium MS tanpa zatpengatur tumbuh menghasilkan tunas paling tinggi (4,5 cm)dengan dua tunas per eksplan. Multiplikasi tunas terbaikdiperoleh pada medium dengan BA 1,13 mg/L yangdikombinasikan dengan IAA 0,35 mg/L yang menghasilkan4,5 tunas dan 11,9 ruas per eksplan awal. Konsentrasiansimidol dan paklobutrazol berpengaruh nyata terhadappertumbuhan dan keragaan planlet stevia. Meningkatnyakonsentrasi ansimidol dan paklobutrazol menurunkan tinggiplanlet dan bobot basah biomassa, tetapi meningkatkandiameter batang. Paklobutrazol pada konsentrasi 0,1 mg/Lmerupakan perlakuan terbaik untuk meningkatkan keragaanplanlet stevia. Intensitas cahaya pada 20 µmol/m 2 /detikmemberikan keragaan planlet yang lebih baik dibandingkanintensitas cahaya yang lain. Dapat disimpulkan bahwamultiplikasi tunas stevia sebaiknya dilakukan pada mediumMS ditambah BA 1,13 mg/L + IAA 0,35 mg/L dan keragaanplanlet dapat ditingkatkan dengan menanam planlet padamedium MS ditambah paklobutrazol 0,1 mg/L di bawahlampu fluoresen dengan intensitas cahaya 20 µmol/m 2 /detik.
Pengaruh ventilasi terhadap morfologi, stomata dan kadar klorofil tunas karet yang diperbanyak melalui microcutting Influence of ventilation on morphology, stomata and chlorophyll content of Hevea shoots propagated through microcutting . NURHAIMI-HARIS; Nurul Siti AYUNINGTIAS; Irma Herawati SUPARTO
E-Journal Menara Perkebunan Vol 79, No 2: Desember 2011
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (390.965 KB) | DOI: 10.22302/iribb.jur.mp.v79i2.60

Abstract

AbstractIn plant tissue culture, the culture vessels are usuallycovered tightly with screw caps, aluminium foils, parafilm,or plastic wrap. This condition restricts the exchange ofgases in culture vessels and will affect negatively thegrowth of explants. The use of ventilated closure improvesthe air quality in culture vessels. Microboxes provided withdifferent types of filter (yellow filter with Kv value13.09 Gas Exchange (GE)/day, green filter with Kv value81.35 GE/day and without filter) on their closure wereexamined as culture vessels for growing rubber explants atmultiplication step. The purpose of this research was toobserve the plant condition in different types of microboxcorresponding to the morphology, stomata and chlorophyllcontent of the shoots. The results showed no significantdifference of shoot height on each microbox. The use ofventilated closure increased significantly new leafformation and decreased leaf fall. Normal size and color ofleaves were found on shoots grown in microbox with greenfilter. Chlorophyll analysis revealed no significantdifferences on three types of microbox, however visualobservation showed that leaves were greener on microboxwith green filter. The stomata condition of shoots onmicrobox with green filter were similar with those ofmother plants in green house, while different condition ofstomata were found on shoots grown in microbox withyellow filter or without filter. In normal environment suchas at the field and green house, most of stomata wereclosed, in microbox provided with filter on the closure,most of stomata were half open, while on microbox withoutfilter most of stomata were wide open.bstrakDalam kultur jaringan tanaman, tabung/botol kulturditutup rapat dengan penutup yang dilengkapi ulir,aluminium foil, parafilm atau plastik wrap. Kondisitersebut menghambat pertukaran udara dalam tabung kultursehingga sering memberikan pengaruh negatif terhadappertumbuhan eksplan. Penggunaan penutup berventilasidapat meningkatkan kualitas udara dalam lingkungantabung/botol kultur. Oleh karena itu microbox denganpenutup berfilter diuji sebagai wadah untuk menumbuhkaneksplan karet pada tahap multiplikasi, yaitu microboxberfilter kuning dengan nilai Kv sebesar 13,09 (GasExchange (GE)/hari dan berfilter hijau dengan nilai Kvsebesar 81,35 GE/hari, sedangkan sebagai kontrol adalahmicrobox tanpa filter (tertutup rapat). Penelitian bertujuanmengamati kondisi tunas di dalam microbox berfilter,meliputi morfologi, stomata dan kandungan klorofil. Hasilpenelitian menunjukkan bahwa tinggi tunas tidak berbedanyata pada masing-masing microbox. Jumlah daun barudan daun gugur berbeda nyata, dimana pembentukan daunbaru terbanyak terdapat pada tunas dalam microboxberfilter kuning maupun hijau. Ukuran dan warna daunterlihat normal pada tunas dalam microbox berfilter hijau.Analisis kandungan klorofil tidak menunjukkan perbedaannyata, namun pengamatan visual menunjukkan bahwa daunlebih hijau pada microbox dengan filter hijau. Kondisistomata daun dari tunas dalam microbox dengan penutupberfilter hijau menyerupai stomata tanaman induk yangterdapat di rumah kaca dan lapangan, sedangkan kondisistomata berbeda ditemukan pada tunas dalam microboxberfilter kuning atau tanpa filter. Pada lingkungan normalseperti lapangan dan rumah kaca, sebagian besar stomatamenutup, pada wadah dengan tutup berfilter stomata agakmembuka sedangkan pada microbox tanpa filter sebagianbesar stomata terbuka lebar.
The effects of seaweed fertilizer on the growth and productivity of upland rice, maize and oil palm grown in green house Pengaruh pupuk rumput laut terhadap pertumbuhan dan produktivitas padi gogo, jagung dan kelapa sawit di rumah kaca Djoko SANTOSO; Tetty CHAIDAMSARI; . SYAFARUDDIN; Dedi Soleh EFFENDI
E-Journal Menara Perkebunan Vol 79, No 2: Desember 2011
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (185.14 KB) | DOI: 10.22302/iribb.jur.mp.v79i2.61

Abstract

AbstrakSebagai negara kepulauan di daerah tropis, Indonesiakaya akan sumberdaya alam untuk swasembada pangan.Berjuta-juta hektar lahan di Indonesia ditanami tanamanperkebunan, tanaman tahunan yang memiliki masa juvenilyang relatif lama, terutama tanaman kelapa sawit dan karet.Sementara itu, upaya untuk meningkatkan produksi panganterkendala oleh terbatasnya lahan subur. Penelitian yangmengeksplorasi bioregulator alami mampu meningkatkanproduktivitas tanaman, menemukan bahwa Sargasum sp.,rumput laut tipe liar yang di sepanjang pantai beberapawilayah Indonesia, menunjukkan kemampuannya meningkat-kan pertumbuhan dan produktivitas tanaman seperti padi,jagung, tomat dan pertumbuhan kelapa sawit tanpapenambahan pupuk kimia. Percobaan pada padi gogovarietas Batutegi yang ditanam di rumah kaca, menunjuk-kan bahwa bioregulator alami tersebut meningkatkanproduktivitasnya 50% lebih tinggi daripada kontrolnya.Percobaan menggunakan jagung var. Arjuna, tanaman yangtelah diperlakukan dengan bioregulator tersebut mem-produksi dua hingga tiga tongkol, sementara pada tanamankontrol hanya satu tongkol. Percobaan pada tanamankelapa sawit di rumahkaca memperlihatkan bahwa bio-regulator tersebut menginduksi pertumbuhan vegetatifnyasecara signifikan, lebih baik daripada kontrol dengan atautanpa pupuk kimia. Intercropping tanaman kelapa sawitTBM dengan tanaman pangan seperti padi gogo ataujagung, diharapkan lebih menguntungkan bagi usahaperkebunan.AbstractBeing a tropical archipelago, Indonesia is rich withnatural resources enabling more production for food.Millions hectares of Indonesian lands is now planted withestate crops, perennial crops with relatively lengthenjuvenile phase mainly oil palm and rubber. Meanwhile,attempts to increase national food production have beenlimited by availability of fertile lands. Our researchexploring natural bioregulator capable of improving cropproductivity, found that Sargasum sp., a wild sea weedgrown mostly along the coast line in Indonesia, indicated itsability to improve the growth and productivity of crops likerice, maize, tomato and oil palm even though with nochemical fertilizers added. The experiment on upland rice oflocal variety Batutegi planted in greenhouse, demonstratedthe natural bioregulator has increased the rice productivityby at least 50% over the control. The experiment usingmaize var. Arjuna, the bioregulator treated plants has madetwo to three corncobs instead of only one corncob on thecontrol plants. The experiment on the oil palm grown in thenursery showed that the bioregulator has significantlyinduced vegetative growth better than the control with orwithout chemical fertilizers. Intercropping the food crops,rice or maize in the juvenile phase of the oil palmplantations, should be beneficial to the productivity of theplantation.
Karakteristik gugus fungsional eksopolisakarida Burkholderia cenocepacia strain KTG dalam tiga kelas tekstur tanah The characteristic of exopolysaccharide functional group of Burkholderia cenocepacia strain KTG in three soil texture classes Laksmita Prima SANTI
E-Journal Menara Perkebunan Vol 79, No 2: Desember 2011
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (153.67 KB) | DOI: 10.22302/iribb.jur.mp.v79i2.57

Abstract

Abstract This research was carried out to investigate the characteristics of exopolysaccharide functional groups of Burkholderia cenocepacia strain KTG originated from three different soil texture classes. This bacterium was isolated from rhizosphere of oil palm (Elaeis guineensis Jacq.) and has a highly potential exopolysaccharides production (4.3- 5.8 mg/mL) promoting soil aggregate formation. Fouriertransformed infrared spectroscopy (FTIR) was used for obtaining vibrational spectra of the exopolysaccharide. The bacterium was cultured in ATCC no.4 medium with a different source of carbon i.e. 2% (w/v) of sucrose, glucose, manitol, lactose, and 4-hydroxy-phenyl acetic acid as carbon sources respectively for initial characterization and then soil suspension of clay, sandy loam, and loamy sand. Analysis of the FTIR spectrum of the exopolysaccharide B. cenocepacia KTG strain both contain similar source of carbon in liquid ATCC no.14 medium and soil solution after 72 hours incubation showed intensive bands in the range of 3403-3400 cm-1 and 1651-1636 cm-1 corresponding to the stretching band of O-H (hydroxyl) and C=O (carbonyl) of exopolysaccharide. In the region 1135-993 cm-1 , exopolysaccharide of B. cenocepacia KTG strain exhibited the characteristic absorption at 1126 cm-1 corresponding to the existence of α and β configurationsAbstrak Penelitian ini bertujuan untuk mempelajari karakteristik gugus fungsional eksopolisakarida Burkholderia cenocepacia strain KTG di dalam tiga kelas tekstur tanah yang berbeda. Bakteri ini diisolasi dari rizosfer kelapa sawit (Elaeis guineensis Jacq) dan memiliki potensi menghasilkan eksopolisakarida dalam jumlah tinggi (4,3-5,8 mg/mL) untuk membentuk agregat tanah. Fourier-transformed infrared spectroscopy (FTIR) digunakan untuk memperoleh gambaran spektra dari eksopolisakarida. Sebagai tahap awal karakterisasi gugus fungsional, bakteri ditumbuhkan di dalam medium ATCC no.14 dengan 2 % (b/v) sumber karbon berbeda yaitu: sukrosa, glukosa, manitol, laktosa, dan 4- hydroxyphenyl acetic acid dan diuji pula dalam larutan bahan tanah berliat, lempung berpasir, dan pasir berlempung. Hasil analisis dengan spektrum menunjukkan bahwa di dalam medium ATCC no.14 dengan jenis karbon berbeda ataupun di dalam larutan tanah setelah inkubasi 72 jam terlihat penyerapan pita yang intensif pada bilangan gelombang 3403-3400 cm-1 dan 1651-1636 cm-1 yang menandakan gugus hidroksil dan karbonil. Pada wilayah bilangan gelombang 1135-992.9 cm-1 , eksopolisakarida B. cenocepacia strain KTG menunjukkan penyerapan spesifik pada bilangan gelombang 1126 cm-1 yang menandakan konfigurasi ikatan α dan β.

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