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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 81, No 1: Juni 2013" : 5 Documents clear
Respons awal pemberian biostimulan Orgamin pada kelapa sawit (Elaeis guineensis Jacq.) di Kebun Marjandi PTPN IV Early response of Orgamin biostimulan application in oil palm (Elaeis guineensis Jacq.) at PTPN IV Marjandi plantation Soekarno Mismana PUTRA; Djoko SANTOSO; Happy WIDIASTUTI; A. H. SARAGIH SARAGIH; M. A. GHONI GHONI; B. MARAHIMIN MARAHIMIN; K. PANJAITAN PANJAITAN
E-Journal Menara Perkebunan Vol 81, No 1: Juni 2013
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (247.51 KB) | DOI: 10.22302/iribb.jur.mp.v81i1.51

Abstract

AbstractEffort to increase the production of oil palm can beconducted through application of plant growth regulator(PGR). Orgamin biostimulan is a natural PGR formulathat has been tested to improve the vegetative growths ofcorn and oil palm in the glass house. Assessment ofOrgamin and Orgamin plus (Orgamin + micro nutrient)applications at commercial scale was carried out inMarjandi oil palm plantation of PTPN IV usingrandomized block design with three treatments, i.e. K =100% recommended dose of inorganic fertilizer(control), O= Orgamin (1.5 kg/tree) + 50% dose ofinorganic fertilizer, OP = Orgamin plus (1.5 kg/tree)without inorganic fertilizer. The parameters ofobservation at 2.5 months after the treatments were soiland leaf nutrient contents (N, P, K, Mg), percentage offemale flower, mesocarp oil content, and harvested freshfruit bunches (FFB). The observation showed that therewas an increased in oil yield, weight of FFB and leafnutrient content, while the percentage of female flowerand nutrient content of soil were not significantlydifferent compared to the control.AbstrakUpaya untuk meningkatkan produksi kelapa sawitdapat dilakukan antara lain melalui pemberian zatpengatur tumbuh (ZPT). Biostimulan Orgamin merupa-kan formula ZPT alami yang telah diuji di rumah kacapada tanaman jagung dan bibit kelapa sawit. Uji cobaaplikasi Orgamin dan Orgamin plus (Orgamin yangdiperkaya hara mikro) pada skala lapang dilakukan dikebun kelapa sawit Marjandi PTPN IV denganmenggunakan Rancangan Acak Kelompok (RAK) untukmenguji tiga perlakuan, yaitu 1) K (kontrol) = 100%dosis anjuran pupuk kimia (APK = kontrol), 2) O = 50%dosis APK + Orgamin (1,5 kg/pohon), 3) OP = Orgaminplus (1,5 kg/pohon) tanpa pupuk kimia. Peubah yangdiamati pada 2,5 bulan setelah perlakuan adalah kan-dungan hara tanah dan daun (N, P, K, Mg), persentasebunga betina, rendemen minyak mesokarp, dan produksitandan buah segar (TBS). Hasil yang diperoleh menunjukkan terdapat peningkatan rendemen minyak, bobotTBS dan kandungan hara daun, sedangkan persentasebunga betina dan kandungan hara tanah tidak menunjuk-kan perbedaan yang nyata antara perlakuan dan kontrol.
Uji potensi Burkholderia cenocepacia strain KTG sebagai bahan aktif pembenah hayati pada tanah tekstur berpasir di Kalimantan Tengah The potential test of Burkholderia cenocepacia KTG strain as an active ingredient of bio-ameliorant in sandy-textured soil at Central Kalimantan Laksmita Prima SANTI; Didiek Hadjar GOENADI
E-Journal Menara Perkebunan Vol 81, No 1: Juni 2013
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (220.809 KB) | DOI: 10.22302/iribb.jur.mp.v81i1.52

Abstract

AbstractOil palm plantation at Central Kalimantan hasbeen expanded to those areas with sandy-textured soil.This type of soil has limiting factors for plant growth, i.e.unstable soil aggregation and weak organic complexbond that restrain root development and yield. However,efforts to solve this problem are very limited. Theresearch aimed to develop technology to improve theinteractions for promoting a stable soil aggregate ofsandy-textured soil. The use of exopolysaccharideproducing bacteria as a soil bio-ameliorant to mediatesandy soil micro aggregate formation by bio-augmenta-tion technique has become an accepted practice. A highlypotential endophytic bacterium for exopolysaccharidesproduction was isolated from a sandy soil located atKotawaringin Barat-Central Kalimantan. The bacteriumwas identified as Burkholderia cenocepacia KTG strain.The field experiment has been organized according to themethod of randomized complete blocks design with seventreatments of fertilizer in combination with bio-ameliorant and replicated three times. Fertilizer and bio-ameliorant application has been done in November 2009- November 2011. Field trial was evaluated based on theproduction of mature oil palm during January 2010-December 2011 periods. The data obtained indicate thatapplication of bio-ameliorant combined with reduceddosage of N-P-K 16-4-25 was not significantly differentto that of full dosage of N-P-K 16-4-25 treatment.AbstrakPengembangan perkebunan kelapa sawit diKalimantan Tengah telah masuk ke wilayah dengan tanahtekstur berpasir. Jenis tanah ini memiliki faktor pembatasbagi pertumbuhan tanaman seperti ketidakstabilan agregattanah serta ikatan organik kompleks yang lemah,sehingga perkembangan akar tanaman akan mengalamihambatan dan pada akhirnya produktivitas menjadi suboptimal. Bagaimanapun juga, upaya untuk memecahkanmasalah tersebut masih sangat terbatas. Penelitian inibertujuan mengembangkan teknologi untuk meningkat-kan kemantapan agregat tanah tekstur berpasir. Pem-bentukan mikro agregasi tanah dengan memanfaatkanbakteri penghasil eksopolisakarida sebagai pembenahhayati melalui teknik bioaugmentasi merupakan teknologiyang dapat diterapkan secara praktis di lapang. Bakteriendofitik penghasil eksopolisakarida potensial telah ber-hasil diisolasi dari tanah tekstur berpasir, di daerahKotawaringin Barat, Kalimantan Tengah. Bakteri ini di-identifikasi sebagai Burkholderia cenocepacia strainKTG. Tujuh perlakuan yang diuji merupakan kombinasipupuk dan pembenah tanah hayati dengan tiga ulangan.Aplikasi pupuk dan pembenah tanah hayati ini dilakukanselama periode Nopember 2009 - Nopember 2011.Evaluasi dilakukan atas dasar tingkat produktivitaskelapa sawit yang sudah berproduksi selama 16 tahunselama periode Januari 2010 - Desember 2011. Data yangdiperoleh menunjukkan bahwa dosis pembenah tanahyang diuji yang dikom-binasikan dengan penurunan dosispupuk N-P-K 16-4-25 tidak berbeda nyata denganperlakuan penggunaan dosis penuh pupuk N-P-K 16-4-25.
Mikropropagasi planlet tebu menggunakan sistem perendaman sesaat (SPS) Micropropagation of sugarcane plantlets using temporary immersion system (TIS) Hayati MINARSIH; Imron RIYADI; . SUMARYONO; Asmini BUDIANI
E-Journal Menara Perkebunan Vol 81, No 1: Juni 2013
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (448.502 KB) | DOI: 10.22302/iribb.jur.mp.v81i1.53

Abstract

bstractTo achieve Indonesian sugar self-sufficiency in2014, the national production needs to be escalatedthrough land extensification that requires a largenumbers of cane planting materials. This can be achievedby mass propagation of sugarcane through in vitroculture. Solid medium is commonly used for callusproliferation in sugarcane tissue culture. However, solidmedium is considered inefficient in terms of plantletproduction level, labour and space. The use of liquidmedium may solve the problem by allowing automationto increase plantlet production scale and uniformity.Temporary immersion system (TIS) is based on a shortperiodic immersion of explants in a liquid medium for aspecific frequency and duration. Research on in vitromass propagation of sugarcane using TIS was conductedat the Indonesian Biotechnology Research Institute forEstate Crops. Callus initiated from immature unfoldedleaves of PSJT 941 and PS 881 was cultured on liquidMS medium in TIS with different frequencies (12 and24 h) and durations (1 and 3 min) of immersion. Eachtreatment was replicated three times. The callus biomassof two elite cane varieties (PSJT 941 and PS 881)cultured in TIS for six weeks was higher (2 – 4 times fold)than that of on solid medium. The PSJT 941 varietyreached the highest calli biomass with immersion forthree min every 24 h. However, PS 881 variety reachedits highest biomass with immersion for one minute every24 h. The propagation of sugarcane using TIS culturewas proven to produce higher calli biomass up to fourfolds and to form more numbers and uniform shootscompared to the solid medium culture. The callus wassuccesfully regenerated to shoots and plantlets.AbstrakUntuk mencapai swasembada gula, perlu dilakukanpeningkatan produksi gula nasional melalui perluasanareal pertanaman tebu sehingga diperlukan bibit dalamjumlah besar. Hal tersebut dapat diatasi antara laindengan perbanyakan tebu melalui kultur in vitro. Peng-gunaan medium padat pada perbanyakan kalus tebumelalui kultur in vitro merupakan teknik yang umumdigunakan saat ini. Akan tetapi penggunaan mediumpadat dianggap kurang efisien dalam hal jumlah planletyang diproduksi, tenaga kerja dan ruang digunakan.Penggunaan medium cair dapat mengatasi kelemahantersebut dengan dimungkinkannya otomatisasi sehinggadapat meningkatkan skala produksi secara massal dankeseragaman planlet. Sistem perendaman sesaat (SPS)merupakan teknik kultur in vitro dalam medium cairmenggunakan bejana bersekat dimana kontak antaraeksplan dan medium terjadi hanya secara sesaat danperiodik. Penelitian perbanyakan massal bibit tebumelalui SPS dilakukan di Balai Penelitian BioteknologiPerkebunan Indonesia. Kalus diinisiasi dari daun meng-gulung varietas PSJT 941 dan PS 881 yang ditumbuhkanpada media MS cair dalam kultur SPS dengan frekuensiyang berbeda (12 dan 24 jam) dan lama perendaman (1dan 3 menit). Setiap perlakuan diulang tiga kali. Bobotbasah (biomassa) kalus dari dua varietas tebu (PSJT 941dan PS 881) yang ditumbuhkan dengan metode SPSsetelah enam minggu menunjukkan pening-katan yanglebih tinggi yaitu antara 2 - 4 kali lipat dibandingkandengan kontrol (media padat). Peningkatan biomassatertinggi pada varietas PSJT 941 diperoleh pada per-lakuan SPS dengan interval perendaman 24 jam dan lamaperendaman tiga menit. Sedangkan pada PS 881,peningkatan tertinggi biomassa diperoleh pada intervalperendaman 24 jam dan lama perendaman satu menit.Perbanyakan dengan metode SPS terbukti dapat mening-katkan biomassa kalus lebih dari empat kali lipat danpembentukan tunas yang lebih seragam dibandingkandengan pada media padat. Kalus yang dihasilkan dapatdiregenerasikan menjadi tunas dan planlet.
Optimasi sterilisasi permukaan eksplan stek mikro tanaman karet Optimization of surface sterilization on rubber microcutting explan Irfan MARTIANSYAH; Deden Dewantara ERIS; . NURHAIMI-HARIS; Darmono TANIWIRYONO
E-Journal Menara Perkebunan Vol 81, No 1: Juni 2013
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (485.619 KB) | DOI: 10.22302/iribb.jur.mp.v81i1.55

Abstract

AbstractAn increasing number of explants is necessary toobtain plantlets in large quantities, for mass propagationof rubber plants. However, high level of contamination atthe primary culture stage is still a major constraint in invitro microcutting of rubber. The aim of this study was tooptimize surface sterilization procedures to reduce micro-bial contamination at the primary culture. Sterilizationexperiment was conducted in two step., The first step wasto determine the effect of washing the explants withrunning water prior to sterilization and then using Deso-germe, ethanol or H 2 O 2 , while the second step was toidentify the suitable sterilization process on reducing thelevel of contamination. The results showed that the surfacesterilization with only one type of sterilization agent couldnot reduce contamination level caused either by bacteriaor fungi, while sterilization with three types of sterilizingagents increased the number of dead explants. The besttreatment for surface sterilization was the directsterilization of explants using 70% ethanol for one minuteand 17.6% H 2 O 2 for 20 minutes without washing with tapwater (A-CD treatment). The percentage of viable andaseptic explantsof this treatment was 76.7%, which wassignificantly higher than those of other treatments. Thistreatment reduced contamination level to 21.7%.AbstrakPeningkatan jumlah eksplan sangat diperlukan untukmemperoleh planlet dalam jumlah besar pada perbanyakanmassal tanaman karet secara in vitro. Namun, tingginyatingkat kontaminasi pada tahap kultur primer masih me-rupakan kendala utama dalam kultur stek mikro tanamankaret. Tujuan penelitian adalah mengoptimasi prosedursterilisasi permukaan eksplan untuk mengurangi jumlaheksplan yang terkontaminasi mikroba pada tahap kulturprimer. Percobaan sterilisasi dilaksanakan dalam duatahap, tahap pertama untuk mengetahui pengaruh pen-cucian eksplan dengan air mengalir pada awal sterilisasiserta penggunaan Desogerme, etanol dan H 2 O 2 , sedang-kan tahap kedua untuk mendapatkan proses sterilisasi yangpaling sesuai dalam menurunkan tingkat kontaminasi.Hasil penelitian menunjukkan bahwa perlakuan sterilisasipermukaan yang menggunakan satu jenis bahan sterilantidak dapat mengurangi kontaminasi, baik oleh bakterimaupun cendawan. Perlakuan sterilisasi eksplan dengantiga jenis bahan sterilan meningkatkan kematian eksplan.Perlakuan sterilisasi permukaan terbaik adalah sterilisasilangsung eksplan menggunakan etanol 70% selama satu  menit dan H 2 O 2 17,6% selama 20 menit, tanpa pencuciandengan air mengalir (perlakuan A-CD). Persentase eksplansteril yang hidup sebesar 76,7%, berbeda nyata dibanding-kan dengan perlakuan lainnya. Perlakuan tersebut dapatmengurangi kontaminasi menjadi sebesar 21,7%.
Pengaruh periode pra-kondisi dan penutupan sungkup terhadap daya hidup planlet karet (Hevea brasiliensis Muell. Arg) Effect of pre-condition period and vessel closure on the survival rate of rubber (Hevea brasiliensis Muell. Arg) plantlets Masna Maya SINTA; . NURHAIMI-HARIS; . SUMARYONO
E-Journal Menara Perkebunan Vol 81, No 1: Juni 2013
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (191.813 KB) | DOI: 10.22302/iribb.jur.mp.v81i1.47

Abstract

AbstractAcclimatization of plantlets is a critical stage in themicropropagation of many plants. An experiment wasconducted to determine the effect of pre-condition periodand vessel closure on the growth and survival rate ofrubber (Hevea brasiliensis Muell.Arg.) plantlets derivedfrom in vitro microcutting during acclimatization.Plantlets were planted in plastic pots containing mixedgrowing media after being conditioned in ex vitroenvironment for 0, 3 and 6 days. Five closure vesseltreatments were closed pots placed in opened container,opened pots in closed glass container, closed pots inclosed glass container, opened pots in closed plasticcontainer, and closed pots in closed plastic container.Observation on leaf conditions, rooting frequency, andplant height were conducted at 1.5 months and on thepercentage of survive plantlets at 1.5 and 3 months afteracclimatization. The results showed that pre-conditionwas required to increase survival rate and growth of theplantlets. Pre-condition period of six days gave a highersurvival rate than 0 and 3 days which reached 100% and93% on opened pot in closed plastic container and closedpot in opened container, respectively after 1.5 monthsand was reduced to 80% after three months ofacclimatization. The highest formation of new leaves androots were also obtained on six days pre-conditionperiod. Plantlets with pre-condition for six days and wereplanted on closed pots in an opened container had thebest rooting frequency which was 90%. The resultshowed that the highest survival rate (80%) of rubberplantlets after three months was obtained when theplantlets were pre-conditioned in ex vitro conditions forsix days before acclimatization and planted on openedpots in a closed plastic container or closed pots in anopened container.AbstrakAklimatisasi planlet merupakan tahap kritis dalammikropopagasi tanaman. Penelitian dilakukan untuk me-nentukan pengaruh periode pra-kondisi dan penyung-kupan terhadap pertumbuhan dan daya hidup planletkaret (Hevea brasiliensis Muell.Arg.) asal stek mikro (invitro microcutting) selama aklimatisasi. Planlet ditanampada pot plastik berisi campuran media tanam setelahdikondisikan lebih dahulu pada lingkungan luar selama 0,3 dan 6 hari. Lima perlakuan penyungkupan adalahpenanaman planlet pada pot tertutup diletakkan dalamwadah terbuka, pot terbuka dalam wadah kaca tertutup,pot tertutup dalam wadah kaca tertutup, pot terbukadalam wadah plastik tertutup dan pot tertutup dalamwadah plastik tertutup. Pengamatan keadaan daun, pem-bentukan akar dan tinggi tanaman dilakukan pada 1,5bulan, sedangkan persentase planlet yang hidup diamatipada 1,5 dan 3 bulan setelah aklimatisasi. Hasil penelitianmenunjukkan bahwa periode pra-kondisi diperlukanuntuk meningkatkan daya hidup dan pertumbuhanplanlet. Pra-kondisi selama enam hari memberikan dayahidup planlet lebih tinggi dibandingkan dengan 0 dan 3hari yaitu 100% dan 93% pada perlakuan penanamanpada pot terbuka dalam wadah plastik tertutup dan pottertutup dalam wadah terbuka setelah 1,5 bulan danmenjadi 80% setelah tiga bulan. Penambahan daun barudan pembentukan akar tertinggi juga terdapat padaperlakuan pra-kondisi enam hari. Perlakuan pra-kondisienam hari dengan pot tertutup yang diletakkan dalamwadah terbuka memperlihatkan persentase pembentukanakar yang paling baik yakni 90%. Hasil peneltian me-nunjukkan bahwa daya hidup planlet karet tertinggi(80%) pada umur tiga bulan diperoleh apabila planletdipra-kondisi pada lingkungan ex vitro selama enam hari,kemudian ditanam pada pot terbuka dalam wadah plastiktertutup atau pot tertutup dalam wadah terbuka.

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