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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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Search results for , issue "Vol 85, No 2 (2017): Oktober 2017" : 6 Documents clear
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

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (530.676 KB) | DOI: 10.22302/iribb.jur.mp.v85i2.255

Abstract

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.]
Identifikasi famili gen putatif penyandi protease inhibitor dengan pendekatan in silico komparatif pada genom Hevea brasiliensis Muell. Arg (Identification of putative gene family encoding protease inhibitors by in silico comparative analysis in Hevea brasiliensis Muell. Arg genome) Irfan MARTIANSYAH; Riza Arief PUTRANTO; Nurul KHUMAIDA
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (807.039 KB) | DOI: 10.22302/iribb.jur.mp.v85i2.257

Abstract

AbstractProtease inhibitors (PIs) are small proteins that form complexes with proteases and inhibits their proteolytic activity. Its potential application as an antimicrobial agent has been studied. Most of PIs' molecule size is around 8-22 kDa depending on their protein families.To date, on the basis of sequence homologies of inhibitor domains, PIs have been classified into 48 families in all organisms. In plant, more than 13 families of PIs have been identified but they were not widely identified in the rubber tree (Hevea brasiliensis Muell.Arg). In the present study, 40 putative HbPI genes, designated as HbPI01 to HbPI36, were identified from whole-genome sequence of rubber tree clone Reyan 7-33-97 using 7453 scaffolds available online in NCBI with the accession code: LVXX01000000. Multiple sequence alignment using MUSCLE algorithm discovered seven conserved motifs (Motifs I-VII) among HbPIs. Phylogenetic analysis of 50 and 36 PI amino acid residues of 32 scaffolds containing putative PI genes from Arabidopsis thaliana and H. brasiliensis showed three clusters (families): LTP-I, SERPIN and LTP-II. LTP-I has 23 putative HbPI genes (HbPI05 to HbPI27) and 12 AtPI genes. SERPIN, a family member of serine protease inhibitor group, has 11 putative HbPI genes (HbPI01 to HbPI04 and HbPI28 to HbPI34) and 22 AtPI genes. LTP-II has 2 putative HbPI genes (HbPI35 to HbPI36) and 16 AtPI genes. In conclusion, this work provides valuable information for further functional characterization of HbPI genes in H. brasiliensis.[Key words: protease inhibitor, genome-wide, scaffold, in silico, Hevea brasiliensis]. AbstrakProtease inhibitor (PI) merupakan protein yang membentuk kompleks dengan protease dan menghambat aktivitas proteolitik dari enzim tersebut. Potensi penggunaan protease inhibitor sebagai agensia antimikroba telah diketahui. Kebanyakan PI memiliki ukuran molekul sekitar 8-22 kDa bergantung pada familinya. Saat ini, PI dapat diklasifikasikan menjadi 48 famili di seluruh organisme berdasarkan kemiripan sekuen dari domain inhibitornya. Pada tanaman, lebih dari 13 famili PI telah diketahui tetapi pada tanaman karet (Hevea brasiliensis Muell.Arg) belum diidentifikasi. Pada penelitian ini, sebanyak 40 gen putatif penyandi PI (HbPI01 hingga HbPI36) telah berhasil diidentifikasi dari 7453 scaffold genom utuh tanaman karet klon Reyan 7-33-97 yang tersedia secara daring dengan kode aksesi LVXX01000000. Penjajaran sekuen menggunakan algoritma MUSCLE memper-lihatkan tujuh konservasi motif (Motif I-VIII) pada famili gen putatif HbPIs. Analisis pohon filogenetik dari tanaman Arabidopsis thaliana dan H. brasiliensis sebanyak 50 dan 36 sekuen residu asam amino dari 32 scaffold yang mengandung gen putatif PI menunjukkan adanya tiga klaster besar, yaitu famili LTP-I, SERPIN dan LTP-II. LTP-I terdiri dari 23 gen putatif HbPI (HbPI05 hingga HbPI27) dan 12 gen AtPI. SERPIN yang merupakan anggota kelas protease inhibitor serin terdiri dari 11 gen putatif HbPI (HbPI01hingga HbPI04 dan HbPI28 hingga HbPI34) dan 22 gen AtPI. LTP-II terdiri dari 2 gen putatif HbPI (HbPI35 hingga HbPI36) dan 16 gen AtPIs. Penelitian ini menghasilkan informasi penting untuk melakukan karakterisasi fungsional lebih mendalam pada gen HbPI tanaman karet ke depannya.[Kata kunci: protease inhibitor, genome-wide,scaffold, in silico, Hevea brasiliensis].
Pengaruh periode perendaman air dan komposisi media tumbuh terhadap keberhasilan aklimatisasi planlet sagu (Effect of water immersion period and growing media composition on acclimatization success of sago palm plantlets ) . SUMARYONO; Imron RIYADI
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1553.389 KB) | DOI: 10.22302/iribb.jur.mp.v85i2.242

Abstract

Sago palm (Metroxylon sagu Rottb.) is a carbohydrate-producing crop, commonly propagated by suckers.  The availability of planting materials in a large quantity hinders the development of commercial sago plantations.  Sago propagation by tissue culture via somatic embryogenesis has been developed to provide superior planting materials of sago palm.  One of the major problems faced in tissue culture of sago palm is the low survival rate of plantlets during acclimatization period. The objective of this research was to increase the acclimatization success of sago plantlets in term of survival rate and growth at ex vitro conditions.  The experiments were conducted using a randomized block design with two factors i.e. water immersion period and growing media composition.  The water immersion periods used were without immersion, immersion for 2 days with 1 day intermittent period, immersion for 1 day with 1 day intermittent period, immersion for 1 day with 2 days intermittent period, and continuous immersion.  The growing media used were consisted of top soil, sand, dung manure, and cocopeat at different compositions.  Sago plantlets were planted on small plastic pots and placed inside a closed plastic tunnel for 12 weeks.  Research results showed that continuous water immersion and mixed composition of soil, sand, and cocopeat (1:1:2 v/v) was the best conditions for acclimatization of sago plantlets with the survival rate of 70% after 12 weeks.  The survived plants had good leaves and roots, ready to be transferred to big plastic bags in the main nursery. [Keywords: Metroxylon sagu, sago palm, acclimatization, immersion, media composition]  AbstrakTanaman palma sagu (Metroxylon sagu Rottb.) termasuk tanaman penghasil karbohidrat yang umumnya diperbanyak dengan anakan (suckers).  Ketersediaan bahan tanam dalam jumlah besar merupakan hambatan pengembangan perkebunan sagu komersial.  Kultur jaringan tanaman sagu telah dikembangkan melalui teknik embriogenesis somatik untuk memenuhi kebutuhan bahan tanam unggul sagu.  Salah satu masalah utama dalam kultur jaringan sagu adalah rendahnya daya hidup planlet pada tahap aklimatisasi.  Penelitian ini bertujuan meningkatkan keberhasilan aklimatisasi planlet sagu yang meliputi daya hidup dan pertumbuhan bibit pada lingkungan ex vitro.  Percobaan dilakukan menggunakan rancangan acak kelompok dengan dua faktor yaitu perendaman air dan komposisi media. Perlakuan perendaman air adalah tanpa perendaman, perendaman 2 hari diselang tanpa perendaman 1 hari, perendaman 1 hari diselang tanpa perendaman 1 hari, perendaman 1 hari diselang tanpa perendaman 2 hari, dan perendaman terus menerus.  Komposisi media tumbuh yang digunakan berupa perbandingan volume penyusun yaitu tanah, pasir, pupuk kandang dan cocopeat.  Planlet ditanam di pot kecil dan diletakkan di dalam sungkup plastik tertutup selama 12 minggu.  Hasil penelitian menunjukkan bahwa perlakuan perendaman terus menerus dan media tumbuh campuran tanah, pasir, cocopeat (1:1:2 v/v) merupakan kondisi terbaik pada aklimatisasi planlet sagu dengan daya hidup mencapai 70% setelah 12 minggu.  Bibit yang dihasilkan memiliki daun dan perakaran yang baik, siap untuk dipindahkan ke pot plastik besar di persemaian utama.[Kata kunci:  Metroxylon sagu, sagu, aklimatisasi, perendaman, komposisi media]
Solubilization of silicate from quartz mineral by potential silicate solubilizing bacteria (Pelarutan silika asal mineral kuarsa oleh bakteri pelarut silika potensial ) Laksmita Prima SANTI; Didiek Hadjar GOENADI
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (438.584 KB) | DOI: 10.22302/iribb.jur.mp.v85i2.247

Abstract

Silicon (Si) is the second most abundant materials, existing as a compound of several minerals in the soil varies from 50 to 400 g Si per kg of soil.  Silicon has positive influence on the plant resistance to various abiotic and biotic stressors such as salinity, drought, heavy metal toxicities and diseases. Although Si is abundant in soil, most of its sources are not available for plant uptake due to low solubility of Si compounds in soil.  To improve plant-available Si in the soil, silicate solubilizing bacteria (SSB) are potentially important in solubilizing insoluble forms of silicate. The objectives of this study were to determine: (i) biochemical characteristics of SSB, and (ii) silicate solubilizing activity of Burkholderia cenocepacia KTG, Aeromonas punctata RJM3020, and B. vietnamiensis ZEO3 in magnesium trisilicate (2MgO·3SiO2) and quartz mineral. A laboratory study was conducted at Microbiology and Environment Laboratory, the Indonesian Research Institute for Biotechnology and Bioindustry, Bogor, in 2016. All SSB were grown on Bunt and Rovira media containing 0.25% magnesium trisilicate or quartz mineral as substrate, respectively. Silica solubilizing activities by SSB were determined by using inductively coupled plasma-atomic emission spectrometry while organic acid concentration in the culture were measured by using high-performance liquid chromatography (HPLC).  The results indicate that no correlation between solubilizing silicate activity and clear zone on solid Bunt and Rovira media. B.cenocepacia KTG, A.punctata RJM 3020, and B. vietnamiensis  ZEO3 isolates were capable of producing citric, acetic, and oxalic acid in various optimum incubation time and accelerating the solubilization of SiO2 originated from quartz with Si solubility at 96-hour incubation time are 0.76; 0.86; and 0.70 ppm respectively. [Key words:  Silicate solubilizing bacteria (SSB); Burkholderia cenocepacia KTG, A. punctata RJM 3020, B. vietnamiensis ZEO3, and silisic acid]. Abstrak Silika (Si) merupakan unsur kedua paling banyak dijumpai di dalam tanah dengan  konsentrasi yang sangat beragam antara 50-400 g Si per kg tanah.  Silika memberikan pengaruh positif pada ketahanan tanaman terhadap berbagai cekaman abiotik dan biotik seperti salinitas, kekeringan, toksisitas logam berat, dan penyakit.  Meskipun berlimpah, sebagian besar sumber Si tidak tersedia bagi tanaman, karena kelarutan senyawa Si di dalam tanah cukup rendah. Untuk meningkatkan kelarutan Si di dalam tanah, bakteri pelarut silika berperan penting melarutkan silika dalam bentuk tidak larut.  Penelitian ini bertujuan untuk menetapkan: (i)karakterisasi secara biokimia bakteri pelarut silika, dan (ii) kemampuan melarutkan silika dari sumber magnesium trisilika dan mineral kuarsa oleh Burkholderia cenocepacia KTG, Aeromonas punctata RJM3020, dan B. vietnamiensis ZEO3. Kegiatan penelitian dilakukan di Laboratorium Mikrobiologi dan Lingkungan, Pusat Penelitian Bioteknologi dan Bioindustri Indonesia, Bogor, tahun 2016. Bakteri pelarut silika potensial ditumbuhkan di dalam medium Bunt dan Rovira yang mengandung masing-masing 0, 25% magnesium trisilikat atau kuarsa sebagai substrat. Aktivitas pelarutan silika oleh bakteri pelarut silika ditetapkan dengan spektrofotometer emisi atom dan produksi asam organik diukur dengan kromatografi cair kinerja tinggi (HPLC).  Hasil penelitian ini menunjukkan bahwa tidak ada korelasi antara aktivitas pelarutan silika dengan zona jernih yang terbentuk dalam medium padat Bunt dan Rovira. Isolat B. cenocepacia KTG, A. punctata RJM3020, dan B. vietnamiensis ZEO3 dapat menghasilkan asam sitrat, oksalat, dan asetat dengan waktu inkubasi optimum yang bervariasi. Ketiga isolat tersebut juga dapat melarutkan SiO2 yang berasal dari mineral kuarsa dengan nilai kelarutan Si pada inkubasi 96 jam masing-masing sebesar 0,76;0,86; dan 0,70 ppm. [Kata kunci:  bakteri pelarut silika, Burkholderia cenocepacia KTG, A. punctata RJM 3020, B. vietnamiensis ZEO3, asam silikat.]    
Pemanfaatan bioinformatika dalam bidang pertanian dan kesehatan (The utilization of bioinformatics in the field of agriculture and health) Arli Aditya PARIKESIT; Dito ANUROGO; Riza A PUTRANTO
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iribb.jur.mp.v85i2.237

Abstract

Bioinformatics can be used to manage the data storage resulted from in silico molecular biology experiments. Off-network (offline) applications require large computing resources, in which researchers in the bioinformatics field of agriculture and health sectors do not necessarily possess. This review paper addressed examples of affordable and applicable in silico analytical cases in both mentioned sectors. Genome sequence analysis and in silico drug design using (1) a computational method, pharmacokinetic parameter prediction, (2) Computer Aided Design and Drafting (CADD) technology, (3) potential protein action prediction, (4) OMICs application in stem cell biology, and (5) lncRNAs based database computing internet sites is one of examples. In agriculture, bioinformatics-based research has been used in (1) the development of molecular markers; (2) the design of primer for differential gene expression analysis; (3) the development of genetic maps; and (4) gene expression analysis. Further application of bioinformatics also targets the design of applicative products for pest control and the protection of plant varieties in the farm. Through this example, novice researchers in the bioinformatics field of agriculture and health sectors can conduct sophisticated research using standard computer tools, internet networks, and sufficient knowledge about bioinformatics. On the other hand, multidisciplinary collaboration between these scientists can be carried out through social networking. The synergy can be directed to improve computing capabilities and data analysis via procurement of computing resources and use of public information clusters. [Key words: genome sequences, in silico drug design, online, bioinformatics, health, agriculture.] AbstrakBioinformatika dapat digunakan dalam manajemen informasi di bidang penyimpanan data in silico dari eksperimen biologi molekuler. Aplikasi luar jaringan (luring) memerlukan sumber daya komputasi yang besar, yang belum tentu dimiliki oleh para peneliti dalam bidang bioinformatika kesehatan dan pertanian. Kajian ilmiah ini membahas contoh kasus analisis in silico yang terjangkau dan aplikatif dalam bidang kesehatan dan pertanian. Contoh kasus tersebut adalah analisis sekuen genom dan desain obat in silico, menggunakan pendekatan metode komputasional, prediksi parameter farmakokinetik, teknologi Computer Aided Design and Drafting (CADD), prediksi potensial aksi protein, aplikasi OMICs pada biologi sel punca, hingga komputasi basis data lncRNAs berbasis situs internet. Pada bidang pertanian, penelitian berbasis bioinformatika telah digunakan dalam (1) pengembangan penanda molekuler; (2) desain primer untuk analisis ekspresi gen diferensial; (3) pengembangan peta genetik; dan (4) analisis ekspresi gen. Pemanfaatan bio-informatika dalam ilmu terapan dibidang pertanian juga menyasar desain produk aplikatif untuk pengendalian hama dan perlindungan varietas tanaman. Melalui contoh tersebut, peneliti pemula dibidang bioinformatika kesehatan dan pertanian dapat melakukan penelitian canggih hanya dengan alat komputer standar, jaringan internet, dan pengetahuan mencukupi tentang bioinformatika. Disisi lain, sinergi dan kolaborasi antar peneliti multi-displiner dapat dilakukan melalui penggunaan jejaring sosial. Sinergi tersebut dapat diarahkan untuk meningkatkan kemampuan komputasi dan analisis data melalui pengadaan sumber daya komputasi dan penggunaan klaster informatika publik.[Kata kunci: sekuen genom, desain obat in silico, daring, bioinformatika, kesehatan, pertanian]
Characteristic of oil palm empty fruit bunch pretreated with Pleurotus floridanus (Pretreatment biologi tandan kosong kelapa sawit menggunakan Pleurotus floridanus) . ISROI
E-Journal Menara Perkebunan Vol 85, No 2 (2017): Oktober 2017
Publisher : INDONESIAN RESEARCH INSTITUTE FOR BIOTECHNOLOGY AND BIOINDUSTRY

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (646.956 KB) | DOI: 10.22302/iribb.jur.mp.v85i2.234

Abstract

Pleurotus floridanus have ability on lignin degradation by producing ligninolytic enzyme and prefer to degrade lignin than carbohydrate (hemicellulose and cellulose). Oil palm empty fruit bunches has been pretreated using P. floridanus.  Addition of cation (Cu2+) on biological pretreatment reduced lignin content and increased digestibility of the empty fruit bunches. P. floridanus reduce lignin and hemicellulose content from 23.9% to 10.1% and from 20.8% to 16.9%, respectively. P. floridanus did not degrade cellulose. Cellulose content of empty fruit bunches increase from 40.4% to 51.7%. Crystallinity of empty fruit bunches reduced after biological pretreatment. Crystallinity presented as LOI (lateral order index) of un-treated and biological pretreated oil palm empty fruit bunches are 2.08 and 1.44. Digestibility of the empty fruit bunches increased from 17.2% to 60.3% by biological pretreatment.[Key words:  biological pretreatment, oil palm empty fruit bunches, Pleurotus floridanus, biofuel, white-rot fungi, lignocellulose]AbstrakPleurotus floridanus memiliki kemampuan untuk mendegradasi lignin dengan memproduksi enzim ligninolitik dan lebih memilih untuk mendegradasi lignin daripada karbohidrat (hemiselulosa dan selulosa). Kemampuan unik P. floridanus ini dimanfaatkan dalam pretreatment biologi tandan kosong kelapa sawit. Penambahan kation (Cu2+) pada pretreatment biologi menurunkan kandungan lignin dan meningkatkan digestibiliti tandan kosong kelapa sawit. Perlakuan P. floridanus mengurangi kandungan lignin dan hemiselulosa dari 23,9% menjadi 10,1% dan dari 20,8% menjadi 16,9%. Perlakuan P. floridanus tidak menurunkan kandungan selulosa. Kandungan selulosa tandan kosong kelapa sawit meningkat dari 40,4% menjadi 51,7%. Kristalinitas tandan kosong menurun setelah pretreatment biologi. Kristalinitas yang dinyatakan dalam LOI (LOI, Lateral Order Index) adalah 2,08 untuk tandan kosong tanpa pretreatment biologi dan 1,44 untuk tandan kosong dengan pretreatment biologi. Digestibiliti itandan kosong meningkat dari 17,2% menjadi 60,3%.[Kata kunci: Pretreatment biologi, tandan kosong kelapa sawit, jamur pelapuk putih, lignoselulosa, Pleurotus floridanus]

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