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"Palm Kernel Meal is solid waste from Palm Oil extraction (Ng, 2003). Akubuo & Eje (2002) reported that mechanical extraction produced Palm Kernel Oil (PKO) dan Palm Kernel Meal (PKM). Perez (1997) mentioned that Palm Kernel Meal contains rich arginin, leusin, and sistein matters. Hem et al., (2008), utilizing Palm Kernel Meal pass through bioconversion process for developing larvae Hermetia illucens L. as alternative natural feedstuff in aquaculture industry. Macromolecule composition of Palm Kernel Meal like cellulose, hemicellulose and lignin can be degrade to be simply compound and can be used by another organism like larvae Hermetia illucens L. in bioconversion process. Bioconversion Palm Kernel Meal for feedstuff nutrition consist with microorganism assistance. Suharyanto et al., (2006) define bioconversion as a certain biological process which involving microorganism or enzyme that can change organic matters. Slime molds have great play role in process reduction macromolecule composition of Palm Kernel Meal. Molds have enzyme which can reduce cellulose, hemicellulose and lignin become more simple compound. Study about fermentation fungi already been done through isolation, identification, and fungi screening. However, only a few study about fungi related consist in process bioconversion Palm Kernel Meal reported in Indonesia. This study consist of two part. First part describes the isolation, identification, and growth screening fungi from bioconversion Palm Kernel Meal. Second part of this study describes the fermentation Palm Kernel Meal by selected indigenous fungi. The selected indigenous fungi obtained from result of the first part. The fermentation result included ash matters, crude fiber, crude protein and dry matters experiment. The study was carried out at the Institut de Recherche pour le Developpement (IRD) Laboratory, Depok and the Laboratory of Microbiology, Departement of Biology, UI, Depok during April?Oktober 2009. The isolation of fungi was conducted with spread methods on Potato Dectrose Agar (PDA). Identification of the isolates was carried out on Potato Dectrose Agar (PDA), Czapeck Dox Agar (CDA), and Malt Extract Agar (MEA) based on macroscopic and microscopic morphological observation of the colonies. The Mimura agar (MA) was used for growth fungi screening. The isolation resulted in 15 representative isolates consisting of 4 group of fungi (Aspergillus, Mucor, Penicillium, and Geotrichum). Based on 7 days periods of fermentation processing, Mucor groups had the highest frequency distribution and Geotrichum had the highest quantity. After the growth fungi screening, 4 isolates (P3, P4, P10, P15) was selected for futher study in part II. Microscopic identification showed P3 (Penicillium chrysogenum), P4 (Mucor racemosus), P10 (Aspergillus flavus), and P15 (Geotrichum candidum). Mucor racemosus was the most wide diameter colony on Mimura agar?MA (9 cm) comparing to other isolates. These selected fungi was used for fermentation of Palm Kernel Meal as inoculant. After process bioconversion which fermented was done, proximate analysis were carried out to examine crude protein, crude fiber, ash matters, and dry matters. Ng (2003) methods was used for this Palm Kernel Meal fermentation and Hart & Fisher (1971) was used for proximate analysis. The results after 7 days fermentation showed that the increased nutrition of crude protein composition of Palm Kernel Meal fermented by fungus Aspergillus flavus (1,33%), Geotrichum candidum (5,90%), Mucor racemosus (0,29%), and Penicillium chrysogenum (12,09%). The increased crude fiber contains fermented by Aspergillus flavus (3,03%), Geotrichum candidum (1,93%), Mucor racemosus (4,32%), and Penicillium chrysogenum (14,11%). Chemical cellulose structure and fungi species influence the difference percentage of crude protein and crude fiber. Chemical cellulose structure which amorf shape was more easy to degrade better than crystal shape. Fungi species have difference complexity enzymes (cellulose, hemicellulose, ligninase) and optimum growth level. High oil that can blocked the optimum growth of fungi and raising temperature matter that have involved in aeration and water activity alteration were another influence factor that have made difference percentage of crude protein and crude fiber."

"Limbah industri kelapa sawit Palm Kernel Meal (PKM) dan sampah organik mengandung bahan organik yang tinggi namun belum dimanfaatkan dengan optimal. Pengelolaan sampah yang baik harus dilakukan dengan daur ulang sampah organic. Oleh karena itu, diperlukan solusi berupa biokonversi menggunakan larva Black Soldier Fly (Hermetia illucens) dengan penambahan perlakuan fermentasi untuk mengoptimalkan proses biokonversi. Penelitian ini bertujuan untuk menganalisis pengaruh fermentasi PKM dan sampah organik terhadap pertumbuhan larva Black Soldier Fly (BSF); dan kandungan nutrisi larva BSF. Larva BSF berusia 6 hari (6-DOL) dipelihara pada media pertumbuhan dengan lima perlakuan berbeda, yaitu campuran limbah PKM dan sampah organik fermentasi dan tanpa fermentasi, Analisis data yang digunakan adalah uji normalitas Shapiro-Wilk dan uji homogenitas Levene’s test, dilanjutkan dengan uji ANOVA dengan derajat kepercayaan α=0,05. Hasil penelitian diperoleh campuran limbah dengan fermentasi efektif digunakan sebagai media pertumbuhan larva BSF dalam meningkatkan kelangsungan hidup, konsumsi pakan, indeks reduksi limbah, dan kandungan nutrien berupa protein dan lemak yang tinggi. Sedangkan campuran limbah tanpa fermentasi efektif dalam meningkatkan biomassa larva dan efisiensi konversi pakan. Hasil analisis data menunjukkan penambahan perlakuan fermentasi PKM dan sampah organik sebagai media pertumbuhan tidak berpengaruh signifikan terhadap pertumbuhan larva BSF. Penambahan fermentasi PKM dan sampah organik berpengaruh terhadap kandungan nutrisi larva BSF.

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Palm oil industrial waste Palm Kernel Meal (PKM) and organic waste contain high organic matter but have not been utilized optimally. Good waste management must be done by recycling biowaste. Therefore, we need a solution, namely by bioconversion using Black Soldier Fly (Hermetia illucens) larvae with the addition of fermentation treatment to optimize this bioconversion process. This research aims to analyze the effect of PKM and organic waste fermentation on the growth of Black Soldier Fly (BSF) larvae and nutritional content of BSF larvae. BSF larvae aged 6 days (6-DOL) were maintained on the feed media with five different treatments, namely a mixture of PKM and organic waste fermented and unfermented. Data analysis used was the Shapiro-Wilk test of normality and the Levene's test of homogeneity, continued with ANOVA test with a degree of confidence α =0.05. The results of research showed fermented waste mixture was effectively used as a growth media for BSF larvae in increasing survival rate of BSF larvae, feed consumption rate, waste reduction index, and high nutrient content namely protein and lipid. While the unfermented waste mixture was effectively used as a growth medium for BSF larvae in increasing the biomass of BSF larvae and efficiency conversion of ingested food. The results of data analysis showed that the addition of PKM and organic waste fermentation treatment as a growth medium had no significant effect on the growth of BSF larvae. The addition of PKM and organic waste fermentation affected the nutritional content of BSF larvae."

"Indonesia is the second world producer of palm oil after Malaysia. Beside production of the palm oil, the industry is also yields a huge of amounts of palm kernel meal (PKM or Bungkil sawit). Utilization of PKM is still limited for cosmetic industrial and margarine. Hem et al. 2008a reported that PKM fermentation was used to bioconversion of maggot larvae. The most popular insect used in this particular case is the Black Soldier (BS) fly, Hermetia illucens L (maggot) (Stratiomyidae, Diptera). Hermetia illucens L. is a non-pest tropical and warm-temperate insect that has been found useful for managing large concentrations of bio-solids as well as other by-products and wastes (O'Mara et al.1999; Choct 2001). Many research studies on the larvae of Hermetia illucens L. have also been conducted in Southeast Asian countries and expanded in Indonesia. As previously reported, Hermetia illucens L. has been found effective in reducing the mass of solid wastes (Lim et al. 2001).Research study of Palm Kernel Meal conversion and bacterial succession by Hermetia illucens L. larvae (maggot). The objective of this research are: to observed how to PKM conversion occured, isolation the bacteria, study bacterial succession, to observe changing of physical parameters of substrate and storage room, and analyze the proximate value. The study consists of two part: (1) to describe the process of PKM bioconversion. (2) to describe bacterial succession by Hermetia illucens L. larvae (maggot). The research was carried out at the Loka Riset Budidaya Ikan Hias Air Tawar; Institut de Recherche pour le Développement (IRD) Laboratory, Depok; Microbiology Laboratory -Department of Biology, FMIPA, University of Indonesia, Depok during July 2008 -- June 2009. The study of the Palm Kernel Meal (PKM) naturally conversion of Hermetia illusens L. larvae was carried out. The substrate of PKM was added by sterilized water with the composition of 1:2 (Hem et al. 2008a). The natural conversion was done for 7 days. Sampling and isolation bacteria from PKM bioconversion was carried out every day. The isolation of bacteria was done with dilution methods by Otoguro (2006) and purification was carried out with quadrant methods by Cappucino and Sherman (2002)."

"Lipase mikrobial telah menunjukkan potensi besar sebagai biokatalis di berbagai sektor industri bioteknologi mengingat kemampuannya untuk melakukan aktivitas hidrolitik pada temperatur dan tekanan rendah. Berdasarkan hasil riset, diketahui limbah agoindustri mampu bekerja sebagai substrat yang baik pada proses produksi lipase melalui fermentasi substrat padat (SSF). Penelitian ini bertujuan untuk melakukan sintesis lipase ekstraseluler hasil fermentasi kapang Aspergillus niger dengan metode SSF pada limbah agroindustri berupa bungkil kedelai, bungkil inti sawit, dan serbuk sabut kelapa. Kondisi optimum produksi lipase dikarakterisasi lebih lanjut dengan memvariasikan konsentrasi induser minyak zaitun dan waktu fermentasi. Diperoleh aktivitas spesifik tertinggi 6,22 U/mL dari substrat bungkil kedelai pada waktu fermentasi 9 hari dan penambahan 4% induser. Kinerja lipase dianalisis lebih lanjut pada sampel lipase ekstrak kering hasil pengeringan melalui metode spray drying dan lipase terimobilisasi secara adsorpsi-crosslinking pada resin anion-makropori. Lipase hasil spray drying menunjukkan aktivitas 45 U/g enzim dengan enzyme loading 48,78%. Lipase terimobilisasi diuji nilai aktivitas dengan reaksi hidrolisis dan stabilitas enzim dalam mengkatalisis reaksi interesterifikasi sintesis biodiesel rute non-alkohol pada reaktor batch dengan perbandingan mol reaktan minyak kelapa sawit dan metil asetat 1:12 pada suhu reaksi 40oC selama 50 jam. Diperoleh hasil bahwa lipase terimobilisasi memiliki aktivitas 7,64 U/mL dengan nilai yield relatif 57% dari yield awal setelah empat kali siklus interesterifikasi.

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Microbial lipase has shown great potentials in acting as a biocatalysts in many biotechnological applications due to its ability to perform hydrolitic activities at low temperature and pressure conditions. Many research proves that agroindustrial residues can be an ex-cellent substrate for the production of lipase by solid state fermentation (SSF). This study aimed to produce extracellular lipase from solid state fermentation of filamentous fungi Aspergillus niger by SSF on agroindustrial residues such as palm kernel cake, soybean meal, and coir pith. Fermentation was carried out at room temperature, initial pH of 7, with no improved condition by stirring or aeration. Produced enzymes were later characterized at several inducer concentration and incubation period.

This research obtained lipase with highest activity of 6,22 U/mL coming from soybean meal with 9 days of incubation and addition of 4% olive oil inducer. Lipase activity was further investigated by spray drying and immobilizing anion-macroporous resin. Spray dried lipase showed 45 U/g enzyme activity and enzyme loading of 48,78%. Immobilized enzyme activity was analyzed by hydrolisis and stability was analyzed by utilizing it as a biocatalyst for interesterification reaction in non-alcohol route of biodiesel synthesis in batch reactor with mole comparison 1:!2 of reactant palm oil and methyl acetate in reaction temperature of 40oC and 50 hour cycle. Immobilized enzyme have activity of 7,64 U/mL and relative yield of 57% after four cycle of interesterification."

"Today, Indonesia has the largest palm oil plantation in the world. Palm area in Indonesia, in 2008, according Ditjenbun, Department of Agriculture, estimated to reach 7 million ha (Ditjenbun Deptan 2009). Palm fruit produced by palm oil trees collected in bunches, therefore, often called as Fresh Fruit Bunches (FFB). FFBs are then transported to the factory for further process to produce palm oil. The main product of oil mill is Crude Palm Oil (CPO) and Palm Kernel Oil (PKO). In 2008, about 90,5 ton FFB yielded 18,1 ton of CPO from the fruit (mesocarp) and 2,1 ton of PKO from the nut (palm kernel) (Naibaho 1998; Ditjenbun Deptan 2009; PPKS 2010). When the nut is processed, it yields PKO, Palm Kernel Meal (PKM), and shell. The PKM is the solid part remaining from palm kernel after the extraction of PKO by a mechanical screw pressing. From 90,5 ton of processed FFB can produce about 2,5 ton of PKM. The number of this by-product always be increased due to the growth of the oil palm industry in Indonesia. Institut de Recherche pour le Développement (IRD) has done researches about the application of palm oil industry waste (PKM) as fish feed through bioconversion process using maggot. Maggot is Hermetia illucens L. larvae that has the ability to convert organic material (PKM) into it's biomass. Maggot biomass has then been used to feed fish (Hem et al 2008b). This bioconversion process of PKM using maggot produced waste, which is called Bioconversion Fertilizer Palm Kernel Meal (BFPKM). The aim of this study is to know the effect of BFPKM, as organic fertilizer, to Vigna unguiculata L. Walp (yardlong bean) var. mutiara. The study was held in Balai Riset Ikan Hias and IRD laboratorium Depok, on July until October 2008. This research is an experimental study using a randomized complete design. The parameters observed including the growth of stems, leaves, flowers, pods and roots, between the plants cultivated with BFPKM and without BFPKM. The result shows that BFPKM as organic fertilizer tend to gave a positive effect on the growth of stem, leaf, flower and pod. BFPKM also seem to stimulate the formulation of new branches and make earlier formation of flower. Inside underground, BFPKM tend to show indication to stimulate the growth of the root faster and more branching. Well root development could give more nutritions supply to whole of plant. It was showed by this study. BFPKM supplies nitrogen, phospor, and potassium for plant's growth. That nutriens are needed by plant to grow. So, this study shows that BFPKM can be applied as organic fertilizer that seem to give effect in the growth of yardlong bean."

"Garcinia cymosa (K. Schum) I.M. Turner & P.F. Stevens merupakan salah satu spesies Garcinia yang ada di Indonesia. Penelitian ini bertujuan untuk mengisolasi, mengidentifikasi dan menguji toksisitas terhadap Artemia salina L senyawa kimia dari daun Garcinia cymosa. Isolasi ekstrak aseton dilakukan dengan cara kromatografi kolom dipercepat dan juga kromatografi kolom terbuka. Isolat A diperoleh dari fraksi 3 sedangkan isolat B dari fraksi 5. Berdasarkan analisis spektroskopi, diduga isolat A merupakan friedelin sedangkan isolat B mempunyai gugus cincin aromatis posisi para, C=C, OH, dan C-H. Hasil uji toksisitas dengan metode BSLT (Brine Shrimp Lethality Test) menunjukkan kedua isolat tidak bersifat toksik dengan hasil LC50 2687,208 μg/ml untuk isolat A dan 1890,377 μg/ml untuk isolat B."

"Telah dilakukan penelitian tentang Palm Kernel Meal (PKM) yang difermentasi selama 7 hari secara alami tanpa penambahan inokulum yang hasilnya disebut dengan PKMK. Produk fermentasi ditambahkan dengan telur Hermetia illucens L. (Maggot) dan diinkubasi selama 14 hari. Hasil penelitian menunjukkan adanya kenaikan berat dan panjang maggot. Analisis proksimat menunjukkan kenaikan berat kering, nitrogen total dan serat, tetapi terjadi penurunan lemak dan abu.

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Palm Kernel Meal (PKM) was naturally fermented for 7 days without any addition of inoculum mentioned as Palm Kernel Meal conversion (PKMK). It was added with eggs of Hermetia illucens L. and incubated for 14 days. The results showed that the maggot had increased in mass weight and lenght at the end of the experiment. The proximate analysis of the PKMK showed an increasing of dry content, total nitrogen and fiber, however decreasing of lipid and ash"

"Palm Kernel Meal (PKM) merupakan by-product pengolahan minyak kernel sawit yang jarang dimanfaatkan. Penggunaan masih terbatas sebagai campuran pakan ternak dengan komposisi 3-5% dari total pakan. Hal ini disebabkan tingginya serat kasar mencapai kisaran 20-40% dari berat kering PKM. Padahal, PKM mengandung komposisi mannan dengan kandungan total 45-56% pada jaringan hemiselulosa. Pemanfaatan lebih lanjut biomassa PKM sebagai substrat produksi β-mannanase dan menghasilkan turunan mannooligosakarida (MOS) sangat menjanjikan. Konsentrasi PKM sebagai substrat, pH, suhu inkubasi, dan penambahan mikropartikel Al2O3 sebagai faktor penentu simulasi RSM. Kondisi operasi terpilih menjadi basis scale-up produksi fermentor batch kapasitas 1,5 L dengan pengaruh laju aerasi 1,0 vvm. Disamping, itu dilakukan estimasi parameter kinetika pertumbuhan Kitasatospora sp. produksi aktivitas β-mannanase dan substrat PKM terkonsumsi dengan asumsi model Logistik, Luedeking-Piret dan Modified Luedeking-Piret. Titik optimum yang diperoleh dilanjutkan dengan purifikasi parsial. Setelah itu, hidrolisis PKM dilakukan untuk mengamati sinergisitas pelarut NaOH-HCl dengan enzim sebagai ekstraktor turunan mannan. Simulasi menunjukkan 3% (w/v) PKM, pH 6,5, suhu 34 °C, dan 0,2% (v/v) Al2O3 merupakan kondisi terpilih untuk scale-up. Pada fermentor 1,5 L setelah melalui pemurnian parsial, diperoleh aktivitas tertinggi 44,34 U/mL, laju aktivitas 0,302 U/mL-1 jam-1, konsentrasi delta gula total (ΔS) 39,17 gr/L, dan SUY 78,15%. Estimasi kinetika dari fitting model terukur µmax, Xo, Xmax, β, α, Z, dan γ secara berurutan adalah 0,0492 jam-1; 0,435 gr/L; 8,93 gr/; 0,085 U/mgX.jam; 4,467 U/mgX; 0,026 grS/grX.jam; dan 4,328 grS/grX. Adapun hasil hidrolisis zona bening dan TLC menunjukkan kemampuan β-mannanase yang disintesis Kitasatospora sp. menghasilkan turunan MOS yang didominasi mannobiosa (M2), dengan 72 jam pembentukan dari bantuan pelarut.

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Palm Kernel Meal (PKM), called as by-product from palm kernel oil processing, which is rarely being utilized. The usage is limited as livestock feed’s blend with composition accounted only 3-5% off from total feed. The problem lies on the high content of crude fibres, up to 20-40% of PKM’s dry matter. Meanwhile, PKM contains relatively high mannan comprises around 45-56% from hemicellulose’s tissue. Further application of PKM biomass as substrate for β-mannanase production and resulting any derivatives of mannooligosaccharides (MOS) are very promising. Substrate, initial pH, incubation temperature, and additional microparticle Al2O3 were determined as independent factors for RSM simulation. The chosen condition was used for scalled-up through 1,5 L stirred tank-bioreactor batch, 1,0 vvm aeration rate. The kinetics parameters of Kitastospora sp. growth, enzyme production and substrate consumption were estimated through Logistic, Luedeking-Piret, and Modified Luedeking-Piret model assumption. The optimal point obtained was continued by partial purification. Subsequently, PKM hydrolysis was also done to observe synergistic enzyme effect with NaOH-HCl solvent-assisted for mannan’s derivative produced. The evidence showed 3% (w/v) PKM, pH 6.5, 34 °C, and 0.2% (v/v) Al2O3 were the best operating for β-mannanase production. Further confirmation in scale-up phase indicated the highest enzyme activity, rate of production, total sugar concentration, and SUY were calculated as 44.34 U/mL, 0.302 U/mL-1 hr-1, 39.17 g/L and 78.15%, respectively. Kinetics production parameter components, comprised as µmax, Xo, Xmax, β, α, Z, and γ, were expected around 0,0492 hr-1; 0,435 g/L; 8,93 g/; 0,085 U/mgX.hr; 4,467 U/mgX; 0,026 gS/gX.hr; dan 4,328 gS/gX, respectively. From clear zone and TLC experimental, it proved that the enzyme was capable to produce MOS from PKM, mainly mannobiose (M2) with extension of 72 hours duration by solvent-assisted enzymatic reaction."