Mushroom Quality Related with Various Substrates’ Bioaccumulation and Translocation of Heavy Metals

SummaryOmphalina sp. a white-rot fungi (WRF)originated from oil palm plantation has abilityto degrade empty fruit bunches of oil palm(EFBOP) so that it is expected to producelaccase with high activity. The ability ofOmphalina sp. to produce laccase enzyme onliquid fermentation will be studied. The enzymewill also be partially purified andcharacterized. The research result showed thatthe highest enzyme activity (1.162 U/mL) wasobtained using glucose malt yeast (GMY)medium at room temperature for four days.The addition of 2,5-xylidine as an inducerproduced laccase earlier i.e two days, but theactivity of laccase was less active afterprolonged incubation compared to that ofcontrol. The laccase produced on mediumcontaining 2% EFBOP reached optimumactivity as much as 0.38 U/mL after 10 th daysof incubation. Partial purification of laccaseon Sephacryl S-200 HR column resulted58.23% of yield recovery with twice purity thanbefore. The optimum pH of laccase was 4.5.Laccase activity was stable even after heatedon 50 o C for 30 minutes, but then decreasedwhen heated until 60 o C. The laccase has K Mand V max as much as 0.15 mM and 0.56 U/mLrespectively.RingkasanOmphalina sp., adalah fungi pelapuk putih(FPP) hasil isolasi dari kebun kelapa sawityang diketahui mampu mendegradasi tandankosong kelapa sawit (TKKS) dengan cepatsehingga diharapkan mampu menghasilkanlakase dengan aktivitas tinggi. KemampuanOmphalina sp. menghasilkan enzim lakasepada fermentasi cair akan dipelajari. Selain itu,lakase yang dihasilkan akan dimurnikan secaraparsial serta dilakukan karakterisasi pH, suhu,dan konsentrasi substrat optimum. Hasilpenelitian menunjukkan bahwa Omphalina sp.menghasilkan lakase dengan aktivitas tertinggi(1,162 U/mL) pada medium glucose malt yeast(GMY) yang diinkubasikan pada suhu ruangselama empat hari. Penambahan 2,5-xilidinsebagai induser mempercepat produksi lakaselebih awal yaitu dalam waktu dua hari, namunaktivitasnya masih lebih rendah dibandingkandengan kontrol pada inkubasi lebih lanjut.Lakase dari Omphalina sp. juga dapatdiproduksi pada medium yang mengandung2% TKKS dan aktivitasnya mencapai0,38 U/mL yang diinkubasi dalam suhu ruangselama 10 hari. Pemurnian parsial pada kolomSephacryl S-200 HR menghasilkan rendemensebesar 58,23% dengan kemurnian dua kalinya.Aktivitas lakase optimum pada pH 4,5 dantetap stabil setelah pemanasan selama 30 menitpada suhu ruang hingga 50 o C dan menuruntajam pada suhu 60 o C. Lakase Omphalina sp.menghasilkan nilai K M dan V maks masing-masing sebesar 0,15 mM dan 0,56 U/mL.

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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+)

E-Journal Menara Perkebunan ◽

10.22302/iribb.jur.mp.v85i2.255 ◽

2017 ◽

Vol 85 (2) ◽

Author(s):

Firda DIMAWARNITA ◽

Tri PANJI

Keyword(s):

Heavy Metals ◽

Waste Treatment ◽

Negative Impact ◽

Enhanced Recovery ◽

White Rot Fungi ◽

Environmentally Friendly ◽

Absorption Spectrometry ◽

Treatment Method ◽

White Rot ◽

Empty Fruit Bunches

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.]

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Biosorpsi ion tembaga dalam limbah tailing menggunakan jamur pelapuk putih amobil Biosorption of copper ion in tailing mining effluent using immobilizede white-rot fungi

E-Journal Menara Perkebunan ◽

10.22302/iribb.jur.mp.v83i1.11 ◽

2016 ◽

Vol 83 (1) ◽

Author(s):

Firda DIMAWARNITA ◽

. SUHARYANTO ◽

. TRI-PANJI1 ◽

Nur RICHANA ◽

Achmad ZAINUDIN

Keyword(s):

Heavy Metals ◽

Agricultural Land ◽

Mining Industry ◽

Copper Ion ◽

White Rot Fungi ◽

Ligninolytic Enzymes ◽

Absorption Capacity ◽

White Rot ◽

Pollution Level ◽

Empty Fruit Bunches

Abstract Copper and gold mining industry produce large amount of tailings effluent containing heavy metals such as Cu and Hg that will polute environment and agricultural land, if it is not properly treated. Effort in reducing pollution level and recovery of metal in tailing could be conducted with biosorption process using microbial cell as an absorbent agent. This study aims to determine the ability of selected white rot fungi (WRF) immobilized on empty fruit bunches of oil palm (EFB) to absorb Cu (II) metals in tailing. Based on growth rate, ligninolytic enzymes activity, and the absorption capacity of heavy metals, the superior WRF candidate was Omphalina sp. The ability of biomass Omphalina sp. to decrease the con-centrateion of Cu (II) with an initial concentration of 150 ppm, up to 63%. Omphalina sp. that immobilized on TKKS was able to reduce Cu (II) as much as 66-77% at pH 4.0 for 60 minutes. Abstrak Eksploitasi tambang tembaga dan emas banyak menghasilkan limbah tailing yang masih me-ngandung logam berat seperti Cu (II) dan Hg (II). Limbah tersebut berpotensi mencemari perairan dan lahan pertanian bila tidak ditangani dengan baik. Usaha untuk mengatasi limbah tailing dan sekaligus memekatkan (recovery) logam di dalam-nya dapat dilakukan dengan proses biosorpsi menggunakan sel mikroba. Penelitian ini bertujuan menetapkan kemampuan biomassa jamur pelapuk putih (JPP) yang diimobilisasi pada tandan kosong kelapa sawit (TKKS) dalam mengabsorpsi ion logam Cu (II). Metode biosorpsi logam yang digunakan dengan sistem batch dengan kadar logam 300 ppm, 200 ppm,dan 150 ppm. Hasil seleksi JPP berdasarkan laju pertumbuhan, aktivitas enzim ligninolitik, dan penyerapan logam berat telah diperoleh kandidat JPP unggul yaitu Omphalina sp. Dalam media PDB, Omphalina sp. toleran terhadap Cu (II) hingga konsentrasi 150 ppm. Kemampuan biomassa Omphalina sp. untuk penurunan konsentrasi Cu (II) dengan konsentrasi awal 150 ppm yaitu mencapai 63%. Omphalina sp. yang diimobilisasi dengan TKKS mampu menurun- kan kandungan Cu (II) sebesar 66-77% pada pH 4.0 selama 60 menit.

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Biodegradation kinetics of oil palm empty fruit bunches by white rot fungi

International Biodeterioration & Biodegradation ◽

10.1016/j.ibiod.2014.03.009 ◽

2014 ◽

Vol 91 ◽

pp. 24-28 ◽

Cited By ~ 14

Author(s):

Yineth Piñeros-Castro ◽

Mario Velásquez-Lozano

Keyword(s):

Oil Palm ◽

White Rot Fungi ◽

White Rot ◽

Biodegradation Kinetics ◽

Empty Fruit Bunches ◽

Kinetics Of

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Produksi dan karakterisasi lakase Omphalina sp. Production and characterization of Omphalina sp. laccase

E-Journal Menara Perkebunan ◽

10.22302/ppbbi.jur.mp.v75i2.177 ◽

2016 ◽

Vol 75 (2) ◽

Author(s):

. SISWANTO ◽

. SUHARYANTO ◽

Rossy FITRIA

Keyword(s):

Oil Palm ◽

Laccase Activity ◽

Research Result ◽

White Rot Fungi ◽

White Rot ◽

Partial Purification ◽

Empty Fruit Bunches ◽

Optimum Ph ◽

Laccase Enzyme

SummaryOmphalina sp. a white-rot fungi (WRF)originated from oil palm plantation has abilityto degrade empty fruit bunches of oil palm(EFBOP) so that it is expected to producelaccase with high activity. The ability ofOmphalina sp. to produce laccase enzyme onliquid fermentation will be studied. The enzymewill also be partially purified andcharacterized. The research result showed thatthe highest enzyme activity (1.162 U/mL) wasobtained using glucose malt yeast (GMY)medium at room temperature for four days.The addition of 2,5-xylidine as an inducerproduced laccase earlier i.e two days, but theactivity of laccase was less active afterprolonged incubation compared to that ofcontrol. The laccase produced on mediumcontaining 2% EFBOP reached optimumactivity as much as 0.38 U/mL after 10 th daysof incubation. Partial purification of laccaseon Sephacryl S-200 HR column resulted58.23% of yield recovery with twice purity thanbefore. The optimum pH of laccase was 4.5.Laccase activity was stable even after heatedon 50 o C for 30 minutes, but then decreasedwhen heated until 60 o C. The laccase has K Mand V max as much as 0.15 mM and 0.56 U/mLrespectively.RingkasanOmphalina sp., adalah fungi pelapuk putih(FPP) hasil isolasi dari kebun kelapa sawityang diketahui mampu mendegradasi tandankosong kelapa sawit (TKKS) dengan cepatsehingga diharapkan mampu menghasilkanlakase dengan aktivitas tinggi. KemampuanOmphalina sp. menghasilkan enzim lakasepada fermentasi cair akan dipelajari. Selain itu,lakase yang dihasilkan akan dimurnikan secaraparsial serta dilakukan karakterisasi pH, suhu,dan konsentrasi substrat optimum. Hasilpenelitian menunjukkan bahwa Omphalina sp.menghasilkan lakase dengan aktivitas tertinggi(1,162 U/mL) pada medium glucose malt yeast(GMY) yang diinkubasikan pada suhu ruangselama empat hari. Penambahan 2,5-xilidinsebagai induser mempercepat produksi lakaselebih awal yaitu dalam waktu dua hari, namunaktivitasnya masih lebih rendah dibandingkandengan kontrol pada inkubasi lebih lanjut.Lakase dari Omphalina sp. juga dapatdiproduksi pada medium yang mengandung2% TKKS dan aktivitasnya mencapai0,38 U/mL yang diinkubasi dalam suhu ruangselama 10 hari. Pemurnian parsial pada kolomSephacryl S-200 HR menghasilkan rendemensebesar 58,23% dengan kemurnian dua kalinya.Aktivitas lakase optimum pada pH 4,5 dantetap stabil setelah pemanasan selama 30 menitpada suhu ruang hingga 50 o C dan menuruntajam pada suhu 60 o C. Lakase Omphalina sp.menghasilkan nilai K M dan V maks masing-masing sebesar 0,15 mM dan 0,56 U/mL.

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Characteristic of oil palm empty fruit bunch pretreated with Pleurotus floridanus (Pretreatment biologi tandan kosong kelapa sawit menggunakan Pleurotus floridanus)

E-Journal Menara Perkebunan ◽

10.22302/iribb.jur.mp.v85i2.234 ◽

2017 ◽

Vol 85 (2) ◽

Author(s):

. ISROI

Keyword(s):

Oil Palm ◽

Lignin Degradation ◽

Lignin Content ◽

White Rot Fungi ◽

Ligninolytic Enzyme ◽

White Rot ◽

Cellulose Content ◽

Biological Pretreatment ◽

Empty Fruit Bunches ◽

Pleurotus Floridanus

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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Pretreatment of Marasmius sp. on Biopulping of Oil Palm Empty Fruit Bunches

Modern Applied Science ◽

10.5539/mas.v9n7p1 ◽

2015 ◽

Vol 9 (7) ◽

pp. 1 ◽

Cited By ~ 5

Author(s):

Hendro Risdianto ◽

Susi Sugesty

Keyword(s):

Oil Palm ◽

Lignin Peroxidase ◽

Manganese Peroxidase ◽

Lignin Content ◽

White Rot Fungi ◽

Kappa Number ◽

White Rot ◽

Empty Fruit Bunches ◽

Degrading Enzymes

White rot fungi have an ability to degrade lignin by employing lignin-degrading enzymes i.e Lignin Peroxidase, Manganese Peroxidase and Laccase. Therefore, the fungi can be utilized on the pretreatment of biomass in pulp making (biopulping) and biobleaching. In this study, the pretreatment using White Rot Fungi of Marasmius sp. has been conducted on the the Oil Palm Empty Fruit Bunches (EFBs). Marasmius sp. has been grown on EFBs for 30 days. The results showed that the lignin content could be removed by 35.94%. However, cellulose and hemicelluloses relatively did not show any changes in the EFBs. From the pulping process, the pretreatment exhibited the Kappa Number of 31.10. Compared to no pretreatment of white rot fungi, the Kappa Number obtained was 38.63. This result demonstrated a promising process for a green pulp making.

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Biosorpsi ion tembaga dalam limbah tailing menggunakan jamur pelapuk putih amobil Biosorption of copper ion in tailing mining effluent using immobilizede white-rot fungi

E-Journal Menara Perkebunan ◽

10.22302/ppbbi.jur.mp.v83i1.11 ◽

2016 ◽

Vol 83 (1) ◽

Author(s):

Firda DIMAWARNITA ◽

. SUHARYANTO ◽

. TRI-PANJI1 ◽

Nur RICHANA ◽

Achmad ZAINUDIN

Keyword(s):

Heavy Metals ◽

Agricultural Land ◽

Mining Industry ◽

Copper Ion ◽

White Rot Fungi ◽

Ligninolytic Enzymes ◽

Absorption Capacity ◽

White Rot ◽

Pollution Level ◽

Empty Fruit Bunches

Abstract Copper and gold mining industry produce large amount of tailings effluent containing heavy metals such as Cu and Hg that will polute environment and agricultural land, if it is not properly treated. Effort in reducing pollution level and recovery of metal in tailing could be conducted with biosorption process using microbial cell as an absorbent agent. This study aims to determine the ability of selected white rot fungi (WRF) immobilized on empty fruit bunches of oil palm (EFB) to absorb Cu (II) metals in tailing. Based on growth rate, ligninolytic enzymes activity, and the absorption capacity of heavy metals, the superior WRF candidate was Omphalina sp. The ability of biomass Omphalina sp. to decrease the con-centrateion of Cu (II) with an initial concentration of 150 ppm, up to 63%. Omphalina sp. that immobilized on TKKS was able to reduce Cu (II) as much as 66-77% at pH 4.0 for 60 minutes. Abstrak Eksploitasi tambang tembaga dan emas banyak menghasilkan limbah tailing yang masih me-ngandung logam berat seperti Cu (II) dan Hg (II). Limbah tersebut berpotensi mencemari perairan dan lahan pertanian bila tidak ditangani dengan baik. Usaha untuk mengatasi limbah tailing dan sekaligus memekatkan (recovery) logam di dalam-nya dapat dilakukan dengan proses biosorpsi menggunakan sel mikroba. Penelitian ini bertujuan menetapkan kemampuan biomassa jamur pelapuk putih (JPP) yang diimobilisasi pada tandan kosong kelapa sawit (TKKS) dalam mengabsorpsi ion logam Cu (II). Metode biosorpsi logam yang digunakan dengan sistem batch dengan kadar logam 300 ppm, 200 ppm,dan 150 ppm. Hasil seleksi JPP berdasarkan laju pertumbuhan, aktivitas enzim ligninolitik, dan penyerapan logam berat telah diperoleh kandidat JPP unggul yaitu Omphalina sp. Dalam media PDB, Omphalina sp. toleran terhadap Cu (II) hingga konsentrasi 150 ppm. Kemampuan biomassa Omphalina sp. untuk penurunan konsentrasi Cu (II) dengan konsentrasi awal 150 ppm yaitu mencapai 63%. Omphalina sp. yang diimobilisasi dengan TKKS mampu menurun- kan kandungan Cu (II) sebesar 66-77% pada pH 4.0 selama 60 menit.

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Improving Ruminal Degradibility Of Oil Palm Fronds Using Enzyme Extracts From White Rot Fungi

10.21203/rs.2.21916/v1 ◽

2020 ◽

Author(s):

Ahmad Fariz - Nicholas ◽

H.A. - Hassim ◽

A.F. - Nicholas ◽

Marta - Lourenço ◽

A.A - Dias ◽

...

Keyword(s):

Oil Palm ◽

Lentinula Edodes ◽

Culture Media ◽

White Rot Fungi ◽

White Rot ◽

Citrate Buffer ◽

Rumen Degradation ◽

Oil Palm Fronds ◽

Palm Fronds

Abstract Background: Oil palm fronds (OPF) when pretreated with white rot fungi (WRF) shows increased rumen degradability but with significant biomass loss. Thus, effects of pre-treated OPF with enzyme extracts from WRF on rumen degradability were studied in vitro. The enzyme extracts were prepared by inoculating OPF with three WRF, i.e Ceriporiopsis subvermispora, Lentinula edodes and Ganoderma lucidum, for 15, 30 and 45 days with either ammonium sulphate, (NH4)2SO4 and sodium nitrate, NaNO3 added to the culture media for each inoculation period. After preparation of enzyme extracts, the enzyme activities were determined. OPF was then pre-treated with enzyme extracts in a citrate buffer (pH 5.0) in a forced air oven at 40 oC during 5 days. Further, the in vitro rumen degradation of OPF pre-treated with enzyme extracts, with respect to the short chain fatty acid (SCFA) production, was determined after 24 h incubation. Activity of lignolytic (laccase and MnP), cellulolytic (CMCase and avicelase) and hemicellulolytic (xylanase) enzymes were measured in all of the extracts irrespective on the inoculation period. Results: Treatment of OPF with enzyme extracts from G. lucidum after 45 days of inoculation showed a numerical increase (13%) in total SCFA and apparently rumen degradable carbohydrates (ARDC) after 24 h in vitro incubation, without any loss of biomass. However, this increase was not clearly correlated to results of the enzyme assays. Conclusion: This study indicates pre-treatment of OPF with enzyme extracts from specific WRF to be promising to enhance the ruminal degradability of OPF without simultaneous loss of biomass.

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