Improving ruminal degradability of oil palm fronds using white rot fungi

M.M. Rahman, M. Lourenco, H.A. Hassim, J.J.P. Baars, A.S.M. Sonnenberg, J.W. Cone, J.L. de Boever, V. Fievez

Research output: Contribution to journalArticleAcademicpeer-review

28 Citations (Scopus)

Abstract

The use of oil palm fronds (OPF) in livestock production is limited as up to 0.20 of their dry biomass is lignin. White rot fungi (WRF) are very effective basidiomycetes for biological pre-treatment as they degrade lignin extensively. Ten WRF were screened for their potential to increase OPF digestibility, which were colonized with one of the 10 WRF for 3 or 9 wks at 30 °C. After colonization, weight loss, neutral detergent fiber, acid detergent fiber, lignin(pm), cellulose, crude protein and ash were determined. Further, in vitro gas production was determined using rumen fluid either, or not, adapted to OPF. Finally, in vitro degradability of organic matter was determined using cellulase. Results showed that longer colonization was associated with higher dry matter (DM) losses. Phanerochaete chrysosporium had the highest weight loss, whereas OPF colonized for 9 wks with Ceriporiopsis subvermispora, Pleurotus ostreatus, Phlebia brevispora, Lentinula edodes, Pleurotus eryngii and Trametes versicolor had the highest lignin(pm) degradation. Treatments with the highest lignin(pm) loss, rather than selective lignin(pm) degradation, had the most potential to increase in vitro gas or volatile fatty acid production. Nevertheless, total lignin(pm) loss explained only 0.60 of the variation in in vitro DM degradability. It appeared that within the selected group of fungi which had the highest lignin(pm) degradation (i.e., C. subvermispora, Ganoderma lucidum, L. edodes, P. brevispora and P. eryngii), additional cellulose degradation was essential to substantially increase in vitro DM degradability either with rumen fluid adapted, or not, to OPF. C. subvermispora (3 wks) and L. edodes and P. brevispora (9 wks) were most promising for OPF pre-treatment, but relatively high biomass losses during fungi colonization need further research attention.
Original languageEnglish
Pages (from-to)157-166
JournalAnimal Feed Science and Technology
Volume169
Issue number3-4
DOIs
Publication statusPublished - 2011

Keywords

  • in-vitro digestibility
  • chemical-composition
  • wheat-straw
  • cattle feed
  • substrate
  • fermentation
  • lignin
  • waste
  • plant

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