OrganoCat Fractionation of Empty Fruit Bunches from Palm Trees into Lignin, Sugars, and Cellulose-Enriched Pulp

The palm oil industry produces large amounts of empty fruit bunches (EFB) as waste. EFB are very recalcitrant toward further processing, although their valorization could create novel incentives and bio-economic opportunities for the industries involved. Herein, EFB have been successfully subjected to the OrganoCat pretreatment-using 2,5-furandicarboxylic acid as the biogenic catalyst-to fractionate and separate this lignocellulosic material into its main components in a single step. The pretreatment of EFB leads to the deacetylation and depolymerization of noncellulosic polysaccharides and to the partial delignification of the cellulosic fiber. The OrganoCat processing of EFB yielded 45 +/- 0.5 wt % cellulose-enriched pulp, 20 +/- 0.7 wt % extracted lignin, 3.8 +/- 0.2 wt % furfural, and 11 +/- 0.6 wt % hydrolyzed sugars. The obtained EFB-pulp showed high accessibility to cellulases, resulting in a glucan conversion of 73 +/- 2% after 72 h (15 +/- 2% after 1 h) with commercial cellulase cocktail (Accellerase 1500). Overall, the results suggest that the treatment of the EFB material using OrganoCat may create promising paths for the full valorization of EFBs

Injurious pecking in organic turkey fattening—effects of husbandry and feeding on injuries and plumage damage of a slow- (Auburn) and a fast-growing (B.U.T.6) genotype

ABSTRACT: Injuries and plumage damage (PD) are important indicators of welfare. First priority in turkey fattening is to reduce injurious pecking, which includes aggressive pecking (agonistic behavior) and additionally severe feather pecking (SFP) and cannibalism with their multifactorial reasons. Still, there are few studies available evaluating different genotypes for their welfare status under organic conditions. The aim of this study was to investigate the effects of genotype and husbandry with 100% organic feeding (2 variants with different riboflavin content: V1 and V2) on injuries and PD. During rearing nonbeaktrimmed male turkeys of a slow- (Auburn, n = 256) and fast-growing (B.U.T.6, n = 128) genotype were kept in 2 indoor housing systems (without environmental enrichment (EE) = H1−, n = 144 and with EE = H2+, n = 240). During fattening 13 animals per pen of H2+ were relocated to a free-range system (H3 MS, n = 104). EE included pecking stones, elevated seating platforms and silage feeding. The study included five 4-wk feeding phases. At the end of each phase, injuries and PD were scored to assess animal welfare. Injury scores ranged from 0 (=no damage) to 3 (=severe damage) and PD from 0 to 4. Injurious pecking was observed from the 8th week onward (injuries: 16.5% and PD: 31.4%). Binary logistic regression models showed that both indicators were affected by genotype (each P < 0.001), husbandry (each P < 0.001), feeding (injuries P = 0.004; PD P = 0.003), and age (each P < 0.001). Auburn showed less injuries and PD than B.U.T.6. H1− had the fewest injuries and PD for Auburn animals compared to H2+ or H3 MS. In summary, the use of alternative genotypes (Auburn) in organic fattening improved welfare, but keeping them in free-range systems or in husbandry with EE, does not lead to a reduction of injurious pecking. Therefore, further studies are needed with more and changing enrichment materials, further management measures, changes in housing structure, and even more intensive animal care