FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3174808047> ?p ?o ?g. }

• W3174808047 endingPage "115016" @default.
• W3174808047 startingPage "115016" @default.
• W3174808047 abstract "Biorefining is a promising method for sustainable feed production through conversion of biomass into a protein concentrate for monogastrics and fibrous pulp for ruminants. Nitrogen (N) content and recovery in pulp and protein concentrate from lucerne, red clover, white clover, perennial ryegrass and tall fescue harvested at different spring cut harvest times were analysed to assess the effect of plant species, developmental stage and number of screw press processing. Plant species and spring cut harvest time affected N content of pulps and protein concentrates (P < 0.01). The N contents of the legume pulps and protein concentrates (22.0–43.2 g/kg dry matter (DM) and 52.1–68.9 g/kg DM, respectively) were higher than corresponding values of the grasses (16.4–31.2 and 38.1–58.9 g/kg DM, respectively) and lowest in late harvested pulps (16.4–29.2 g/kg DM). The proportion of N retained in pulp increased with spring cut harvest time (P < 0.01) and was higher in grasses compared to legumes (544.5–715.1 and 334.0–565.2 g/kg plant N, respectively). Plant species and spring cut harvest time affected N recovery in protein concentrate (P < 0.01) and correlated positively with the plant N content (P < 0.01) and negatively with the plant DM (P < 0.01). The legumes had a higher recovery than grasses (160.2–556.2 g/kg plant N and 160.2–335.6 g/kg plant N, respectively). Regardless of plant species, late spring cut harvests reduced the total N extractability, i.e. recovery after application of a two-step extraction procedure, to 342.8–490.9 g/kg plant N (P < 0.01). The largest proportion of N was extracted from the three legumes (458.4–653.8 g/kg plant N), with the lowest extractability in the late spring cut harvest. The N content and recovery in fractions produced in the biorefining process were dynamic variables influenced by plant species, spring cut harvest time and number of screw press processings. More N was retained in the pulp from late cut grasses whereas the N recovery in protein concentrate was highest in early and intermediate cuts from legumes. The dynamics of N distribution between pulp and protein concentrate highlight the importance of considering input plant species, time of harvest and processing technique in order to enhance recovery and secure efficient utilisation of the biomass as feed for monogastrics and ruminants." @default.
• W3174808047 created "2021-07-05" @default.
• W3174808047 creator A5009051503 @default.
• W3174808047 creator A5049870993 @default.
• W3174808047 creator A5059878094 @default.
• W3174808047 creator A5063885136 @default.
• W3174808047 date "2021-08-01" @default.
• W3174808047 modified "2023-10-10" @default.
• W3174808047 title "Enhancing protein recovery in green biorefineries through selection of plant species and time of harvest" @default.
• W3174808047 cites W1968224478 @default.
• W3174808047 cites W1970189491 @default.
• W3174808047 cites W1995437866 @default.
• W3174808047 cites W2004640128 @default.
• W3174808047 cites W2015266076 @default.
• W3174808047 cites W2023859587 @default.
• W3174808047 cites W2036255971 @default.
• W3174808047 cites W2037843773 @default.
• W3174808047 cites W2040699465 @default.
• W3174808047 cites W2045162340 @default.
• W3174808047 cites W2045987853 @default.
• W3174808047 cites W2057006481 @default.
• W3174808047 cites W2064549095 @default.
• W3174808047 cites W2078003985 @default.
• W3174808047 cites W2111111132 @default.
• W3174808047 cites W2115800747 @default.
• W3174808047 cites W2128202359 @default.
• W3174808047 cites W2146364044 @default.
• W3174808047 cites W2151516389 @default.
• W3174808047 cites W2160466248 @default.
• W3174808047 cites W2586892976 @default.
• W3174808047 cites W2810897850 @default.
• W3174808047 cites W2886779124 @default.
• W3174808047 cites W2912209816 @default.
• W3174808047 cites W2912759819 @default.
• W3174808047 cites W2917277252 @default.
• W3174808047 cites W2918492818 @default.
• W3174808047 cites W2965720479 @default.
• W3174808047 cites W3000095912 @default.
• W3174808047 cites W3006215128 @default.
• W3174808047 cites W81136254 @default.
• W3174808047 doi "https://doi.org/10.1016/j.anifeedsci.2021.115016" @default.
• W3174808047 hasPublicationYear "2021" @default.
• W3174808047 type Work @default.
• W3174808047 sameAs 3174808047 @default.
• W3174808047 citedByCount "8" @default.
• W3174808047 countsByYear W31748080472021 @default.
• W3174808047 countsByYear W31748080472022 @default.
• W3174808047 countsByYear W31748080472023 @default.
• W3174808047 crossrefType "journal-article" @default.
• W3174808047 hasAuthorship W3174808047A5009051503 @default.
• W3174808047 hasAuthorship W3174808047A5049870993 @default.
• W3174808047 hasAuthorship W3174808047A5059878094 @default.
• W3174808047 hasAuthorship W3174808047A5063885136 @default.
• W3174808047 hasBestOaLocation W31748080471 @default.
• W3174808047 hasConcept C140793950 @default.
• W3174808047 hasConcept C142724271 @default.
• W3174808047 hasConcept C144027150 @default.
• W3174808047 hasConcept C150903083 @default.
• W3174808047 hasConcept C185592680 @default.
• W3174808047 hasConcept C188442228 @default.
• W3174808047 hasConcept C24461792 @default.
• W3174808047 hasConcept C2776608655 @default.
• W3174808047 hasConcept C2776632002 @default.
• W3174808047 hasConcept C2780138947 @default.
• W3174808047 hasConcept C2780301381 @default.
• W3174808047 hasConcept C53991642 @default.
• W3174808047 hasConcept C6557445 @default.
• W3174808047 hasConcept C71924100 @default.
• W3174808047 hasConcept C86803240 @default.
• W3174808047 hasConceptScore W3174808047C140793950 @default.
• W3174808047 hasConceptScore W3174808047C142724271 @default.
• W3174808047 hasConceptScore W3174808047C144027150 @default.
• W3174808047 hasConceptScore W3174808047C150903083 @default.
• W3174808047 hasConceptScore W3174808047C185592680 @default.
• W3174808047 hasConceptScore W3174808047C188442228 @default.
• W3174808047 hasConceptScore W3174808047C24461792 @default.
• W3174808047 hasConceptScore W3174808047C2776608655 @default.
• W3174808047 hasConceptScore W3174808047C2776632002 @default.
• W3174808047 hasConceptScore W3174808047C2780138947 @default.
• W3174808047 hasConceptScore W3174808047C2780301381 @default.
• W3174808047 hasConceptScore W3174808047C53991642 @default.
• W3174808047 hasConceptScore W3174808047C6557445 @default.
• W3174808047 hasConceptScore W3174808047C71924100 @default.
• W3174808047 hasConceptScore W3174808047C86803240 @default.
• W3174808047 hasLocation W31748080471 @default.
• W3174808047 hasLocation W31748080472 @default.
• W3174808047 hasOpenAccess W3174808047 @default.
• W3174808047 hasPrimaryLocation W31748080471 @default.
• W3174808047 hasRelatedWork W1598973167 @default.
• W3174808047 hasRelatedWork W1964277009 @default.
• W3174808047 hasRelatedWork W1970409348 @default.
• W3174808047 hasRelatedWork W1982475715 @default.
• W3174808047 hasRelatedWork W2007299325 @default.
• W3174808047 hasRelatedWork W2089263492 @default.
• W3174808047 hasRelatedWork W2098497323 @default.
• W3174808047 hasRelatedWork W2407672150 @default.
• W3174808047 hasRelatedWork W2482153462 @default.
• W3174808047 hasRelatedWork W4285384168 @default.

• next