FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311192094> ?p ?o ?g. }

• W4311192094 endingPage "696" @default.
• W4311192094 startingPage "696" @default.
• W4311192094 abstract "Soybean (Glycine max Merr.), with a high nutritional value, is an important oil crop and a good protein feed crop. Due to the shortage of high-protein feed and the high import pressure on soybean, scarce high-protein feed is the main research target for improving feed quality. High-quality soybean (Qihuang 34) and high-yield silage maize (Zea mays L.) (Jingling silage 386) varieties were used as the experimental materials in this study. The silage quality and the microbial community of the mixed silage of soybean and maize were analyzed, and the compatible intercropping ratios of maize–soybean mixed silage were evaluated. This experiment designed five strip intercropping systems (SIS) in a randomized block. The intercropping row ratios of maize and soybean were 0:1 (pure soybean, S), 1:0 (pure maize, M), 1:1 (MS1), 1:3 (MS2), and 1:5 (MS3). Dry matter yield and fresh matter yield were improved in the treatments of MS1 and MS2. In the mixed silage systems of maize and soybean, with an increase in soybean proportion, crude protein (CP), neutral detergent fiber (NDF), and acid detergent fiber (ADF) contents gradually increased, but the contents of water-soluble carbohydrates (WSC) and dry matter (DM) reduced to different degrees (p < 0.05). Moreover, the soybean silage alone had a poor fermentation performance, as indicated by high pH, high acetic acid (AA), propionic acid (PA), butyric acid (BA), and ammonia-N (NH3-N) concentrations, and low lactic acid (LA) concentration. By contrast, the mixed silage materials were conducive to reducing the pH, PA, BA, and NH3-N, and increasing the LA content. The relative abundance of Lactobacillus and Weissella in the MS were higher, and the abundance of undesirable bacteria were lower than in the S. The MS2 materials had the lowest pH, the highest LA concentration, and the highest relative abundance of Lactobacillus and Weissella among the three mixed silage groups. Therefore, the mixed silage in the SIS modified the microbial communities and improved the feed fermentation quality while increasing yields. The better intercropping ratio of maize–soybean mixed silage was 1:3. These results could provide a theoretical basis for the wide application and popularization of soybean as a high-protein silage forage source." @default.
• W4311192094 created "2022-12-24" @default.
• W4311192094 creator A5006630405 @default.
• W4311192094 creator A5046920867 @default.
• W4311192094 creator A5053275663 @default.
• W4311192094 creator A5057884357 @default.
• W4311192094 creator A5058313495 @default.
• W4311192094 creator A5064426002 @default.
• W4311192094 creator A5090986135 @default.
• W4311192094 date "2022-12-01" @default.
• W4311192094 modified "2023-09-25" @default.
• W4311192094 title "Effects of Different Soybean and Maize Mixed Proportions in a Strip Intercropping System on Silage Fermentation Quality" @default.
• W4311192094 cites W1010177293 @default.
• W4311192094 cites W1971964220 @default.
• W4311192094 cites W1997087247 @default.
• W4311192094 cites W2055806944 @default.
• W4311192094 cites W2075916875 @default.
• W4311192094 cites W2077607420 @default.
• W4311192094 cites W2105169242 @default.
• W4311192094 cites W2113970444 @default.
• W4311192094 cites W2124351063 @default.
• W4311192094 cites W2139926751 @default.
• W4311192094 cites W2162242672 @default.
• W4311192094 cites W2164718797 @default.
• W4311192094 cites W2216906359 @default.
• W4311192094 cites W2337102810 @default.
• W4311192094 cites W2438126782 @default.
• W4311192094 cites W2605656521 @default.
• W4311192094 cites W2753283687 @default.
• W4311192094 cites W2804967173 @default.
• W4311192094 cites W2806020863 @default.
• W4311192094 cites W2807072179 @default.
• W4311192094 cites W2913100022 @default.
• W4311192094 cites W2914140561 @default.
• W4311192094 cites W3034780668 @default.
• W4311192094 cites W3035496775 @default.
• W4311192094 cites W3094614745 @default.
• W4311192094 cites W3104936110 @default.
• W4311192094 cites W3124022846 @default.
• W4311192094 cites W3125546114 @default.
• W4311192094 cites W3133167764 @default.
• W4311192094 cites W3173759865 @default.
• W4311192094 cites W3208124659 @default.
• W4311192094 cites W4223610117 @default.
• W4311192094 doi "https://doi.org/10.3390/fermentation8120696" @default.
• W4311192094 hasPublicationYear "2022" @default.
• W4311192094 type Work @default.
• W4311192094 citedByCount "1" @default.
• W4311192094 countsByYear W43111920942023 @default.
• W4311192094 crossrefType "journal-article" @default.
• W4311192094 hasAuthorship W4311192094A5006630405 @default.
• W4311192094 hasAuthorship W4311192094A5046920867 @default.
• W4311192094 hasAuthorship W4311192094A5053275663 @default.
• W4311192094 hasAuthorship W4311192094A5057884357 @default.
• W4311192094 hasAuthorship W4311192094A5058313495 @default.
• W4311192094 hasAuthorship W4311192094A5064426002 @default.
• W4311192094 hasAuthorship W4311192094A5090986135 @default.
• W4311192094 hasBestOaLocation W43111920941 @default.
• W4311192094 hasConcept C100544194 @default.
• W4311192094 hasConcept C137580998 @default.
• W4311192094 hasConcept C144938864 @default.
• W4311192094 hasConcept C178790620 @default.
• W4311192094 hasConcept C185592680 @default.
• W4311192094 hasConcept C206139338 @default.
• W4311192094 hasConcept C2776371603 @default.
• W4311192094 hasConcept C2776544680 @default.
• W4311192094 hasConcept C2779039770 @default.
• W4311192094 hasConcept C2779843069 @default.
• W4311192094 hasConcept C2780138947 @default.
• W4311192094 hasConcept C2781208722 @default.
• W4311192094 hasConcept C31903555 @default.
• W4311192094 hasConcept C6557445 @default.
• W4311192094 hasConcept C86803240 @default.
• W4311192094 hasConceptScore W4311192094C100544194 @default.
• W4311192094 hasConceptScore W4311192094C137580998 @default.
• W4311192094 hasConceptScore W4311192094C144938864 @default.
• W4311192094 hasConceptScore W4311192094C178790620 @default.
• W4311192094 hasConceptScore W4311192094C185592680 @default.
• W4311192094 hasConceptScore W4311192094C206139338 @default.
• W4311192094 hasConceptScore W4311192094C2776371603 @default.
• W4311192094 hasConceptScore W4311192094C2776544680 @default.
• W4311192094 hasConceptScore W4311192094C2779039770 @default.
• W4311192094 hasConceptScore W4311192094C2779843069 @default.
• W4311192094 hasConceptScore W4311192094C2780138947 @default.
• W4311192094 hasConceptScore W4311192094C2781208722 @default.
• W4311192094 hasConceptScore W4311192094C31903555 @default.
• W4311192094 hasConceptScore W4311192094C6557445 @default.
• W4311192094 hasConceptScore W4311192094C86803240 @default.
• W4311192094 hasIssue "12" @default.
• W4311192094 hasLocation W43111920941 @default.
• W4311192094 hasOpenAccess W4311192094 @default.
• W4311192094 hasPrimaryLocation W43111920941 @default.
• W4311192094 hasRelatedWork W1608100023 @default.
• W4311192094 hasRelatedWork W1742732922 @default.
• W4311192094 hasRelatedWork W1965564612 @default.
• W4311192094 hasRelatedWork W2245226465 @default.
• W4311192094 hasRelatedWork W2361647782 @default.
• W4311192094 hasRelatedWork W2389574869 @default.

• next