FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3125944485> ?p ?o ?g. }

• W3125944485 endingPage "605" @default.
• W3125944485 startingPage "593" @default.
• W3125944485 abstract "Tillage represents an important practice that is used to dynamically regulate soil properties, and affects the grain production process and resource use efficiency of crops. The objectives of this 3-year field study carried out in the Huang-Huai-Hai (HHH) Plain of China were to compare the effects of a new deep vertical rotary tillage (DVRT) with the conventional shallow rotary tillage (CT) on soil properties, winter wheat (Triticum aestivum L.) grain yield and water and nitrogen use efficiency at different productivity levels, and to identify a comprehensive management that optimizes both grain yield and resource use efficiency in the HHH Plain. A split-plot design was adopted in field experiments in the winter wheat growing seasons of 2016–2017 (S1), 2017–2018 (S2) and 2018–2019 (S3), with DVRT (conducted once in June 2016) and CT performed in the main plots. Subplots were treated with one of four targeted productivity level treatments (SH, the super high productivity level; HH, the high productivity and high efficiency productivity level; FP, the farmer productivity level; ISP, the inherent soil productivity level). The results showed that the soil bulk density was reduced and the soil water content at the anthesis stage was increased in all three years, which were due to the significant effects of DVRT. Compared with CT, grain yields, partial factor productivity of nitrogen (PFPN), and water use efficiency (WUE) under DVRT were increased by 22.0, 14.5 and 19.0%. Path analysis and direct correlation decomposition uncovered that grain yield variation of winter wheat was mostly contributed by the spike numbers per area under different tillage modes. General line model analysis revealed that tillage mode played a significant role on grain yield, PFPN and WUE not only as a single factor, but also along with other factors (year and productivity level) in interaction manners. In addition, PFPN and WUE were the highest in HH under DVRT in all three growth seasons. These results provided a theoretical basis and technical support for coordinating the high yield with high resource use efficiency of winter wheat in the resource-restricted region in the HHH Plain of China." @default.
• W3125944485 created "2021-02-01" @default.
• W3125944485 creator A5002960277 @default.
• W3125944485 creator A5007320893 @default.
• W3125944485 creator A5008058822 @default.
• W3125944485 creator A5011075350 @default.
• W3125944485 creator A5024299779 @default.
• W3125944485 creator A5031348139 @default.
• W3125944485 creator A5052244848 @default.
• W3125944485 creator A5062388863 @default.
• W3125944485 creator A5086252833 @default.
• W3125944485 date "2021-02-01" @default.
• W3125944485 modified "2023-10-14" @default.
• W3125944485 title "Effects of deep vertical rotary tillage on the grain yield and resource use efficiency of winter wheat in the Huang-Huai-Hai Plain of China" @default.
• W3125944485 cites W1458299140 @default.
• W3125944485 cites W1993762289 @default.
• W3125944485 cites W2016876097 @default.
• W3125944485 cites W2032404833 @default.
• W3125944485 cites W2040902647 @default.
• W3125944485 cites W2042692813 @default.
• W3125944485 cites W2063696057 @default.
• W3125944485 cites W2068600264 @default.
• W3125944485 cites W2076744716 @default.
• W3125944485 cites W2080001390 @default.
• W3125944485 cites W2091514109 @default.
• W3125944485 cites W2092447923 @default.
• W3125944485 cites W2093613736 @default.
• W3125944485 cites W2142015113 @default.
• W3125944485 cites W2247976862 @default.
• W3125944485 cites W2291380471 @default.
• W3125944485 cites W2311415112 @default.
• W3125944485 cites W2345928369 @default.
• W3125944485 cites W2581467878 @default.
• W3125944485 cites W2592097997 @default.
• W3125944485 cites W2625219112 @default.
• W3125944485 cites W2744755404 @default.
• W3125944485 cites W2745024704 @default.
• W3125944485 cites W2789926807 @default.
• W3125944485 cites W2883699339 @default.
• W3125944485 cites W2916297462 @default.
• W3125944485 cites W2944892752 @default.
• W3125944485 cites W2968492998 @default.
• W3125944485 cites W340885835 @default.
• W3125944485 doi "https://doi.org/10.1016/s2095-3119(20)63405-0" @default.
• W3125944485 hasPublicationYear "2021" @default.
• W3125944485 type Work @default.
• W3125944485 sameAs 3125944485 @default.
• W3125944485 citedByCount "17" @default.
• W3125944485 countsByYear W31259444852021 @default.
• W3125944485 countsByYear W31259444852022 @default.
• W3125944485 countsByYear W31259444852023 @default.
• W3125944485 crossrefType "journal-article" @default.
• W3125944485 hasAuthorship W3125944485A5002960277 @default.
• W3125944485 hasAuthorship W3125944485A5007320893 @default.
• W3125944485 hasAuthorship W3125944485A5008058822 @default.
• W3125944485 hasAuthorship W3125944485A5011075350 @default.
• W3125944485 hasAuthorship W3125944485A5024299779 @default.
• W3125944485 hasAuthorship W3125944485A5031348139 @default.
• W3125944485 hasAuthorship W3125944485A5052244848 @default.
• W3125944485 hasAuthorship W3125944485A5062388863 @default.
• W3125944485 hasAuthorship W3125944485A5086252833 @default.
• W3125944485 hasBestOaLocation W31259444851 @default.
• W3125944485 hasConcept C134121241 @default.
• W3125944485 hasConcept C139719470 @default.
• W3125944485 hasConcept C149207113 @default.
• W3125944485 hasConcept C159390177 @default.
• W3125944485 hasConcept C159750122 @default.
• W3125944485 hasConcept C162324750 @default.
• W3125944485 hasConcept C16397148 @default.
• W3125944485 hasConcept C191897082 @default.
• W3125944485 hasConcept C192562407 @default.
• W3125944485 hasConcept C204983608 @default.
• W3125944485 hasConcept C2776325102 @default.
• W3125944485 hasConcept C2780696901 @default.
• W3125944485 hasConcept C33923547 @default.
• W3125944485 hasConcept C39432304 @default.
• W3125944485 hasConcept C6557445 @default.
• W3125944485 hasConcept C75639521 @default.
• W3125944485 hasConcept C86803240 @default.
• W3125944485 hasConcept C88862950 @default.
• W3125944485 hasConcept C93973069 @default.
• W3125944485 hasConceptScore W3125944485C134121241 @default.
• W3125944485 hasConceptScore W3125944485C139719470 @default.
• W3125944485 hasConceptScore W3125944485C149207113 @default.
• W3125944485 hasConceptScore W3125944485C159390177 @default.
• W3125944485 hasConceptScore W3125944485C159750122 @default.
• W3125944485 hasConceptScore W3125944485C162324750 @default.
• W3125944485 hasConceptScore W3125944485C16397148 @default.
• W3125944485 hasConceptScore W3125944485C191897082 @default.
• W3125944485 hasConceptScore W3125944485C192562407 @default.
• W3125944485 hasConceptScore W3125944485C204983608 @default.
• W3125944485 hasConceptScore W3125944485C2776325102 @default.
• W3125944485 hasConceptScore W3125944485C2780696901 @default.
• W3125944485 hasConceptScore W3125944485C33923547 @default.
• W3125944485 hasConceptScore W3125944485C39432304 @default.
• W3125944485 hasConceptScore W3125944485C6557445 @default.
• W3125944485 hasConceptScore W3125944485C75639521 @default.
• W3125944485 hasConceptScore W3125944485C86803240 @default.

• next