FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891760622> ?p ?o ?g. }

• W2891760622 endingPage "148" @default.
• W2891760622 startingPage "148" @default.
• W2891760622 abstract "Harvesting Miscanthus × giganteus (J.M. Greef & Deuter ex Hodkinson & Renvoize) after shoot emergence is known to reduce yields in subsequent seasons. This research was conducted in Miscanthus to assess the effects on crop response and soil compaction of annually repeated traffic, applied both before new growth in the rhizomes (early harvest) and after shoot emergence (late harvest), at two different soil moisture contents. While an annual early harvest, yields more than a late harvest, because damage to new shoots is avoided, soil compaction may be increased following repeated harvests. Five treatments were tested: (a) An untrafficked control, (b) early-traffic on soil with typical soil moisture content (SMC) (early-normal), (c) early-traffic on soil with elevated SMC (early-elevated), (d) late-traffic on soil with typical SMC (late-normal) and (e) late-traffic on soil with elevated SMC (late-wet). The experiment was conducted on a Gleysol in Co. Dublin, Ireland during 2010 and 2011. Crop response effects were assessed by measuring stem numbers, stem height, trafficked zone biomass yield (November) and overall stem yield (January). Compaction effects were assessed by measuring penetration resistance, bulk density and water infiltration rate. Trafficked zone biomass yield in the early-dry and early-wet treatments was, respectively, 18% and 23% lower than in the control, but was, respectively, 39% and 31% higher than in the late-dry treatment. Overall, stem yield was significantly lower in the late-normal and late-wet treatments (10.4 and 10.1 tdm ha−1 respectively) when compared with the control (12.4 tdm ha−1), but no significant difference was recorded in overall stem yield between both early-traffic treatments and the control. Penetration resistance values were significantly higher in all trafficked treatments when compared with the control at depths of 0.15 m (≥54–61%) and 0.30 m (≥27–57%) and were significantly higher in 2011 when compared with 2010 at depths of 0.15 and 0.30 m. Baler system traffic in Miscanthus significantly reduced yields and significantly increased compaction annually. Miscanthus harvested early, on a dry soil, yielded 1.1 tdm ha−1 more than when harvested late on a dry soil. The yield advantage increased to 1.3 tdm ha−1 when early harvesting on a soil with 40–43% moisture content was compared with late harvesting on a wetter soil (51–52% moisture content). In this study, the magnitude of yield losses from compaction or other causes in early harvests was substantially lower than the yield losses, which resulted from shoot damage in late harvests. It is likely in similar climates that the results of this study would also apply to other perennial crops growing in similar soil types." @default.
• W2891760622 created "2018-09-27" @default.
• W2891760622 creator A5020207626 @default.
• W2891760622 creator A5033976097 @default.
• W2891760622 creator A5046967921 @default.
• W2891760622 creator A5077960481 @default.
• W2891760622 date "2018-09-22" @default.
• W2891760622 modified "2023-09-27" @default.
• W2891760622 title "Effect of Harvest Timing and Soil Moisture Content on Compaction, Growth and Harvest Yield in a Miscanthus Cropping System" @default.
• W2891760622 cites W119615090 @default.
• W2891760622 cites W147142206 @default.
• W2891760622 cites W1486527837 @default.
• W2891760622 cites W1967992677 @default.
• W2891760622 cites W1968161006 @default.
• W2891760622 cites W1987415646 @default.
• W2891760622 cites W2008462595 @default.
• W2891760622 cites W2010277144 @default.
• W2891760622 cites W2016594792 @default.
• W2891760622 cites W2023863006 @default.
• W2891760622 cites W2026078963 @default.
• W2891760622 cites W2039228101 @default.
• W2891760622 cites W2043089599 @default.
• W2891760622 cites W2055880939 @default.
• W2891760622 cites W2058945664 @default.
• W2891760622 cites W2061793262 @default.
• W2891760622 cites W2086738758 @default.
• W2891760622 cites W2094871812 @default.
• W2891760622 cites W2100750361 @default.
• W2891760622 cites W2108234710 @default.
• W2891760622 cites W2129687512 @default.
• W2891760622 cites W2146710227 @default.
• W2891760622 cites W2160049522 @default.
• W2891760622 cites W4231931140 @default.
• W2891760622 doi "https://doi.org/10.3390/agriculture8100148" @default.
• W2891760622 hasPublicationYear "2018" @default.
• W2891760622 type Work @default.
• W2891760622 sameAs 2891760622 @default.
• W2891760622 citedByCount "2" @default.
• W2891760622 countsByYear W28917606222019 @default.
• W2891760622 countsByYear W28917606222021 @default.
• W2891760622 crossrefType "journal-article" @default.
• W2891760622 hasAuthorship W2891760622A5020207626 @default.
• W2891760622 hasAuthorship W2891760622A5033976097 @default.
• W2891760622 hasAuthorship W2891760622A5046967921 @default.
• W2891760622 hasAuthorship W2891760622A5077960481 @default.
• W2891760622 hasBestOaLocation W28917606221 @default.
• W2891760622 hasConcept C115540264 @default.
• W2891760622 hasConcept C127313418 @default.
• W2891760622 hasConcept C156380964 @default.
• W2891760622 hasConcept C159390177 @default.
• W2891760622 hasConcept C159750122 @default.
• W2891760622 hasConcept C187320778 @default.
• W2891760622 hasConcept C188573790 @default.
• W2891760622 hasConcept C18903297 @default.
• W2891760622 hasConcept C21008047 @default.
• W2891760622 hasConcept C21410773 @default.
• W2891760622 hasConcept C24939127 @default.
• W2891760622 hasConcept C2779012619 @default.
• W2891760622 hasConcept C39432304 @default.
• W2891760622 hasConcept C6557445 @default.
• W2891760622 hasConcept C70957220 @default.
• W2891760622 hasConcept C86803240 @default.
• W2891760622 hasConceptScore W2891760622C115540264 @default.
• W2891760622 hasConceptScore W2891760622C127313418 @default.
• W2891760622 hasConceptScore W2891760622C156380964 @default.
• W2891760622 hasConceptScore W2891760622C159390177 @default.
• W2891760622 hasConceptScore W2891760622C159750122 @default.
• W2891760622 hasConceptScore W2891760622C187320778 @default.
• W2891760622 hasConceptScore W2891760622C188573790 @default.
• W2891760622 hasConceptScore W2891760622C18903297 @default.
• W2891760622 hasConceptScore W2891760622C21008047 @default.
• W2891760622 hasConceptScore W2891760622C21410773 @default.
• W2891760622 hasConceptScore W2891760622C24939127 @default.
• W2891760622 hasConceptScore W2891760622C2779012619 @default.
• W2891760622 hasConceptScore W2891760622C39432304 @default.
• W2891760622 hasConceptScore W2891760622C6557445 @default.
• W2891760622 hasConceptScore W2891760622C70957220 @default.
• W2891760622 hasConceptScore W2891760622C86803240 @default.
• W2891760622 hasIssue "10" @default.
• W2891760622 hasLocation W28917606221 @default.
• W2891760622 hasLocation W28917606222 @default.
• W2891760622 hasLocation W28917606223 @default.
• W2891760622 hasOpenAccess W2891760622 @default.
• W2891760622 hasPrimaryLocation W28917606221 @default.
• W2891760622 hasRelatedWork W1966802863 @default.
• W2891760622 hasRelatedWork W2040875649 @default.
• W2891760622 hasRelatedWork W2184804626 @default.
• W2891760622 hasRelatedWork W2215851474 @default.
• W2891760622 hasRelatedWork W2362881579 @default.
• W2891760622 hasRelatedWork W3014248009 @default.
• W2891760622 hasRelatedWork W350016654 @default.
• W2891760622 hasRelatedWork W4385962017 @default.
• W2891760622 hasRelatedWork W852137266 @default.
• W2891760622 hasRelatedWork W2466451862 @default.
• W2891760622 hasVolume "8" @default.
• W2891760622 isParatext "false" @default.
• W2891760622 isRetracted "false" @default.
• W2891760622 magId "2891760622" @default.

• next