FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2154410562> ?p ?o ?g. }

• W2154410562 endingPage "14" @default.
• W2154410562 startingPage "3" @default.
• W2154410562 abstract "The shift towards a biobased economy will probably trigger the application of bioenergy by-products to the soil as either amendments or fertilizers. However, limited research has been done to determine how this will influence C and N dynamics and soil functioning. The aim of this work was to investigate the effects of different bioenergy by-products on C and N mineralisation, nutrient availability and microbial content and activity of amended soil and compare them to other more commonly used organic amendments. Two agricultural soils were amended (0.5% w/w) with four different bioenergy by-products (anaerobic digestate, rapeseed meal, bioethanol residue, biochar) and three other commonly used organic amendments (sewage sludge and two composts) and incubated at 20 °C in the laboratory for 30 days. During incubation, soil CO2 and N2O evolution were measured every 4 h by an automatic chromatographic system. After 2, 7 and 30 days of incubation, soil samples were analysed for K2SO4–extractable C, N, NO3−, NH4+ and P, microbial biomass C and three enzymatic activities (β-glucosidase, alkaline phosphatase and leucine aminopeptidase). Soil amendment led to a general increase in soil respiration, available N and P and microbial content and activity, but with remarkably different dynamics and values. Particularly, rapeseed meal and the bioethanol by-product led to N2O emissions and the greatest increases in soil respiration, N availability and enzymatic activity compared with the other amendments. The exception was represented by biochar that did not cause any significant variation with respect to the control, but promoted C accumulation. According to their impact on soil biochemical properties, the materials can be ranked as follows: rapeseed meal, bioethanol residue > anaerobic digestate, sewage sludge > composts > biochar. For each measured parameter, soil properties did not affect the response pattern found for the different treatments, but modified the magnitude of the response. In particular, soil respiration and enzymatic activity were higher in the slightly acidic soil, while greater values of available P were found in the alkaline soil. This study clearly indicates that the impact on GHG emissions and soil functioning of bioenergy by-products needs to be taken into account for a correct life cycle assessment of the bioenergy chain. Moreover, when properly managed, they may represent an effective alternative to usual amendments to improve the quality and nutrient balance of amended soils." @default.
• W2154410562 created "2016-06-24" @default.
• W2154410562 creator A5017889878 @default.
• W2154410562 creator A5020397374 @default.
• W2154410562 creator A5039901876 @default.
• W2154410562 creator A5042781640 @default.
• W2154410562 creator A5060768996 @default.
• W2154410562 creator A5076295573 @default.
• W2154410562 date "2012-10-01" @default.
• W2154410562 modified "2023-09-26" @default.
• W2154410562 title "Short term effects of bioenergy by-products on soil C and N dynamics, nutrient availability and biochemical properties" @default.
• W2154410562 cites W1977787375 @default.
• W2154410562 cites W1983396708 @default.
• W2154410562 cites W1984555522 @default.
• W2154410562 cites W1985129943 @default.
• W2154410562 cites W1985760417 @default.
• W2154410562 cites W1991454419 @default.
• W2154410562 cites W2004256739 @default.
• W2154410562 cites W2010145755 @default.
• W2154410562 cites W2018687072 @default.
• W2154410562 cites W2019603202 @default.
• W2154410562 cites W2027426378 @default.
• W2154410562 cites W2028906005 @default.
• W2154410562 cites W2034322961 @default.
• W2154410562 cites W2035651662 @default.
• W2154410562 cites W2039082714 @default.
• W2154410562 cites W2046183941 @default.
• W2154410562 cites W2047673655 @default.
• W2154410562 cites W2049343147 @default.
• W2154410562 cites W2057984641 @default.
• W2154410562 cites W2058283143 @default.
• W2154410562 cites W2062159269 @default.
• W2154410562 cites W2064551340 @default.
• W2154410562 cites W2066543945 @default.
• W2154410562 cites W2081337068 @default.
• W2154410562 cites W2089995046 @default.
• W2154410562 cites W2091489700 @default.
• W2154410562 cites W2101688185 @default.
• W2154410562 cites W2103707099 @default.
• W2154410562 cites W2105503244 @default.
• W2154410562 cites W2111269145 @default.
• W2154410562 cites W2115304624 @default.
• W2154410562 cites W2118774354 @default.
• W2154410562 cites W2119857605 @default.
• W2154410562 cites W2121397136 @default.
• W2154410562 cites W2139117538 @default.
• W2154410562 cites W2155315279 @default.
• W2154410562 cites W2164611843 @default.
• W2154410562 cites W4233666594 @default.
• W2154410562 doi "https://doi.org/10.1016/j.agee.2011.06.015" @default.
• W2154410562 hasPublicationYear "2012" @default.
• W2154410562 type Work @default.
• W2154410562 sameAs 2154410562 @default.
• W2154410562 citedByCount "141" @default.
• W2154410562 countsByYear W21544105622012 @default.
• W2154410562 countsByYear W21544105622013 @default.
• W2154410562 countsByYear W21544105622014 @default.
• W2154410562 countsByYear W21544105622015 @default.
• W2154410562 countsByYear W21544105622016 @default.
• W2154410562 countsByYear W21544105622017 @default.
• W2154410562 countsByYear W21544105622018 @default.
• W2154410562 countsByYear W21544105622019 @default.
• W2154410562 countsByYear W21544105622020 @default.
• W2154410562 countsByYear W21544105622021 @default.
• W2154410562 countsByYear W21544105622022 @default.
• W2154410562 countsByYear W21544105622023 @default.
• W2154410562 crossrefType "journal-article" @default.
• W2154410562 hasAuthorship W2154410562A5017889878 @default.
• W2154410562 hasAuthorship W2154410562A5020397374 @default.
• W2154410562 hasAuthorship W2154410562A5039901876 @default.
• W2154410562 hasAuthorship W2154410562A5042781640 @default.
• W2154410562 hasAuthorship W2154410562A5060768996 @default.
• W2154410562 hasAuthorship W2154410562A5076295573 @default.
• W2154410562 hasConcept C111696902 @default.
• W2154410562 hasConcept C142796444 @default.
• W2154410562 hasConcept C150903083 @default.
• W2154410562 hasConcept C156380964 @default.
• W2154410562 hasConcept C159390177 @default.
• W2154410562 hasConcept C159750122 @default.
• W2154410562 hasConcept C17744445 @default.
• W2154410562 hasConcept C178790620 @default.
• W2154410562 hasConcept C185592680 @default.
• W2154410562 hasConcept C199539241 @default.
• W2154410562 hasConcept C2778926930 @default.
• W2154410562 hasConcept C2779184190 @default.
• W2154410562 hasConcept C2779587293 @default.
• W2154410562 hasConcept C2779726014 @default.
• W2154410562 hasConcept C31903555 @default.
• W2154410562 hasConcept C36759035 @default.
• W2154410562 hasConcept C39432304 @default.
• W2154410562 hasConcept C499616599 @default.
• W2154410562 hasConcept C516920438 @default.
• W2154410562 hasConcept C53991642 @default.
• W2154410562 hasConcept C56085101 @default.
• W2154410562 hasConcept C6557445 @default.
• W2154410562 hasConcept C86803240 @default.
• W2154410562 hasConceptScore W2154410562C111696902 @default.
• W2154410562 hasConceptScore W2154410562C142796444 @default.

• next