Matches in SemOpenAlex for { <https://semopenalex.org/work/W3202156676> ?p ?o ?g. }
- W3202156676 endingPage "132404" @default.
- W3202156676 startingPage "132404" @default.
- W3202156676 abstract "The grass-waste management model affects soil organic carbon (SOC) and the microorganism community structure; however, studies on the relationship between the fungal community structure and the SOC chemical component at the aggregate level are poor. Solid-state 13C NMR and 18 S rDNA methods were used to evaluate the relationship between the SOC chemical composition and fungal community abundance at the aggregate level. Grass mulching significantly increased the percentage of labile carbon O-alkyl C (5.19%-11.79%) and decreased the instability of SOC (1.38-0.69). Microaggregates contained higher alkyl C (33.77%) and lower aromatic C (18.31%), and the A/O-A ratio (1.03) was higher than that of macroaggregates (0.89-0.96). Ascomycota, Basidiomycota and Mortierellomycota dominated the fungal community at the phylum level, and their abundance increased after grass mulching. Microaggregates supported more microbial diversity and richness and were rich in the Ascomycota (36.69%-67.49%) phylum, while LM aggregates were rich in Basidiomycota (5.62%-39.84%). We proved that changes in the O-alkyl C, carbonyl C, aromatic C and alkyl C of SOC chemical components were closely connected to fungal community composition, which together explained the change in fungal composition by 63.81%-71.99% among aggregates. We concluded that alterations in the chemical form of organic carbon were closely related to a change in the soil fungal community. This connection has a positive impact on soil nutrient utilization and SOC conversion in fruit-grass composite ecosystems and promotes the understanding of the relationship between the soil microbial community and nutrient cycling during long-term grass waste utilization." @default.
- W3202156676 created "2021-10-11" @default.
- W3202156676 creator A5002384477 @default.
- W3202156676 creator A5030384690 @default.
- W3202156676 creator A5032481596 @default.
- W3202156676 creator A5036698982 @default.
- W3202156676 creator A5050566976 @default.
- W3202156676 creator A5052340237 @default.
- W3202156676 creator A5073462977 @default.
- W3202156676 creator A5074142370 @default.
- W3202156676 date "2022-01-01" @default.
- W3202156676 modified "2023-09-26" @default.
- W3202156676 title "Grass waste utilization to alter aggregate-related carbon chemical composition and fungal community structure in apple orchard" @default.
- W3202156676 cites W1259744928 @default.
- W3202156676 cites W1841464002 @default.
- W3202156676 cites W1969545717 @default.
- W3202156676 cites W1992953206 @default.
- W3202156676 cites W1997008943 @default.
- W3202156676 cites W2010307956 @default.
- W3202156676 cites W2017751403 @default.
- W3202156676 cites W2029096045 @default.
- W3202156676 cites W2034910411 @default.
- W3202156676 cites W2035426804 @default.
- W3202156676 cites W2035879251 @default.
- W3202156676 cites W2041801729 @default.
- W3202156676 cites W2042884447 @default.
- W3202156676 cites W2061910954 @default.
- W3202156676 cites W2075120587 @default.
- W3202156676 cites W2078657230 @default.
- W3202156676 cites W2082465311 @default.
- W3202156676 cites W2083058241 @default.
- W3202156676 cites W2087132535 @default.
- W3202156676 cites W2093515772 @default.
- W3202156676 cites W2105507854 @default.
- W3202156676 cites W2119659142 @default.
- W3202156676 cites W2121124271 @default.
- W3202156676 cites W2166708014 @default.
- W3202156676 cites W2171517785 @default.
- W3202156676 cites W2171821580 @default.
- W3202156676 cites W2181108392 @default.
- W3202156676 cites W2200817828 @default.
- W3202156676 cites W2253902135 @default.
- W3202156676 cites W2264411566 @default.
- W3202156676 cites W2346947525 @default.
- W3202156676 cites W2417749433 @default.
- W3202156676 cites W2419043490 @default.
- W3202156676 cites W2471471051 @default.
- W3202156676 cites W2520577632 @default.
- W3202156676 cites W2566547141 @default.
- W3202156676 cites W2592635279 @default.
- W3202156676 cites W2609362419 @default.
- W3202156676 cites W2618034828 @default.
- W3202156676 cites W2782119243 @default.
- W3202156676 cites W2827655227 @default.
- W3202156676 cites W2898340654 @default.
- W3202156676 cites W2898422843 @default.
- W3202156676 cites W2903502600 @default.
- W3202156676 cites W2904953623 @default.
- W3202156676 cites W2946983210 @default.
- W3202156676 cites W2950039959 @default.
- W3202156676 cites W2998839489 @default.
- W3202156676 cites W3001526648 @default.
- W3202156676 cites W3001761512 @default.
- W3202156676 cites W3011532277 @default.
- W3202156676 cites W3012096610 @default.
- W3202156676 cites W3015330149 @default.
- W3202156676 cites W3025478235 @default.
- W3202156676 cites W3026133474 @default.
- W3202156676 cites W3035951721 @default.
- W3202156676 cites W3123511113 @default.
- W3202156676 cites W3145113809 @default.
- W3202156676 cites W3151966916 @default.
- W3202156676 cites W3192369615 @default.
- W3202156676 cites W795138907 @default.
- W3202156676 doi "https://doi.org/10.1016/j.chemosphere.2021.132404" @default.
- W3202156676 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34597634" @default.
- W3202156676 hasPublicationYear "2022" @default.
- W3202156676 type Work @default.
- W3202156676 sameAs 3202156676 @default.
- W3202156676 citedByCount "5" @default.
- W3202156676 countsByYear W32021566762022 @default.
- W3202156676 countsByYear W32021566762023 @default.
- W3202156676 crossrefType "journal-article" @default.
- W3202156676 hasAuthorship W3202156676A5002384477 @default.
- W3202156676 hasAuthorship W3202156676A5030384690 @default.
- W3202156676 hasAuthorship W3202156676A5032481596 @default.
- W3202156676 hasAuthorship W3202156676A5036698982 @default.
- W3202156676 hasAuthorship W3202156676A5050566976 @default.
- W3202156676 hasAuthorship W3202156676A5052340237 @default.
- W3202156676 hasAuthorship W3202156676A5073462977 @default.
- W3202156676 hasAuthorship W3202156676A5074142370 @default.
- W3202156676 hasConcept C104317684 @default.
- W3202156676 hasConcept C104779481 @default.
- W3202156676 hasConcept C107872376 @default.
- W3202156676 hasConcept C140205800 @default.
- W3202156676 hasConcept C158787203 @default.
- W3202156676 hasConcept C159750122 @default.
- W3202156676 hasConcept C159985019 @default.