FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4365514306> ?p ?o ?g. }

• W4365514306 endingPage "1026" @default.
• W4365514306 startingPage "1026" @default.
• W4365514306 abstract "Composting, planting, and breeding waste for return to the field is the most crucial soil improvement method under the resource utilization of agricultural waste. However, how the vegetable yield and rhizosphere soil environment respond to different composts is still unknown. Therefore, eight formulations were designed for compost fermentation using agricultural waste [sheep manure (SM), tail vegetable (TV), cow manure (CM), mushroom residue (MR), and corn straw (CS)] without fertilizer (CK1) and local commercial organic fertilizer (CK2) as controls to study the yield and rhizosphere soil environment of greenhouse zucchini in response to different planting and breeding waste compost. Applying planting and breeding waste compost significantly increased the soil's organic matter and nutrient content. It inhibited soil acidification, which T4 (SM:TV:CS = 6:3:1) and T7 (SM:TV:MR:CS = 6:2:1:1) treatments affected significantly. Compared to CK2 treatment, T4 and T7 treatments showed a greater increase, with a significant increase of 14.69% and 11.01%, respectively. Therefore, T4, T7, and two control treatments were selected for high-throughput sequencing based on yield performance. Compared with the CK1 treatment, although multiple applications of chemical fertilizers led to a decrease in bacterial and fungal richness, planting and breeding waste compost maintained bacterial diversity and enhanced fungal diversity. Compared to CK2, the relative abundance increased in T7-treated Proteobacteria (Sphingomonas, Pseudomonas, and Lysobacter) and T4-treated Bacteroidetes (Flavobacterium) among bacteria. An increase in T4-treated Ascomycota (Zopfiella and Fusarium) and Basidiomycota among fungi and a decrease in T7-treated Mortierellomycota have been observed. Functional predictions of the bacterial Tax4Fun and fungal FUNGuild revealed that applying planting and breeding waste compost from the T4 treatment significantly increased the abundance of soil bacterial Metabolism of Cities, Genetic Information Processing, and Cellular Processes decreased the abundance of Pathotroph and Saprotroph-Symbiotroph fungi and increased the abundance of Saprotroph fungi. Overall, planting and breeding waste compost increased zucchini yield by improving soil fertility and microbial community structure. Among them, T4 treatment has the most significant effect, so T4 treatment can be selected as the optimized formulation of local commercial organic fertilizer. These findings have valuable implications for sustainable agricultural development." @default.
• W4365514306 created "2023-04-15" @default.
• W4365514306 creator A5015330342 @default.
• W4365514306 creator A5018885152 @default.
• W4365514306 creator A5030690368 @default.
• W4365514306 creator A5034078618 @default.
• W4365514306 creator A5051507526 @default.
• W4365514306 creator A5063512679 @default.
• W4365514306 creator A5064463976 @default.
• W4365514306 creator A5067656018 @default.
• W4365514306 creator A5081764611 @default.
• W4365514306 date "2023-04-14" @default.
• W4365514306 modified "2023-10-01" @default.
• W4365514306 title "Yield and Rhizosphere Soil Environment of Greenhouse Zucchini in Response to Different Planting and Breeding Waste Composts" @default.
• W4365514306 cites W1005007408 @default.
• W4365514306 cites W1974792191 @default.
• W4365514306 cites W2022050322 @default.
• W4365514306 cites W2028211778 @default.
• W4365514306 cites W2037343815 @default.
• W4365514306 cites W2062392845 @default.
• W4365514306 cites W2072970694 @default.
• W4365514306 cites W2073041994 @default.
• W4365514306 cites W2077593448 @default.
• W4365514306 cites W2085926377 @default.
• W4365514306 cites W2086381519 @default.
• W4365514306 cites W2088833470 @default.
• W4365514306 cites W2090521269 @default.
• W4365514306 cites W2091922579 @default.
• W4365514306 cites W2101821016 @default.
• W4365514306 cites W2110082875 @default.
• W4365514306 cites W2117634241 @default.
• W4365514306 cites W2122814689 @default.
• W4365514306 cites W2136879569 @default.
• W4365514306 cites W2140148710 @default.
• W4365514306 cites W2149457446 @default.
• W4365514306 cites W2152885278 @default.
• W4365514306 cites W2157107905 @default.
• W4365514306 cites W2161696745 @default.
• W4365514306 cites W2162766846 @default.
• W4365514306 cites W2166313939 @default.
• W4365514306 cites W2171335121 @default.
• W4365514306 cites W2178169754 @default.
• W4365514306 cites W2251921090 @default.
• W4365514306 cites W2341070971 @default.
• W4365514306 cites W2461117243 @default.
• W4365514306 cites W2483880435 @default.
• W4365514306 cites W2518377364 @default.
• W4365514306 cites W2520355709 @default.
• W4365514306 cites W2554240648 @default.
• W4365514306 cites W2587401775 @default.
• W4365514306 cites W2600444459 @default.
• W4365514306 cites W2626602597 @default.
• W4365514306 cites W2735137360 @default.
• W4365514306 cites W2775968996 @default.
• W4365514306 cites W2782835102 @default.
• W4365514306 cites W2786397159 @default.
• W4365514306 cites W2794502566 @default.
• W4365514306 cites W2808609033 @default.
• W4365514306 cites W2891685365 @default.
• W4365514306 cites W2898859351 @default.
• W4365514306 cites W2900030356 @default.
• W4365514306 cites W2922270385 @default.
• W4365514306 cites W2935801218 @default.
• W4365514306 cites W2942629943 @default.
• W4365514306 cites W2943683284 @default.
• W4365514306 cites W2951912016 @default.
• W4365514306 cites W2969422725 @default.
• W4365514306 cites W2971357907 @default.
• W4365514306 cites W2992729924 @default.
• W4365514306 cites W2995206821 @default.
• W4365514306 cites W3002752536 @default.
• W4365514306 cites W3026863885 @default.
• W4365514306 cites W3084934443 @default.
• W4365514306 cites W3131104923 @default.
• W4365514306 cites W3133001495 @default.
• W4365514306 cites W3134037501 @default.
• W4365514306 cites W3136894816 @default.
• W4365514306 cites W3138134184 @default.
• W4365514306 cites W3185965715 @default.
• W4365514306 cites W3200494946 @default.
• W4365514306 cites W4213056911 @default.
• W4365514306 cites W4224217419 @default.
• W4365514306 cites W4249468678 @default.
• W4365514306 cites W4281485508 @default.
• W4365514306 cites W999803590 @default.
• W4365514306 doi "https://doi.org/10.3390/microorganisms11041026" @default.
• W4365514306 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37110447" @default.
• W4365514306 hasPublicationYear "2023" @default.
• W4365514306 type Work @default.
• W4365514306 citedByCount "1" @default.
• W4365514306 countsByYear W43655143062023 @default.
• W4365514306 crossrefType "journal-article" @default.
• W4365514306 hasAuthorship W4365514306A5015330342 @default.
• W4365514306 hasAuthorship W4365514306A5018885152 @default.
• W4365514306 hasAuthorship W4365514306A5030690368 @default.
• W4365514306 hasAuthorship W4365514306A5034078618 @default.
• W4365514306 hasAuthorship W4365514306A5051507526 @default.
• W4365514306 hasAuthorship W4365514306A5063512679 @default.

• next