SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3136016637> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W3136016637 endingPage "115086" @default.
W3136016637 startingPage "115086" @default.
W3136016637 abstract "Soil microbes are crucial for improving soil quality and productivity. Plastic film mulch (FM), in conjunction with fertilization, has significantly improved crop yields over vast areas of dryland production. However, how these practices affect soil microbial communities, especially as regards co-occurrence patterns within microbial taxa, is unclear. The objective of this study was to determine the effects of 10 years of FM and four nitrogen (N) fertilization rates [0 (N0), 100 (N100), 250 (N250), and 400 (N400) kg N ha−1] on soil bacterial and fungal diversity, community structure, composition, and the co-occurrence network in a rainfed maize (Zea mays L.) field on the Loess Plateau of China. Results showed that N fertilization and FM did not affect soil microbial biomass carbon, but these practices changed the soil bacterial and fungal community structures. The bacterial community structure was dominantly affected by N fertilization, owing to the increased soil N content and decreased soil pH, which reduced bacterial community diversity and altered the relative abundance of some copiotrophic/oligotrophic taxa (e.g., Gemmatimonadetes, Acidobacteria, Rokubacteria, and Planctomycetes). Plastic mulch played a greater role in regulating the fungal community structure, primarily because FM increased soil moisture and promoted soil organic matter decomposition, thereby reducing fungal richness and altered the relative abundance of Chytridiomycota, Mortierellomycota, Glomeromycota, and Mucoromycota. Moreover, FM mediated the effects of N fertilization by reducing soil N content, and then increased the N threshold that caused changes in microbial structure. Network analysis indicated that FM caused an unstable co-occurrence network with fewer positive and negative links, while N fertilization increased both positive and negative (except N400) links, indicating enhanced cooperation and competition among microbes. These results indicate that long-term plastic mulch and high N fertilization could result in risk for soil quality in terms of soil microbial community structure and stability, suggesting that developing new management strategies is necessary to sustain dryland productivity." @default.
W3136016637 created "2021-03-29" @default.
W3136016637 creator A5006049901 @default.
W3136016637 creator A5030169492 @default.
W3136016637 creator A5034014845 @default.
W3136016637 creator A5035028879 @default.
W3136016637 creator A5044782859 @default.
W3136016637 creator A5058141045 @default.
W3136016637 creator A5063500802 @default.
W3136016637 creator A5069288363 @default.
W3136016637 creator A5075040229 @default.
W3136016637 creator A5082109205 @default.
W3136016637 date "2021-08-01" @default.
W3136016637 modified "2023-10-11" @default.
W3136016637 title "Soil microbial community and network changes after long-term use of plastic mulch and nitrogen fertilization on semiarid farmland" @default.
W3136016637 cites W1103191734 @default.
W3136016637 cites W1540341967 @default.
W3136016637 cites W1611293757 @default.
W3136016637 cites W1881787789 @default.
W3136016637 cites W1966623514 @default.
W3136016637 cites W1970463643 @default.
W3136016637 cites W1978909792 @default.
W3136016637 cites W1984283607 @default.
W3136016637 cites W1992313621 @default.
W3136016637 cites W1994000771 @default.
W3136016637 cites W1995592814 @default.
W3136016637 cites W2004256739 @default.
W3136016637 cites W2004631178 @default.
W3136016637 cites W2013087770 @default.
W3136016637 cites W2017271145 @default.
W3136016637 cites W2024409415 @default.
W3136016637 cites W2070379189 @default.
W3136016637 cites W2072970694 @default.
W3136016637 cites W2088833470 @default.
W3136016637 cites W2090521269 @default.
W3136016637 cites W2092319808 @default.
W3136016637 cites W2102314695 @default.
W3136016637 cites W2134612321 @default.
W3136016637 cites W2136879569 @default.
W3136016637 cites W2145486274 @default.
W3136016637 cites W2149554986 @default.
W3136016637 cites W2157107905 @default.
W3136016637 cites W2157994386 @default.
W3136016637 cites W2159267296 @default.
W3136016637 cites W2159675211 @default.
W3136016637 cites W2164641345 @default.
W3136016637 cites W2166571569 @default.
W3136016637 cites W2167326146 @default.
W3136016637 cites W2239018980 @default.
W3136016637 cites W2264411566 @default.
W3136016637 cites W2281257454 @default.
W3136016637 cites W2328506293 @default.
W3136016637 cites W2415680839 @default.
W3136016637 cites W2418014268 @default.
W3136016637 cites W2462048002 @default.
W3136016637 cites W2463171417 @default.
W3136016637 cites W2508111570 @default.
W3136016637 cites W2575236649 @default.
W3136016637 cites W2596895947 @default.
W3136016637 cites W2597168654 @default.
W3136016637 cites W2609362419 @default.
W3136016637 cites W2742759730 @default.
W3136016637 cites W2743075779 @default.
W3136016637 cites W2749115738 @default.
W3136016637 cites W2755291024 @default.
W3136016637 cites W2769022917 @default.
W3136016637 cites W2789402830 @default.
W3136016637 cites W2794529768 @default.
W3136016637 cites W2796861976 @default.
W3136016637 cites W2799991505 @default.
W3136016637 cites W2801351933 @default.
W3136016637 cites W2804854320 @default.
W3136016637 cites W2807266883 @default.
W3136016637 cites W2827655227 @default.
W3136016637 cites W2883416811 @default.
W3136016637 cites W2895932308 @default.
W3136016637 cites W2896389018 @default.
W3136016637 cites W2898883362 @default.
W3136016637 cites W2899349701 @default.
W3136016637 cites W2907039706 @default.
W3136016637 cites W2912814895 @default.
W3136016637 cites W2915534985 @default.
W3136016637 cites W2926452870 @default.
W3136016637 cites W2934090855 @default.
W3136016637 cites W2942343579 @default.
W3136016637 cites W2942859111 @default.
W3136016637 cites W2966308192 @default.
W3136016637 cites W2971349858 @default.
W3136016637 cites W2978760395 @default.
W3136016637 cites W2981385593 @default.
W3136016637 cites W795138907 @default.
W3136016637 doi "https://doi.org/10.1016/j.geoderma.2021.115086" @default.
W3136016637 hasPublicationYear "2021" @default.
W3136016637 type Work @default.
W3136016637 sameAs 3136016637 @default.
W3136016637 citedByCount "55" @default.
W3136016637 countsByYear W31360166372021 @default.
W3136016637 countsByYear W31360166372022 @default.