SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4380451718> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W4380451718 endingPage "112232" @default.
W4380451718 startingPage "112232" @default.
W4380451718 abstract "Arbuscular mycorrhizal fungi (AMF) can form symbioses with most plants in terrestrial environments. In this study, we aimed to investigate root-associated AMF community of white clover in response to AMF inoculation and AgNPs addition in the multi-contaminated soil. Results demonstrated that mycorrhizal colonization was significantly increased by AMF inocultion in the 50 mg/kg AgNPs treatment. Compared with non-AMF inocultion group, AMF inoculation group exhibited higher shoot dry mass. In plants without AMF, root dry mass markedly declined when AgNPs addition level exceed 2000 mg/kg. The relative abundance of Glomus was above 70% both in rhizosphere and endosphere. The endosphere Glomus abundance was higher than rhizosphere in all groups. AMF inoculation and AgNPs addition did not influence AMF diversity in rhizosphere and endosphere. Shannon, simpson, chao and ace index in rhizosphere was higher than in endosphere. AMF community structures in endosphere were significantly affected by AMF inoculation and AgNPs additions. Soil Ca, Mg, Mn, P, Al, Mo, As, NH4+-N and pH levels had significant correlations with AMF community in rhizosphere and endosphere. In rhizosphere and endosphere, AgNPs addition (≥100 mg/kg) resulted in more complex networks and AMF inoculation decreased network complexity. We concluded that AgNPs and AMF could influence Trifolium repen root-associated AMF community structure only in endosphere, and co-occurrence networks in rhizosphere and endosphere, but have no effect on alpha diversity." @default.
W4380451718 created "2023-06-14" @default.
W4380451718 creator A5024674207 @default.
W4380451718 creator A5069071892 @default.
W4380451718 date "2023-10-01" @default.
W4380451718 modified "2023-10-12" @default.
W4380451718 title "Silver nanoparticles and arbuscular mycorrhizal fungi influence Trifolium repen root-associated AMF community structure and its co-occurrence pattern" @default.
W4380451718 cites W1119582506 @default.
W4380451718 cites W1160326939 @default.
W4380451718 cites W1271326963 @default.
W4380451718 cites W1955697692 @default.
W4380451718 cites W1966066251 @default.
W4380451718 cites W1998792027 @default.
W4380451718 cites W2018788193 @default.
W4380451718 cites W2020808603 @default.
W4380451718 cites W2021419056 @default.
W4380451718 cites W2031329941 @default.
W4380451718 cites W2034098833 @default.
W4380451718 cites W2034986573 @default.
W4380451718 cites W2047795851 @default.
W4380451718 cites W2049918339 @default.
W4380451718 cites W2051987221 @default.
W4380451718 cites W2058457363 @default.
W4380451718 cites W2061332898 @default.
W4380451718 cites W2071252110 @default.
W4380451718 cites W2075982204 @default.
W4380451718 cites W2079054292 @default.
W4380451718 cites W2079248362 @default.
W4380451718 cites W2085258124 @default.
W4380451718 cites W2085841721 @default.
W4380451718 cites W2088370427 @default.
W4380451718 cites W2100418505 @default.
W4380451718 cites W2103292804 @default.
W4380451718 cites W2105260571 @default.
W4380451718 cites W2108718991 @default.
W4380451718 cites W2108882518 @default.
W4380451718 cites W2110029373 @default.
W4380451718 cites W2123607666 @default.
W4380451718 cites W2124200648 @default.
W4380451718 cites W2126065970 @default.
W4380451718 cites W2126164548 @default.
W4380451718 cites W2133962555 @default.
W4380451718 cites W2142711607 @default.
W4380451718 cites W2145044620 @default.
W4380451718 cites W2146106266 @default.
W4380451718 cites W2148595070 @default.
W4380451718 cites W2187467595 @default.
W4380451718 cites W2302018097 @default.
W4380451718 cites W2308170974 @default.
W4380451718 cites W2333582560 @default.
W4380451718 cites W2340506883 @default.
W4380451718 cites W2377769600 @default.
W4380451718 cites W2497601313 @default.
W4380451718 cites W2588803875 @default.
W4380451718 cites W2589351926 @default.
W4380451718 cites W2609816488 @default.
W4380451718 cites W2609922074 @default.
W4380451718 cites W2706255678 @default.
W4380451718 cites W2736946547 @default.
W4380451718 cites W2771755191 @default.
W4380451718 cites W2779127548 @default.
W4380451718 cites W2808060322 @default.
W4380451718 cites W2808395072 @default.
W4380451718 cites W2839631923 @default.
W4380451718 cites W2890970077 @default.
W4380451718 cites W2891465306 @default.
W4380451718 cites W2898845075 @default.
W4380451718 cites W2911026437 @default.
W4380451718 cites W2960624912 @default.
W4380451718 cites W2967112908 @default.
W4380451718 cites W2982487386 @default.
W4380451718 cites W2991533124 @default.
W4380451718 cites W2995603346 @default.
W4380451718 cites W3007927050 @default.
W4380451718 cites W3011202454 @default.
W4380451718 cites W3016026378 @default.
W4380451718 cites W3080458156 @default.
W4380451718 cites W3082120003 @default.
W4380451718 cites W3093476467 @default.
W4380451718 cites W3110548619 @default.
W4380451718 cites W3110823972 @default.
W4380451718 cites W3111890183 @default.
W4380451718 cites W3113537916 @default.
W4380451718 cites W3114693536 @default.
W4380451718 cites W3126653413 @default.
W4380451718 cites W3192936181 @default.
W4380451718 cites W3198572690 @default.
W4380451718 cites W3213556984 @default.
W4380451718 cites W636293812 @default.
W4380451718 doi "https://doi.org/10.1016/j.scienta.2023.112232" @default.
W4380451718 hasPublicationYear "2023" @default.
W4380451718 type Work @default.
W4380451718 citedByCount "1" @default.
W4380451718 crossrefType "journal-article" @default.
W4380451718 hasAuthorship W4380451718A5024674207 @default.
W4380451718 hasAuthorship W4380451718A5069071892 @default.
W4380451718 hasConcept C144027150 @default.
W4380451718 hasConcept C180032290 @default.