FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4281846506> ?p ?o ?g. }

• W4281846506 endingPage "e13552" @default.
• W4281846506 startingPage "e13552" @default.
• W4281846506 abstract "Populus euphratica is one of the most ancient and primitive tree species of Populus spp and plays an important role in maintaining the ecological balance in desert areas. To decipher the diversity, community structure, and relationship between rhizosphere fungi and environmental factors at different growth stages of P. euphratica demands an in-depth investigation.In this study, P. euphratica at different growth stages (young, medium, overripe, and decline periods) was selected as the research object, based on the determination of the physicochemical properties of its rhizosphere soil, the fungal community structure and diversity of P. euphratica and their correlation with soil physicochemical properties were comprehensively analyzed through high-throughput sequencing technology (internal transcribed spacer (ITS)) and bioinformatics analysis methods.According to the analysis of OTU annotation results, the rhizosphere soil fungal communities identified in Populus euphratica were categorized into10 phyla, 36 classes, 77 orders, 165 families, 275 genera and 353 species. The alpha diversity analysis showed that there was no obvious change between the different growth stages, while beta diversity analysis showed that there were significantly differences in the composition of rhizosphere soil fungal communities between mature and overripe trees (R2 = 0.31, P = 0.001), mature and deadwood (R2 = 0.28, P = 0.001). Ascomycota and Basidiomycota were dominant phyla in the rhizosphere fungal community and the dominant genera were Geopora, Chondrostereum and unidentified_Sordariales_sp. The relative abundance of the top ten fungi at each classification level differed greatly in different stages. Canonical correspondence analysis (CCA) and Spearman's correlation analysis showed that conductivity (EC) was the main soil factor affecting the composition of Populus euphratica rhizosphere soil fungal community (P < 0.01), followed by total dissolvable salts (TDS) and available potassium (AK) (P < 0.05).Our data revealed that the rhizosphere fungal communities at the different growth stages of P. euphratica have differences, conductivity (EC) was the key factor driving rhizosphere fungi diversity and community structure, followed by total dissolvable salts (TDS) and available potassium (AK)." @default.
• W4281846506 created "2022-06-13" @default.
• W4281846506 creator A5025719174 @default.
• W4281846506 creator A5030429429 @default.
• W4281846506 creator A5047839791 @default.
• W4281846506 creator A5059983903 @default.
• W4281846506 creator A5065626069 @default.
• W4281846506 creator A5073722346 @default.
• W4281846506 date "2022-06-02" @default.
• W4281846506 modified "2023-09-25" @default.
• W4281846506 title "High-throughput sequencing reveals rhizosphere fungal community composition and diversity at different growth stages of <i>Populus euphratica</i> in the lower reaches of the Tarim River" @default.
• W4281846506 cites W1539540705 @default.
• W4281846506 cites W1604674059 @default.
• W4281846506 cites W1997711324 @default.
• W4281846506 cites W2004868347 @default.
• W4281846506 cites W2041318036 @default.
• W4281846506 cites W2053257958 @default.
• W4281846506 cites W2055043387 @default.
• W4281846506 cites W2072970694 @default.
• W4281846506 cites W2076419712 @default.
• W4281846506 cites W2081647782 @default.
• W4281846506 cites W2086865963 @default.
• W4281846506 cites W2088833470 @default.
• W4281846506 cites W2097769208 @default.
• W4281846506 cites W2101120467 @default.
• W4281846506 cites W2105021908 @default.
• W4281846506 cites W2108635647 @default.
• W4281846506 cites W2125741498 @default.
• W4281846506 cites W2132926880 @default.
• W4281846506 cites W2157107905 @default.
• W4281846506 cites W2160947363 @default.
• W4281846506 cites W2166313939 @default.
• W4281846506 cites W2256401552 @default.
• W4281846506 cites W2384447991 @default.
• W4281846506 cites W2397246897 @default.
• W4281846506 cites W2886273625 @default.
• W4281846506 cites W2913341302 @default.
• W4281846506 cites W2982493110 @default.
• W4281846506 cites W3007693318 @default.
• W4281846506 cites W3025015109 @default.
• W4281846506 cites W3087663275 @default.
• W4281846506 cites W3097547358 @default.
• W4281846506 cites W3142451781 @default.
• W4281846506 cites W3153276958 @default.
• W4281846506 cites W3158847506 @default.
• W4281846506 cites W3158871196 @default.
• W4281846506 cites W3181446119 @default.
• W4281846506 cites W3201483502 @default.
• W4281846506 cites W3203631571 @default.
• W4281846506 cites W4220653134 @default.
• W4281846506 cites W990344925 @default.
• W4281846506 doi "https://doi.org/10.7717/peerj.13552" @default.
• W4281846506 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35673389" @default.
• W4281846506 hasPublicationYear "2022" @default.
• W4281846506 type Work @default.
• W4281846506 citedByCount "2" @default.
• W4281846506 countsByYear W42818465062023 @default.
• W4281846506 crossrefType "journal-article" @default.
• W4281846506 hasAuthorship W4281846506A5025719174 @default.
• W4281846506 hasAuthorship W4281846506A5030429429 @default.
• W4281846506 hasAuthorship W4281846506A5047839791 @default.
• W4281846506 hasAuthorship W4281846506A5059983903 @default.
• W4281846506 hasAuthorship W4281846506A5065626069 @default.
• W4281846506 hasAuthorship W4281846506A5073722346 @default.
• W4281846506 hasBestOaLocation W42818465061 @default.
• W4281846506 hasConcept C102720910 @default.
• W4281846506 hasConcept C104317684 @default.
• W4281846506 hasConcept C133079900 @default.
• W4281846506 hasConcept C150117547 @default.
• W4281846506 hasConcept C18903297 @default.
• W4281846506 hasConcept C23913935 @default.
• W4281846506 hasConcept C2776923041 @default.
• W4281846506 hasConcept C2777594190 @default.
• W4281846506 hasConcept C2781212518 @default.
• W4281846506 hasConcept C523546767 @default.
• W4281846506 hasConcept C54355233 @default.
• W4281846506 hasConcept C55493867 @default.
• W4281846506 hasConcept C59822182 @default.
• W4281846506 hasConcept C62648534 @default.
• W4281846506 hasConcept C77077793 @default.
• W4281846506 hasConcept C86626682 @default.
• W4281846506 hasConcept C86803240 @default.
• W4281846506 hasConcept C91066513 @default.
• W4281846506 hasConceptScore W4281846506C102720910 @default.
• W4281846506 hasConceptScore W4281846506C104317684 @default.
• W4281846506 hasConceptScore W4281846506C133079900 @default.
• W4281846506 hasConceptScore W4281846506C150117547 @default.
• W4281846506 hasConceptScore W4281846506C18903297 @default.
• W4281846506 hasConceptScore W4281846506C23913935 @default.
• W4281846506 hasConceptScore W4281846506C2776923041 @default.
• W4281846506 hasConceptScore W4281846506C2777594190 @default.
• W4281846506 hasConceptScore W4281846506C2781212518 @default.
• W4281846506 hasConceptScore W4281846506C523546767 @default.
• W4281846506 hasConceptScore W4281846506C54355233 @default.
• W4281846506 hasConceptScore W4281846506C55493867 @default.
• W4281846506 hasConceptScore W4281846506C59822182 @default.
• W4281846506 hasConceptScore W4281846506C62648534 @default.
• W4281846506 hasConceptScore W4281846506C77077793 @default.

• next