FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3136656103> ?p ?o ?g. }

• W3136656103 abstract "Microbes can colonize plant roots to modulate plant health and environmental fitness. Thus, using microbes to improve plant adaptation to biotic and abiotic stresses will be promising to abate the heavy reliance of management systems on synthetic chemicals and limited resource. This is particularly important for turfgrass systems because intensive management for plant available nutrients (e.g., nitrogen), water, and pest control is necessary to maintain a healthy and aesthetic landscape. However, little is known on microbial species and host compatibility in turfgrass root endosphere and rhizosphere. Here, by using marker gene high throughput sequencing approaches we demonstrated that a few bacterial and fungal species prevailed the root endosphere and rhizosphere and were of a broad host spectrum. Irrespective of turfgrass species (bermudagrass, ultradwarf bermudagrass, creeping bentgrass, and tall fescue), defoliation intensities (i.e., mowing height and frequency), turfgrass sites, and sampling time, Pseudomonas veronii was predominant in the root endosphere, constituting ∼38% of the total bacterial community, which was much higher than its presence in the bulk soil (∼0.5%) and rhizosphere (∼4.6%). By contrast, Janthinobacterium lividum and fungal species of the genus Pseudogymnoascus were more abundant in the rhizosphere, constituting ∼15 and ∼ 39% of the total bacterial and fungal community, respectively, compared to their respective presence in the bulk soil (∼ 0.1 and 5%) and root endosphere (∼ 0.8 and 0.3%). Such stark contrasts in the microbiome composition between the root endosphere, rhizosphere, and bulk soil were little influenced by turfgrass species, suggesting the broad turfgrass host compatibility of these bacterial and fungal species. Further, their dominance in respective niches were mutually unaffected, implying the possibility of developing a multiple species formula for coping turfgrass with environmental stresses. These species were likely involved in controlling pests, such as infectious nematodes and fungi, decomposing root debris, and helping turfgrass water and nutrient uptake; yet these possibilities need to be further examined." @default.
• W3136656103 created "2021-03-29" @default.
• W3136656103 creator A5001429053 @default.
• W3136656103 creator A5027688750 @default.
• W3136656103 creator A5067495232 @default.
• W3136656103 date "2021-03-23" @default.
• W3136656103 modified "2023-10-02" @default.
• W3136656103 title "Predominant Microbial Colonizers in the Root Endosphere and Rhizosphere of Turfgrass Systems: Pseudomonas veronii, Janthinobacterium lividum, and Pseudogymnoascus spp." @default.
• W3136656103 cites W1179195810 @default.
• W3136656103 cites W1515010584 @default.
• W3136656103 cites W1592007718 @default.
• W3136656103 cites W189959991 @default.
• W3136656103 cites W1938979467 @default.
• W3136656103 cites W1982669838 @default.
• W3136656103 cites W1982804804 @default.
• W3136656103 cites W1988925586 @default.
• W3136656103 cites W1995965107 @default.
• W3136656103 cites W1998713941 @default.
• W3136656103 cites W2000736764 @default.
• W3136656103 cites W2005399557 @default.
• W3136656103 cites W2007315916 @default.
• W3136656103 cites W2008241725 @default.
• W3136656103 cites W2016654116 @default.
• W3136656103 cites W2032180575 @default.
• W3136656103 cites W2036897871 @default.
• W3136656103 cites W2045371216 @default.
• W3136656103 cites W2050345155 @default.
• W3136656103 cites W2066767922 @default.
• W3136656103 cites W2078802624 @default.
• W3136656103 cites W2101821016 @default.
• W3136656103 cites W2103037419 @default.
• W3136656103 cites W2109304737 @default.
• W3136656103 cites W2119212891 @default.
• W3136656103 cites W2132108586 @default.
• W3136656103 cites W2132673335 @default.
• W3136656103 cites W2138213253 @default.
• W3136656103 cites W2150595816 @default.
• W3136656103 cites W2151393430 @default.
• W3136656103 cites W2155903433 @default.
• W3136656103 cites W2158706248 @default.
• W3136656103 cites W2166584715 @default.
• W3136656103 cites W2176815927 @default.
• W3136656103 cites W2340506883 @default.
• W3136656103 cites W2401404581 @default.
• W3136656103 cites W2525837397 @default.
• W3136656103 cites W2531203048 @default.
• W3136656103 cites W2586438326 @default.
• W3136656103 cites W2621263386 @default.
• W3136656103 cites W2741787549 @default.
• W3136656103 cites W2743505757 @default.
• W3136656103 cites W2743521576 @default.
• W3136656103 cites W2770440272 @default.
• W3136656103 cites W2884455870 @default.
• W3136656103 cites W2891058453 @default.
• W3136656103 cites W2899255759 @default.
• W3136656103 cites W2900030356 @default.
• W3136656103 cites W2963276645 @default.
• W3136656103 cites W2976209432 @default.
• W3136656103 cites W2980063397 @default.
• W3136656103 cites W3011149948 @default.
• W3136656103 cites W3076283907 @default.
• W3136656103 cites W3199559951 @default.
• W3136656103 cites W876804355 @default.
• W3136656103 doi "https://doi.org/10.3389/fmicb.2021.643904" @default.
• W3136656103 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8021697" @default.
• W3136656103 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33833744" @default.
• W3136656103 hasPublicationYear "2021" @default.
• W3136656103 type Work @default.
• W3136656103 sameAs 3136656103 @default.
• W3136656103 citedByCount "10" @default.
• W3136656103 countsByYear W31366561032021 @default.
• W3136656103 countsByYear W31366561032022 @default.
• W3136656103 countsByYear W31366561032023 @default.
• W3136656103 crossrefType "journal-article" @default.
• W3136656103 hasAuthorship W3136656103A5001429053 @default.
• W3136656103 hasAuthorship W3136656103A5027688750 @default.
• W3136656103 hasAuthorship W3136656103A5067495232 @default.
• W3136656103 hasBestOaLocation W31366561031 @default.
• W3136656103 hasConcept C132215390 @default.
• W3136656103 hasConcept C18903297 @default.
• W3136656103 hasConcept C523546767 @default.
• W3136656103 hasConcept C54355233 @default.
• W3136656103 hasConcept C59822182 @default.
• W3136656103 hasConcept C6557445 @default.
• W3136656103 hasConcept C86626682 @default.
• W3136656103 hasConcept C86803240 @default.
• W3136656103 hasConceptScore W3136656103C132215390 @default.
• W3136656103 hasConceptScore W3136656103C18903297 @default.
• W3136656103 hasConceptScore W3136656103C523546767 @default.
• W3136656103 hasConceptScore W3136656103C54355233 @default.
• W3136656103 hasConceptScore W3136656103C59822182 @default.
• W3136656103 hasConceptScore W3136656103C6557445 @default.
• W3136656103 hasConceptScore W3136656103C86626682 @default.
• W3136656103 hasConceptScore W3136656103C86803240 @default.
• W3136656103 hasLocation W31366561031 @default.
• W3136656103 hasLocation W31366561032 @default.
• W3136656103 hasOpenAccess W3136656103 @default.
• W3136656103 hasPrimaryLocation W31366561031 @default.
• W3136656103 hasRelatedWork W1899905718 @default.
• W3136656103 hasRelatedWork W1975441431 @default.

• next