FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4387473469> ?p ?o ?g. }

• W4387473469 abstract "Climate change, microbial endophytes, and local plants can affect the establishment and expansion of invasive species, yet no study has been performed to assess these interactions. Using a growth chamber, we integrated the belowground (rhizosphere soils) and aboveground (mixture of mature leaf and leaf litter) microbiota into an experimental framework to evaluate the impacts of four native plants acting as microbial inoculation sources on endophyte assembly and growth of the invasive plant Ageratina adenophora in response to drought stress and temperature change. We found that fungal and bacterial enrichment in the leaves and roots of A. adenophora exhibited distinct patterns in response to climatic factors. Many fungi were enriched in roots in response to high temperature and drought stress; in contrast, many bacteria were enriched in leaves in response to low temperature and drought stress. Inoculation of microbiota from phylogenetically close native plant species (i.e., Asteraceae Artemisia atrovirens) causes the recipient plant A. adenophora (Asteraceae) to enrich dominant microbial species from inoculation sources, which commonly results in a lower dissimilar endophytic microbiota and thus produces more negative growth effects when compared to non-Asteraceae inoculations. Drought, microbial inoculation source, and temperature directly impacted the growth of A. adenophora. Both drought and inoculation also indirectly impacted the growth of A. adenophora by changing the root endophytic fungal assembly. Our data indicate that native plant identity can greatly impact the endophyte assembly and host growth of invasive plants, which is regulated by drought and temperature.IMPORTANCEThere has been increasing interest in the interactions between global changes and plant invasions; however, it remains to quantify the role of microbial endophytes in plant invasion with a consideration of their variation in the root vs leaf of hosts, as well as the linkages between microbial inoculations, such as native plant species, and climatic factors, such as temperature and drought. Our study found that local plants acting as microbial inoculants can impact fungal and bacterial enrichment in the leaves and roots of the invasive plant Ageratina adenophora and thus produce distinct growth effects in response to climatic factors; endophyte-mediated invasion of A. adenophora is expected to operate more effectively under favorable moisture. Our study is important for understanding the interactions between climate change, microbial endophytes, and local plant identity in the establishment and expansion of invasive species." @default.
• W4387473469 created "2023-10-11" @default.
• W4387473469 creator A5003103157 @default.
• W4387473469 creator A5008812639 @default.
• W4387473469 creator A5018558510 @default.
• W4387473469 creator A5026057316 @default.
• W4387473469 creator A5059760485 @default.
• W4387473469 creator A5083275454 @default.
• W4387473469 creator A5086667066 @default.
• W4387473469 creator A5090675766 @default.
• W4387473469 date "2023-10-10" @default.
• W4387473469 modified "2023-10-16" @default.
• W4387473469 title "Native plants change the endophyte assembly and growth of an invasive plant in response to climatic factors" @default.
• W4387473469 cites W1543490083 @default.
• W4387473469 cites W1565015638 @default.
• W4387473469 cites W1616242683 @default.
• W4387473469 cites W1878234215 @default.
• W4387473469 cites W1964939317 @default.
• W4387473469 cites W1990582630 @default.
• W4387473469 cites W1991746645 @default.
• W4387473469 cites W1992532486 @default.
• W4387473469 cites W1992809988 @default.
• W4387473469 cites W1997891117 @default.
• W4387473469 cites W1999860656 @default.
• W4387473469 cites W2009784713 @default.
• W4387473469 cites W2024201482 @default.
• W4387473469 cites W2030273290 @default.
• W4387473469 cites W2034475154 @default.
• W4387473469 cites W20370698 @default.
• W4387473469 cites W2057593377 @default.
• W4387473469 cites W2066719541 @default.
• W4387473469 cites W2075497788 @default.
• W4387473469 cites W2076349504 @default.
• W4387473469 cites W2082376470 @default.
• W4387473469 cites W2085112469 @default.
• W4387473469 cites W2092190269 @default.
• W4387473469 cites W2097186687 @default.
• W4387473469 cites W2099313411 @default.
• W4387473469 cites W2100148902 @default.
• W4387473469 cites W2100435771 @default.
• W4387473469 cites W2103222529 @default.
• W4387473469 cites W2117243684 @default.
• W4387473469 cites W2126809954 @default.
• W4387473469 cites W2128025565 @default.
• W4387473469 cites W2131271579 @default.
• W4387473469 cites W2131386484 @default.
• W4387473469 cites W2145224921 @default.
• W4387473469 cites W2147739650 @default.
• W4387473469 cites W2150136770 @default.
• W4387473469 cites W2154026962 @default.
• W4387473469 cites W2155920093 @default.
• W4387473469 cites W2156907650 @default.
• W4387473469 cites W2157107905 @default.
• W4387473469 cites W2158736744 @default.
• W4387473469 cites W2160737586 @default.
• W4387473469 cites W2163250554 @default.
• W4387473469 cites W2163976466 @default.
• W4387473469 cites W2167802145 @default.
• W4387473469 cites W2229542287 @default.
• W4387473469 cites W2237685333 @default.
• W4387473469 cites W2275675349 @default.
• W4387473469 cites W2312829458 @default.
• W4387473469 cites W2407522438 @default.
• W4387473469 cites W2466194468 @default.
• W4387473469 cites W2517322356 @default.
• W4387473469 cites W2586147377 @default.
• W4387473469 cites W2726145285 @default.
• W4387473469 cites W2726795399 @default.
• W4387473469 cites W2747230732 @default.
• W4387473469 cites W2784903903 @default.
• W4387473469 cites W2800128036 @default.
• W4387473469 cites W2810327123 @default.
• W4387473469 cites W2913037512 @default.
• W4387473469 cites W2945055532 @default.
• W4387473469 cites W2969370769 @default.
• W4387473469 cites W2990125247 @default.
• W4387473469 cites W2994822431 @default.
• W4387473469 cites W2995603195 @default.
• W4387473469 cites W3000043266 @default.
• W4387473469 cites W3007531900 @default.
• W4387473469 cites W3016210073 @default.
• W4387473469 cites W3029287977 @default.
• W4387473469 cites W3037453982 @default.
• W4387473469 cites W3040239829 @default.
• W4387473469 cites W3087814702 @default.
• W4387473469 cites W3092555131 @default.
• W4387473469 cites W3101826886 @default.
• W4387473469 cites W3110920004 @default.
• W4387473469 cites W3127048512 @default.
• W4387473469 cites W3130210016 @default.
• W4387473469 cites W3156459493 @default.
• W4387473469 cites W3178184078 @default.
• W4387473469 cites W3206449697 @default.
• W4387473469 cites W3214782429 @default.
• W4387473469 cites W3217062228 @default.
• W4387473469 cites W4214664426 @default.
• W4387473469 cites W4221027300 @default.
• W4387473469 doi "https://doi.org/10.1128/aem.01093-23" @default.
• W4387473469 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37815356" @default.
• W4387473469 hasPublicationYear "2023" @default.

• next