SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2776892247> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2776892247 endingPage "186" @default.
W2776892247 startingPage "175" @default.
W2776892247 abstract "Formulations that include nanoparticles of CuO and ZnO are being considered for agricultural applications as fertilizers because they act as sources of Cu or Zn. Currently, few studies of the effects of these nanoparticles (NPs) consider the three-way interactions of NPs with the plant plus its microbiome. At doses that produced root shortening by both nanoparticles (NPs), CuO NPs induced the proliferation of elongated root hairs close to the root tip, and ZnO NPs increased lateral root formation in wheat seedlings (Triticum aestivum L.). These responses occurred with roots colonized by a beneficial bacterium, Pseudomonas chlororaphis O6 (PcO6), originally isolated from roots of wheat grown under dryland farming in calcareous soils. The PcO6-induced tolerance to drought stress in wheat seedlings was not impaired by the NPs. Rather, growth of the PcO6-colonized plants with NPs resulted in systemic increases in the expression of genes associated with tolerance to water stress. Increased expression in the shoots of other genes related to metal stress was consistent with higher levels of Cu and Zn in PcO6-colonized shoots grown with the NPs. This work demonstrates that plants grown with CuO or ZnO NPs showed cross-protection from different challenges such as metal stress and drought." @default.
W2776892247 created "2018-01-05" @default.
W2776892247 creator A5000456329 @default.
W2776892247 creator A5012973026 @default.
W2776892247 creator A5050173129 @default.
W2776892247 creator A5056766636 @default.
W2776892247 creator A5057662058 @default.
W2776892247 creator A5058118779 @default.
W2776892247 creator A5062902959 @default.
W2776892247 creator A5066818752 @default.
W2776892247 date "2018-03-01" @default.
W2776892247 modified "2023-10-03" @default.
W2776892247 title "Remodeling of root morphology by CuO and ZnO nanoparticles: effects on drought tolerance for plants colonized by a beneficial pseudomonad" @default.
W2776892247 cites W1539274359 @default.
W2776892247 cites W1547822538 @default.
W2776892247 cites W1604602425 @default.
W2776892247 cites W1750529088 @default.
W2776892247 cites W1939377436 @default.
W2776892247 cites W1964142268 @default.
W2776892247 cites W1967069127 @default.
W2776892247 cites W1988582357 @default.
W2776892247 cites W1990376573 @default.
W2776892247 cites W1999513572 @default.
W2776892247 cites W2033504775 @default.
W2776892247 cites W2033831610 @default.
W2776892247 cites W2041764502 @default.
W2776892247 cites W2044159567 @default.
W2776892247 cites W2048843961 @default.
W2776892247 cites W2049028680 @default.
W2776892247 cites W2051792539 @default.
W2776892247 cites W2057196029 @default.
W2776892247 cites W2057394932 @default.
W2776892247 cites W2063009350 @default.
W2776892247 cites W2073916160 @default.
W2776892247 cites W2081740687 @default.
W2776892247 cites W2082425796 @default.
W2776892247 cites W2082854271 @default.
W2776892247 cites W2090956649 @default.
W2776892247 cites W2094118423 @default.
W2776892247 cites W2097638313 @default.
W2776892247 cites W2102721645 @default.
W2776892247 cites W2114055738 @default.
W2776892247 cites W2120007834 @default.
W2776892247 cites W2122013046 @default.
W2776892247 cites W2130193199 @default.
W2776892247 cites W2141157841 @default.
W2776892247 cites W2142044288 @default.
W2776892247 cites W2142556037 @default.
W2776892247 cites W2143529110 @default.
W2776892247 cites W2152222835 @default.
W2776892247 cites W2159290969 @default.
W2776892247 cites W2161205514 @default.
W2776892247 cites W2162554587 @default.
W2776892247 cites W2171891999 @default.
W2776892247 cites W2267294778 @default.
W2776892247 cites W2281182493 @default.
W2776892247 cites W2342583889 @default.
W2776892247 cites W2346316288 @default.
W2776892247 cites W2495404723 @default.
W2776892247 cites W2497282785 @default.
W2776892247 cites W2510019582 @default.
W2776892247 cites W2517275100 @default.
W2776892247 cites W2517792117 @default.
W2776892247 cites W2519914047 @default.
W2776892247 cites W2526012072 @default.
W2776892247 cites W2528584802 @default.
W2776892247 cites W2530198592 @default.
W2776892247 cites W2534925507 @default.
W2776892247 cites W2550451653 @default.
W2776892247 cites W2551101679 @default.
W2776892247 cites W2554261944 @default.
W2776892247 cites W2586438326 @default.
W2776892247 doi "https://doi.org/10.1139/cjb-2017-0124" @default.
W2776892247 hasPublicationYear "2018" @default.
W2776892247 type Work @default.
W2776892247 sameAs 2776892247 @default.
W2776892247 citedByCount "54" @default.
W2776892247 countsByYear W27768922472018 @default.
W2776892247 countsByYear W27768922472019 @default.
W2776892247 countsByYear W27768922472020 @default.
W2776892247 countsByYear W27768922472021 @default.
W2776892247 countsByYear W27768922472022 @default.
W2776892247 countsByYear W27768922472023 @default.
W2776892247 crossrefType "journal-article" @default.
W2776892247 hasAuthorship W2776892247A5000456329 @default.
W2776892247 hasAuthorship W2776892247A5012973026 @default.
W2776892247 hasAuthorship W2776892247A5050173129 @default.
W2776892247 hasAuthorship W2776892247A5056766636 @default.
W2776892247 hasAuthorship W2776892247A5057662058 @default.
W2776892247 hasAuthorship W2776892247A5058118779 @default.
W2776892247 hasAuthorship W2776892247A5062902959 @default.
W2776892247 hasAuthorship W2776892247A5066818752 @default.
W2776892247 hasBestOaLocation W27768922472 @default.
W2776892247 hasConcept C104317684 @default.
W2776892247 hasConcept C123552892 @default.
W2776892247 hasConcept C144027150 @default.
W2776892247 hasConcept C155672457 @default.
W2776892247 hasConcept C171250308 @default.