SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2980458322> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2980458322 endingPage "416" @default.
W2980458322 startingPage "416" @default.
W2980458322 abstract "Artemisia sieberi alba is one of the important plants frequently encountered by the combined effect of drought and heat stress. In the present study, we investigated the individual and combined effect of drought and heat stress on growth, photosynthesis, oxidative damage, and gene expression in A. sieberi alba. Drought and heat stress triggered oxidative damage by increasing the accumulation of hydrogen peroxide, and therefore electrolyte leakage. The accumulation of secondary metabolites, such as phenol and flavonoids, and proline, mannitol, inositol, and sorbitol, was increased due to drought and heat stress exposure. Photosynthetic attributes including chlorophyll synthesis, stomatal conductance, transpiration rate, photosynthetic efficiency, and chlorophyll fluorescence parameters were drastically reduced due to drought and heat stress exposure. Relative water content declined significantly in stressed plants, which was evident by the reduced leaf water potential and the water use efficiency, therefore, affecting the overall growth performance. Relative expression of aquaporin (AQP), dehydrin (DHN1), late embryogenesis abundant (LEA), osmotin (OSM-34), and heat shock proteins (HSP70) were significantly higher in stressed plants. Drought triggered the expression of AQP, DHN1, LEA, and OSM-34 more than heat, which improved the HSP70 transcript levels. A. sieberi alba responded to drought and heat stress by initiating key physio-biochemical and molecular responses, which were distinct in plants exposed to a combination of drought and heat stress." @default.
W2980458322 created "2019-10-25" @default.
W2980458322 creator A5002523272 @default.
W2980458322 date "2019-10-15" @default.
W2980458322 modified "2023-10-02" @default.
W2980458322 title "Impact of Combined Heat and Drought Stress on the Potential Growth Responses of the Desert Grass Artemisia sieberi alba: Relation to Biochemical and Molecular Adaptation" @default.
W2980458322 cites W1496230293 @default.
W2980458322 cites W1497412440 @default.
W2980458322 cites W170124407 @default.
W2980458322 cites W1918260619 @default.
W2980458322 cites W1966979325 @default.
W2980458322 cites W1967491518 @default.
W2980458322 cites W1971055487 @default.
W2980458322 cites W1982724915 @default.
W2980458322 cites W1984161447 @default.
W2980458322 cites W1989629347 @default.
W2980458322 cites W1993039887 @default.
W2980458322 cites W1997160548 @default.
W2980458322 cites W2006383267 @default.
W2980458322 cites W2008951912 @default.
W2980458322 cites W2016004072 @default.
W2980458322 cites W2020043992 @default.
W2980458322 cites W2025831217 @default.
W2980458322 cites W2026214597 @default.
W2980458322 cites W2028823348 @default.
W2980458322 cites W2032828838 @default.
W2980458322 cites W2034652511 @default.
W2980458322 cites W2035669903 @default.
W2980458322 cites W2037272801 @default.
W2980458322 cites W2044854974 @default.
W2980458322 cites W2051359437 @default.
W2980458322 cites W2057191021 @default.
W2980458322 cites W2061449283 @default.
W2980458322 cites W2065078471 @default.
W2980458322 cites W2065853716 @default.
W2980458322 cites W2066931409 @default.
W2980458322 cites W2067276051 @default.
W2980458322 cites W2068335520 @default.
W2980458322 cites W2070885027 @default.
W2980458322 cites W2073224972 @default.
W2980458322 cites W2073508224 @default.
W2980458322 cites W2076686579 @default.
W2980458322 cites W2080587943 @default.
W2980458322 cites W2089786022 @default.
W2980458322 cites W2093466362 @default.
W2980458322 cites W2094841192 @default.
W2980458322 cites W2096369119 @default.
W2980458322 cites W2100135484 @default.
W2980458322 cites W2104237015 @default.
W2980458322 cites W2111444582 @default.
W2980458322 cites W2111895066 @default.
W2980458322 cites W2113735906 @default.
W2980458322 cites W2115204306 @default.
W2980458322 cites W2118643445 @default.
W2980458322 cites W2121128808 @default.
W2980458322 cites W2123166635 @default.
W2980458322 cites W2124002261 @default.
W2980458322 cites W2126386203 @default.
W2980458322 cites W2128929806 @default.
W2980458322 cites W2130631310 @default.
W2980458322 cites W2140117240 @default.
W2980458322 cites W2141102916 @default.
W2980458322 cites W2146842429 @default.
W2980458322 cites W2154140763 @default.
W2980458322 cites W2155758352 @default.
W2980458322 cites W2156383411 @default.
W2980458322 cites W2160030559 @default.
W2980458322 cites W2168344742 @default.
W2980458322 cites W2170893068 @default.
W2980458322 cites W2171751101 @default.
W2980458322 cites W2261603070 @default.
W2980458322 cites W2343727338 @default.
W2980458322 cites W2508549555 @default.
W2980458322 cites W2547303460 @default.
W2980458322 cites W2552079021 @default.
W2980458322 cites W2564219696 @default.
W2980458322 cites W2571326318 @default.
W2980458322 cites W2584447161 @default.
W2980458322 cites W2594186945 @default.
W2980458322 cites W2606115194 @default.
W2980458322 cites W2609642167 @default.
W2980458322 cites W2610970879 @default.
W2980458322 cites W2616502758 @default.
W2980458322 cites W2751453809 @default.
W2980458322 cites W2765203236 @default.
W2980458322 cites W2782648382 @default.
W2980458322 cites W2784237981 @default.
W2980458322 cites W2790947596 @default.
W2980458322 cites W2800555409 @default.
W2980458322 cites W2889330585 @default.
W2980458322 cites W2914620648 @default.
W2980458322 cites W4230391795 @default.
W2980458322 cites W4230947015 @default.
W2980458322 cites W4252532330 @default.
W2980458322 cites W4378174002 @default.
W2980458322 cites W88786982 @default.
W2980458322 doi "https://doi.org/10.3390/plants8100416" @default.
W2980458322 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6843163" @default.