SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4224031719> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W4224031719 abstract "Dwarf bamboo (Fargesia denudata) is a staple food for the endangered giant pandas and plays a critical role in the sub-alpine ecosystem. Characterized by shallow roots and expeditious growth, it is exceedingly susceptible to drought stress and nitrogen (N) deposition in the context of a changing global environment. However, a comprehensive picture about the interactive response mechanism of dwarf bamboo to the two factors, water regime and N deposition, is far from being given. Therefore, a completely randomized design with two factors of water regimes (well-watered and water-stressed) and N deposition levels (with and without N addition) of F. denudata was conducted. In view of the obtained results, drought stress had an adverse impact on F. denudata, showing that it destroyed ultrastructure integrity and induced oxidative damage and restricted water status in leaves and roots, as well as declined photosynthetic efficiency in leaves, especially in N non-deposition plants. Nevertheless, F. denudata significantly increased heat dissipation in leaves, regulated antioxidant enzymes activities, antioxidants contents, and osmoregulation substances concentrations in leaves and roots, as well as shifted biomass partitioning in response to drought stress. However, regardless of water availability, N deposition maintained better ultrastructure in leaves and roots, resulting in superior photosynthesis and growth of F. denudata. Additionally, although N deposition did not cause oxidative damage in well-watered plants, ameliorated the effects of drought stress on F. denudata through co-deploying heat dissipation in leaves, the antioxidant system in roots as well as osmotic adjustment in leaves and roots. Noticeably, the leaves and roots of F. denudata expressed quite distinct acclimation responses to drought resistance under N deposition." @default.
W4224031719 created "2022-04-19" @default.
W4224031719 creator A5014682430 @default.
W4224031719 creator A5028065531 @default.
W4224031719 creator A5057460339 @default.
W4224031719 creator A5067840107 @default.
W4224031719 date "2022-04-14" @default.
W4224031719 modified "2023-10-18" @default.
W4224031719 title "Osmotic Adjustment and Antioxidant System Regulated by Nitrogen Deposition Improve Photosynthetic and Growth Performance and Alleviate Oxidative Damage in Dwarf Bamboo Under Drought Stress" @default.
W4224031719 cites W1772575001 @default.
W4224031719 cites W1898874031 @default.
W4224031719 cites W1963976912 @default.
W4224031719 cites W1969481923 @default.
W4224031719 cites W1974054578 @default.
W4224031719 cites W1975473360 @default.
W4224031719 cites W1978465307 @default.
W4224031719 cites W1985496403 @default.
W4224031719 cites W1986580287 @default.
W4224031719 cites W1989629347 @default.
W4224031719 cites W2004754356 @default.
W4224031719 cites W2006100286 @default.
W4224031719 cites W2014377559 @default.
W4224031719 cites W2015093208 @default.
W4224031719 cites W2015907903 @default.
W4224031719 cites W2017933064 @default.
W4224031719 cites W2020349754 @default.
W4224031719 cites W2028035560 @default.
W4224031719 cites W2028823348 @default.
W4224031719 cites W2035083024 @default.
W4224031719 cites W2041493424 @default.
W4224031719 cites W2041678447 @default.
W4224031719 cites W2044962546 @default.
W4224031719 cites W2052499827 @default.
W4224031719 cites W2053511457 @default.
W4224031719 cites W2055200073 @default.
W4224031719 cites W2068682162 @default.
W4224031719 cites W2082779008 @default.
W4224031719 cites W2090643815 @default.
W4224031719 cites W2098076869 @default.
W4224031719 cites W2102850194 @default.
W4224031719 cites W2109206295 @default.
W4224031719 cites W2114599999 @default.
W4224031719 cites W2117540044 @default.
W4224031719 cites W2119067812 @default.
W4224031719 cites W2120239584 @default.
W4224031719 cites W2128635872 @default.
W4224031719 cites W2144626145 @default.
W4224031719 cites W2147969688 @default.
W4224031719 cites W2149249605 @default.
W4224031719 cites W2256278974 @default.
W4224031719 cites W2288499012 @default.
W4224031719 cites W2300578219 @default.
W4224031719 cites W2411801652 @default.
W4224031719 cites W2460404188 @default.
W4224031719 cites W2482299318 @default.
W4224031719 cites W2554979117 @default.
W4224031719 cites W2568766485 @default.
W4224031719 cites W2587330021 @default.
W4224031719 cites W2605030886 @default.
W4224031719 cites W2606917984 @default.
W4224031719 cites W2607820558 @default.
W4224031719 cites W2611203822 @default.
W4224031719 cites W2612342385 @default.
W4224031719 cites W2622355513 @default.
W4224031719 cites W2655014113 @default.
W4224031719 cites W2737072458 @default.
W4224031719 cites W2737611840 @default.
W4224031719 cites W2765583173 @default.
W4224031719 cites W2766404902 @default.
W4224031719 cites W2767351738 @default.
W4224031719 cites W2772048466 @default.
W4224031719 cites W2781477523 @default.
W4224031719 cites W2782699281 @default.
W4224031719 cites W2789673746 @default.
W4224031719 cites W2791326486 @default.
W4224031719 cites W2793667292 @default.
W4224031719 cites W2800266873 @default.
W4224031719 cites W2801197625 @default.
W4224031719 cites W2809657077 @default.
W4224031719 cites W2888901705 @default.
W4224031719 cites W2891287701 @default.
W4224031719 cites W2908727994 @default.
W4224031719 cites W2911336785 @default.
W4224031719 cites W2937260348 @default.
W4224031719 cites W2942675705 @default.
W4224031719 cites W2953817188 @default.
W4224031719 cites W2965183537 @default.
W4224031719 cites W2980297823 @default.
W4224031719 cites W3000695326 @default.
W4224031719 cites W3046014324 @default.
W4224031719 cites W3164711123 @default.
W4224031719 cites W4293247451 @default.
W4224031719 doi "https://doi.org/10.3389/fpls.2022.819071" @default.
W4224031719 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35498701" @default.
W4224031719 hasPublicationYear "2022" @default.
W4224031719 type Work @default.
W4224031719 citedByCount "2" @default.
W4224031719 countsByYear W42240317192022 @default.
W4224031719 countsByYear W42240317192023 @default.
W4224031719 crossrefType "journal-article" @default.