Heavy ion beam-induced variation in salt tolerance among <i>Leymus chinensis</i> genotypes during seed germination. [PDF]
PeerJChen S +7 more
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Changes in mass allocation play a more prominent role than morphology in resource acquisition of the rhizomatous Leymus chinensis under drought stress. [PDF]
Ann Bot, 2023 Yang Y +6 more
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Unraveling the Saline-Alkali-Tolerance Mystery of <i>Leymus chinensis</i> Nongjing-4: Insights from Integrated Transcriptome and Metabolome Analysis. [PDF]
Plants (Basel)Wang J +13 more
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A study on the growth and physiological traits of Leymus chinensis in artificial grasslands under exogenous hormone regulation. [PDF]
Sci RepChen J, Chen Q, Hou X.
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Influence of Cellulase or Lactiplantibacillus plantarum on the Ensiling Performance and Bacterial Community in Mixed Silage of Alfalfa and Leymus chinensis. [PDF]
Microorganisms, 2023 Si Q +6 more
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Integrated transcriptomics and physio-biochemical analysis revealed key genes affecting the seed germination of <i>Leymus chinensis</i>. [PDF]
Front Plant SciFeng Y +5 more
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Tipping point of plant functional traits of Leymus chinensis to nitrogen addition in a temperate grassland. [PDF]
Front Plant Sci, 2022 Yang G +5 more
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Study on Ecological Restoration to Degenerated \u3ci\u3eLeymus Chinensis\u3c/i\u3e Rasture [PDF]
, 2021 Gao, Li, Yan, Zhijian
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How do arbuscular mycorrhizal fungi enhance drought resistance of Leymus chinensis? [PDF]
BMC Plant BiolYang X +6 more
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Epichloƫ endophytes improved Leymus chinensis tolerance to both neutral and alkali salt stresses. [PDF]
Front Plant Sci, 2022 Yin L, Wei M, Wu G, Ren A.
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