C
Changyan Tian
Researcher at Chinese Academy of Sciences
Publications - 116
Citations - 2921
Changyan Tian is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Soil salinity & Halophyte. The author has an hindex of 24, co-authored 105 publications receiving 2314 citations. Previous affiliations of Changyan Tian include Academia Sinica.
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Improved tolerance of maize plants to salt stress by arbuscular mycorrhiza is related to higher accumulation of soluble sugars in roots.
TL;DR: Higher requirement for carbohydrates by AM fungi induces higher soluble sugar accumulation in host root tissues, which is independent of improvement in plant P status and enhances resistance to salt-induced osmotic stress in the mycorrhizal plant.
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Strategies for adaptation of Suaeda physophora, Haloxylon ammodendron and Haloxylon persicum to a saline environment during seed-germination stage.
TL;DR: The effect of NaCl on seed germination was due to both osmotic stress and ion toxicity for the three species, and high soil salinity and a high content of Na+ in seeds may induce more seeds to remain ungerminated in S. physophora and H. persicum in certain saline regions.
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Different effects of arbuscular mycorrhizal fungal isolates from saline or non-saline soil on salinity tolerance of plants
TL;DR: It is concluded that the mechanisms for protecting plants from the detrimental effects of salinity by AM fungi may differ in their capability to influence the uptake of sodium and chloride.
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Isolation of Endophytic Plant Growth-Promoting Bacteria Associated with the Halophyte Salicornia europaea and Evaluation of their Promoting Activity Under Salt Stress.
TL;DR: It is demonstrated that habitat-adapted PGPE isolated from halophyte could enhance plant growth under saline stress conditions and in vitro the bacterial mechanisms related to plant growth promotion are evaluated.
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Arbuscular mycorrhizal fungi improve plant growth of Ricinus communis by altering photosynthetic properties and increasing pigments under drought and salt stress
TL;DR: The results indicated that AM fungi could protect castor bean against drought and salt stresses by improving its leaf gas exchanges and photosynthetic capacity and altering its concentrations of metabolites.