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Journal Abstract Search

226 related items for PubMed ID: 30825360

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  • 2. Dynamic light caused less photosynthetic suppression, rather than more, under nitrogen deficit conditions than under sufficient nitrogen supply conditions in soybean.
    Li YT, Li Y, Li YN, Liang Y, Sun Q, Li G, Liu P, Zhang ZS, Gao HY.
    BMC Plant Biol; 2020 Jul 17; 20(1):339. PubMed ID: 32680459
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  • 4. Changes in morphology, chlorophyll fluorescence performance and Rubisco activity of soybean in response to foliar application of ionic titanium under normal light and shade environment.
    Hussain S, Iqbal N, Brestic M, Raza MA, Pang T, Langham DR, Safdar ME, Ahmed S, Wen B, Gao Y, Liu W, Yang W.
    Sci Total Environ; 2019 Mar 25; 658():626-637. PubMed ID: 30580217
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  • 5. Soybean (Glycine max L. Merr.) seedlings response to shading: leaf structure, photosynthesis and proteomic analysis.
    Fan Y, Chen J, Wang Z, Tan T, Li S, Li J, Wang B, Zhang J, Cheng Y, Wu X, Yang W, Yang F.
    BMC Plant Biol; 2019 Jan 21; 19(1):34. PubMed ID: 30665369
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  • 6. Response of carbon assimilation and chlorophyll fluorescence to soybean leaf phosphorus across CO2: Alternative electron sink, nutrient efficiency and critical concentration.
    Singh SK, Reddy VR.
    J Photochem Photobiol B; 2015 Oct 21; 151():276-84. PubMed ID: 26343044
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  • 7. Regulation of leaf photosynthetic rate correlating with leaf carbohydrate status and activation state of Rubisco under a variety of photosynthetic source/sink balances.
    Kasai M.
    Physiol Plant; 2008 Sep 21; 134(1):216-26. PubMed ID: 18435694
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  • 8. Uniconazole-induced tolerance of soybean to water deficit stress in relation to changes in photosynthesis, hormones and antioxidant system.
    Zhang M, Duan L, Tian X, He Z, Li J, Wang B, Li Z.
    J Plant Physiol; 2007 Jun 21; 164(6):709-17. PubMed ID: 16769153
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  • 9. Effects of different elevated CO2 concentrations on chlorophyll contents, gas exchange, water use efficiency, and PSII activity on C3 and C4 cereal crops in a closed artificial ecosystem.
    Wang M, Xie B, Fu Y, Dong C, Hui L, Guanghui L, Liu H.
    Photosynth Res; 2015 Dec 21; 126(2-3):351-62. PubMed ID: 25869633
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  • 11. Interspecific differences in how sink-source imbalance causes photosynthetic downregulation among three legume species.
    Sugiura D, Betsuyaku E, Terashima I.
    Ann Bot; 2019 Mar 14; 123(4):715-726. PubMed ID: 30517608
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  • 15. Identification of large variation in the photosynthetic induction response among 37 soybean [Glycine max (L.) Merr.] genotypes that is not correlated with steady-state photosynthetic capacity.
    Soleh MA, Tanaka Y, Kim SY, Huber SC, Sakoda K, Shiraiwa T.
    Photosynth Res; 2017 Mar 14; 131(3):305-315. PubMed ID: 27878416
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  • 16. The Difference of Photosynthetic Responses to the Cadmium Stress Between a Wild Soybean (Glycine soja Sieb. et Zucc.) and a Cultivated Soybean.
    Xue Z, Gao H.
    Bull Environ Contam Toxicol; 2017 Sep 14; 99(3):405-410. PubMed ID: 28752180
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  • 18. Enhancement of growth, photosynthetic performance and yield by exclusion of ambient UV components in C3 and C4 plants.
    Kataria S, Guruprasad KN, Ahuja S, Singh B.
    J Photochem Photobiol B; 2013 Oct 05; 127():140-52. PubMed ID: 24041852
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