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Journal Abstract Search

298 related items for PubMed ID: 29401304

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  • 3. Rate of stomatal opening, shoot hydraulic conductance and photosynthetic characteristics in relation to leaf abscisic acid concentration in six temperate deciduous trees.
    Aasamaa K, Sõber A, Hartung W, Niinemets U.
    Tree Physiol; 2002 Mar; 22(4):267-76. PubMed ID: 11874723
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  • 4. Soybean leaf hydraulic conductance does not acclimate to growth at elevated [CO2] or temperature in growth chambers or in the field.
    Locke AM, Sack L, Bernacchi CJ, Ort DR.
    Ann Bot; 2013 Sep; 112(5):911-8. PubMed ID: 23864003
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  • 5. Variable conductivity and embolism in roots and branches of four contrasting tree species and their impacts on whole-plant hydraulic performance under future atmospheric CO₂ concentration.
    Domec JC, Schäfer K, Oren R, Kim HS, McCarthy HR.
    Tree Physiol; 2010 Aug; 30(8):1001-15. PubMed ID: 20566583
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  • 6. Role of hydraulic and chemical signals in leaves, stems and roots in the stomatal behaviour of olive trees under water stress and recovery conditions.
    Torres-Ruiz JM, Diaz-Espejo A, Perez-Martin A, Hernandez-Santana V.
    Tree Physiol; 2015 Apr; 35(4):415-24. PubMed ID: 25030936
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  • 7. Leaf hydraulic conductance, measured in situ, declines and recovers daily: leaf hydraulics, water potential and stomatal conductance in four temperate and three tropical tree species.
    Johnson DM, Woodruff DR, McCulloh KA, Meinzer FC.
    Tree Physiol; 2009 Jul; 29(7):879-87. PubMed ID: 19429900
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  • 8. Woody tissue photosynthesis increases radial stem growth of young poplar trees under ambient atmospheric CO2 but its contribution ceases under elevated CO2.
    De Roo L, Lauriks F, Salomón RL, Oleksyn J, Steppe K.
    Tree Physiol; 2020 Oct 29; 40(11):1572-1582. PubMed ID: 32597984
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  • 9. Anatomical adjustments of the tree hydraulic pathway decrease canopy conductance under long-term elevated CO2.
    Gattmann M, McAdam SAM, Birami B, Link R, Nadal-Sala D, Schuldt B, Yakir D, Ruehr NK.
    Plant Physiol; 2023 Jan 02; 191(1):252-264. PubMed ID: 36250901
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  • 12. Water transport from stem to stomata: the coordination of hydraulic and gas exchange traits across 33 subtropical woody species.
    Liu X, Liu H, Gleason SM, Goldstein G, Zhu S, He P, Hou H, Li R, Ye Q.
    Tree Physiol; 2019 Oct 01; 39(10):1665-1674. PubMed ID: 31314105
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  • 14. Soil phosphorous and endogenous rhythms exert a larger impact than CO2 or temperature on nocturnal stomatal conductance in Eucalyptus tereticornis.
    de Dios VR, Turnbull MH, Barbour MM, Ontedhu J, Ghannoum O, Tissue DT.
    Tree Physiol; 2013 Nov 01; 33(11):1206-15. PubMed ID: 24271087
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  • 15. Temporal variability in tree responses to elevated atmospheric CO2.
    Lauriks F, Salomón RL, Steppe K.
    Plant Cell Environ; 2021 May 01; 44(5):1292-1310. PubMed ID: 33368341
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  • 20. Industrial-age changes in atmospheric [CO2] and temperature differentially alter responses of faster- and slower-growing Eucalyptus seedlings to short-term drought.
    Lewis JD, Smith RA, Ghannoum O, Logan BA, Phillips NG, Tissue DT.
    Tree Physiol; 2013 May 01; 33(5):475-88. PubMed ID: 23677118
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