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Journal Abstract Search

686 related items for PubMed ID: 26417842

  • 1. How does the VPD response of isohydric and anisohydric plants depend on leaf surface particles?
    Burkhardt J, Pariyar S.
    Plant Biol (Stuttg); 2016 Jan; 18 Suppl 1():91-100. PubMed ID: 26417842
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  • 2. Stomatal response of an anisohydric grapevine cultivar to evaporative demand, available soil moisture and abscisic acid.
    Rogiers SY, Greer DH, Hatfield JM, Hutton RJ, Clarke SJ, Hutchinson PA, Somers A.
    Tree Physiol; 2012 Mar; 32(3):249-61. PubMed ID: 22199014
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  • 6. Ambient aerosol increases minimum leaf conductance and alters the aperture-flux relationship as stomata respond to vapor pressure deficit (VPD).
    Grantz DA, Zinsmeister D, Burkhardt J.
    New Phytol; 2018 Jul; 219(1):275-286. PubMed ID: 29600514
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  • 7. The "isohydric trap": A proposed feedback between water shortage, stomatal regulation, and nutrient acquisition drives differential growth and survival of European pines under climatic dryness.
    Salazar-Tortosa D, Castro J, Villar-Salvador P, Viñegla B, Matías L, Michelsen A, Rubio de Casas R, Querejeta JI.
    Glob Chang Biol; 2018 Sep; 24(9):4069-4083. PubMed ID: 29768696
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  • 8. Coping with extremes: Responses of Quercus robur L. and Fagus sylvatica L. to soil drought and elevated vapour pressure deficit.
    Niemczyk M, Wrzesiński P, Szyp-Borowska I, Krajewski S, Żytkowiak R, Jagodziński AM.
    Sci Total Environ; 2024 Oct 20; 948():174912. PubMed ID: 39038682
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  • 9. Restriction of transpiration rate under high vapour pressure deficit and non-limiting water conditions is important for terminal drought tolerance in cowpea.
    Belko N, Zaman-Allah M, Diop NN, Cisse N, Zombre G, Ehlers JD, Vadez V.
    Plant Biol (Stuttg); 2013 Mar 20; 15(2):304-16. PubMed ID: 22823007
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  • 12. Beyond soil water potential: An expanded view on isohydricity including land-atmosphere interactions and phenology.
    Novick KA, Konings AG, Gentine P.
    Plant Cell Environ; 2019 Jun 20; 42(6):1802-1815. PubMed ID: 30632172
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  • 13. Variability in temperature-independent transpiration responses to evaporative demand correlate with nighttime water use and its circadian control across diverse wheat populations.
    Tamang BG, Schoppach R, Monnens D, Steffenson BJ, Anderson JA, Sadok W.
    Planta; 2019 Jul 20; 250(1):115-127. PubMed ID: 30941570
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  • 16. Coordination between vapor pressure deficit and CO2 on the regulation of photosynthesis and productivity in greenhouse tomato production.
    Jiao XC, Song XM, Zhang DL, Du QJ, Li JM.
    Sci Rep; 2019 Jun 18; 9(1):8700. PubMed ID: 31213627
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  • 17. Adjustments of water use efficiency by stomatal regulation during drought and recovery in the drought-adapted Vitis hybrid Richter-110 (V. berlandieri x V. rupestris).
    Pou A, Flexas J, Alsina Mdel M, Bota J, Carambula C, de Herralde F, Galmés J, Lovisolo C, Jiménez M, Ribas-Carbó M, Rusjan D, Secchi F, Tomàs M, Zsófi Z, Medrano H.
    Physiol Plant; 2008 Oct 18; 134(2):313-23. PubMed ID: 18507813
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  • 20. Responses of two semiarid conifer tree species to reduced precipitation and warming reveal new perspectives for stomatal regulation.
    Garcia-Forner N, Adams HD, Sevanto S, Collins AD, Dickman LT, Hudson PJ, Zeppel MJ, Jenkins MW, Powers H, Martínez-Vilalta J, Mcdowell NG.
    Plant Cell Environ; 2016 Jan 18; 39(1):38-49. PubMed ID: 26081870
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