Inertial oscillation of a vertical rotating draft with application to a supercell storm [PDF]
An analytic model (vertical rotating draft) which includes the gross features of a supercell storm on an f-plane, undergoes an inertial oscillation that appears to have been overlooked in previous analytic and numerical models.
Costen, Robert C., Stock, Larry V.
core +1 more source
Limited Phenotypic Variation in Vulnerability to Cavitation and Stomatal Sensitivity to Vapor Pressure Deficit among Clones of Aristotelia chilensis from Different Climatic Origins. [PDF]
Plants (Basel), 2021 Yáñez MA +3 more
europepmc +1 more source
Jasmonic acid and salicylic acid play minor roles in stomatal regulation by CO2 , abscisic acid, darkness, vapor pressure deficit and ozone. [PDF]
Plant J, 2021 Zamora O +8 more
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Analysis of soil and species composition [PDF]
Measurements were made during May to October, 1987 and June to August, 1989 over a tallgrass prairie near Manhattan, Kansas. Soil at the experimental site is predominantly Dwight silty clay loam.
Verma, Shashi B.
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Molecular mechanisms of stomatal closure in response to rising vapour pressure deficit. [PDF]
New Phytol, 2021 Jalakas P +4 more
europepmc +1 more source
Enhancing Acclimatization of Micropropagated <i>Pistachio</i> Through Optimization of Light Spectrum and Vapor Pressure Deficit. [PDF]
Plants (Basel)Davarzani M +7 more
europepmc +1 more source
Rising atmospheric CO<sub>2</sub> outweighs elevated vapor pressure deficit in explaining increased intrinsic water use efficiency in Chinese pine. [PDF]
Front Plant SciLi Y, Wang Y, Xu W, Tan J.
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The association between Vapor Pressure Deficit and arthritis: Evidence from a 10-year longitudinal study of middle-aged and elderly Chinese adults. [PDF]
PLoS OneYe D +6 more
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A hydroponic approach to assess the morpho-physiological responses of cotton cultivars under varying vapor pressure deficit conditions. [PDF]
Front Plant SciDhakal K, Julkowska MM, Shekoofa A.
europepmc +1 more source
The influence of vapor pressure deficit changes on global terrestrial evapotranspiration
Abstract. Vapor pressure deficit (VPD) is increasingly recognized as the primary driver of uncertainty in future global evapotranspiration (E) trends. Accurately characterizing the spatiotemporal dynamics of VPD and clarifying its mechanisms of influence on terrestrial E are crucial for improving water-use efficiency, optimizing ecosystem structure and
Yuxin Miao +9 more
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