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Vulnerability of Protoxylem and Metaxylem Vessels to Embolisms and Radial Refilling in a Vascular Bundle of Maize LeavesDecreased photosynthesis in the erect panicle 3 (ep3) mutant of rice is associated with reduced stomatal conductance and attenuated guard cell developmentEvolutionary trade-offs in stomatal spacing.Threshold response of stomatal closing ability to leaf abscisic acid concentration during growth.Secrets of succulence.Intraspecific variation in stomatal traits, leaf traits and physiology reflects adaptation along aridity gradients in a South African shrubEffects of kinetics of light-induced stomatal responses on photosynthesis and water-use efficiency.Hornwort Stomata: Architecture and Fate Shared with 400-Million-Year-Old Fossil Plants without Leaves.Effects of high CO2 levels on dynamic photosynthesis: carbon gain, mechanisms, and environmental interactions.Impaired Stomatal Control Is Associated with Reduced Photosynthetic Physiology in Crop Species Grown at Elevated [CO2].Modelling water use efficiency in a dynamic environment: An example using Arabidopsis thaliana.Pore size regulates operating stomatal conductance, while stomatal densities drive the partitioning of conductance between leaf sidesAssociation genetics, geography and ecophysiology link stomatal patterning in Populus trichocarpa with carbon gain and disease resistance trade-offs.Differential coordination of stomatal conductance, mesophyll conductance and leaf hydraulic conductance in response to changing light across species.Relationship between stomatal density, size and speed of opening in Sumatran rainforest species.Low oxygen affects photophysiology and the level of expression of two-carbon metabolism genes in the seagrass Zostera muelleri.Specialized stomatal humidity responses underpin ecological diversity in C3 bromeliads.Acclimation to fluctuating light impacts the rapidity and diurnal rhythm of stomatal conductance.Finite Element Modeling of Shape Changes in Plant Cells.Stomatal Biology of CAM Plants.Stomatal function, density and pattern, and CO2 assimilation in Arabidopsis thaliana tmm1 and sdd1-1 mutants.Temporal Dynamics of Stomatal Behavior: Modeling and Implications for Photosynthesis and Water Use.Vapour pressure deficit during growth has little impact on genotypic differences of transpiration efficiency at leaf and whole-plant level: an example from Populus nigra L.The impacts of fluctuating light on crop performance.The acclimation of Tilia cordata stomatal opening in response to light, and stomatal anatomy to vegetational shade and its components.Chloride: essential micronutrient and multifunctional beneficial ion.Stomatal dynamics are limited by leaf hydraulics in ferns and conifers: results from simultaneous measurements of liquid and vapour fluxes in leaves.Traits to stay, traits to move: a review of functional traits to assess sensitivity and adaptive capacity of temperate and boreal trees to climate change
P2860
Q27306892-3FDBC5B4-02F4-414E-BF4E-4A37AFB95DB8Q28649466-59338F67-2E44-429C-9831-C790E9571F8CQ31094088-14F3E156-4F93-47C6-B13C-68D81C74DE0CQ33957524-8A83000B-EA05-44DB-B7D5-144091D619D8Q36332210-AE4D2063-E4BC-45B3-AF2A-8F5E709214B8Q36429934-804082E6-9464-4F20-B801-076DDE8A4332Q37169552-3F37695B-B503-4BBB-B950-73E44C996B9BQ38742155-FCA3F46C-24E3-42EF-BFCF-77AD8A741EB0Q38812173-9FFC14E3-C2C8-4123-B10A-91AED6D76CABQ39058743-7A563AEC-EF43-40BA-9E07-962291B31897Q41197976-245DB652-B65A-4F1A-8947-9A338364B445Q41652950-4020C43B-ABFB-4337-93AF-2A66DE1CA75CQ41699758-5B198841-8CF0-4136-B3E0-E3D84E82D98CQ46245195-C8332BA0-5B8D-4C27-88BC-0BBF289AFB3BQ46251878-EAA2B7E6-A8FA-4A56-9908-88E351AF4C59Q46294460-6B09F44E-4B48-4ED0-8950-C50C64C7C11AQ46334017-4EF2BDEB-734E-4310-99C3-3469B5B1263DQ47700415-2EE619C3-05D0-4704-AB90-A5E8324EE2ACQ48139502-21CF687B-A4BA-47F5-8AC4-8431E810C532Q48189090-42F1D7D5-105E-4F5F-89D0-DEFB3524E562Q48217817-F6E84D77-7435-4ECE-BAE0-26353F7D9390Q48340244-65A0D66B-D854-480F-9A7D-B38ECF3E2473Q48838495-A2A2A31F-A327-4C7C-93DD-C1F6AE603B26Q49386870-07489414-EE6F-4E3D-A0B7-B0B29B5F68CEQ50196941-5A7E2213-1954-4756-A016-6F98A78FD50AQ52807984-E0FDE315-A7D5-4EC0-AC74-6EDC6EBAB392Q53297220-6C7EAEC2-8862-4175-9EAD-A40F860D11AEQ56755131-868540EC-E26B-428E-8ED5-BE123351C6E0
P2860
description
2014 nî lūn-bûn
@nan
2014年の論文
@ja
2014年学术文章
@wuu
2014年学术文章
@zh-cn
2014年学术文章
@zh-hans
2014年学术文章
@zh-my
2014年学术文章
@zh-sg
2014年學術文章
@yue
2014年學術文章
@zh
2014年學術文章
@zh-hant
name
Speedy small stomata?
@en
Speedy small stomata?
@nl
type
label
Speedy small stomata?
@en
Speedy small stomata?
@nl
prefLabel
Speedy small stomata?
@en
Speedy small stomata?
@nl
P2860
P356
P1476
Speedy small stomata?
@en
P2093
John A Raven
P2860
P304
P356
10.1093/JXB/ERU032
P577
2014-03-07T00:00:00Z