Analysis of circular bordered pit function II. Gymnosperm tracheids with torus-margo pit membranes
about
Vulnerability of Protoxylem and Metaxylem Vessels to Embolisms and Radial Refilling in a Vascular Bundle of Maize LeavesStructure and Function of Intra-Annual Density Fluctuations: Mind the Gaps.The relationships between xylem safety and hydraulic efficiency in the Cupressaceae: the evolution of pit membrane form and functionHydraulic efficiency compromises compression strength perpendicular to the grain in Norway spruce trunkwood.Hydraulic and mechanical properties of young Norway spruce clones related to growth and wood structureSeasonal changes of whole root system conductance by a drought-tolerant grape root system.Maximum height in a conifer is associated with conflicting requirements for xylem design.Uptake of water via branches helps timberline conifers refill embolized xylem in late winter.Embolism formation during freezing in the wood of Picea abies.Xylem structure and connectivity in grapevine (Vitis vinifera) shoots provides a passive mechanism for the spread of bacteria in grape plantsA broad survey of hydraulic and mechanical safety in the xylem of conifersAn improved method and data analysis for ultrasound acoustic emissions and xylem vulnerability in conifer wood.Variation in xylem structure from tropics to tundra: evidence from vestured pitsVariation of the linkage of root function with root branch order.Force-displacement measurements of earlywood bordered pits using a mesomechanical tester.The micromorphology of pit membranes in tracheary elements of ericales: new records of tori or pseudo-tori?Plant xylem hydraulics: What we understand, current research, and future challenges.Aridity drove the evolution of extreme embolism resistance and the radiation of conifer genus Callitris.Safety and efficiency conflicts in hydraulic architecture: scaling from tissues to trees.Elevational trends in hydraulic efficiency and safety of Pinus cembra roots.Traits, properties, and performance: how woody plants combine hydraulic and mechanical functions in a cell, tissue, or whole plant.Vulnerability to drought-induced cavitation in poplars: synthesis and future opportunities.Dynamic Carboniferous tropical forests: new views of plant function and potential for physiological forcing of climate.Climate-related trends in sapwood biophysical properties in two conifers: avoidance of hydraulic dysfunction through coordinated adjustments in xylem efficiency, safety and capacitance.Are needles of Pinus pinaster more vulnerable to xylem embolism than branches? New insights from X-ray computed tomography.Hydraulic failure defines the recovery and point of death in water-stressed conifers.Water stress deforms tracheids peripheral to the leaf vein of a tropical conifer.Hydraulic differences along the water transport system of South American Nothofagus species: do leaves protect the stem functionality?Hydraulic efficiency and safety of vascular and non-vascular components in Pinus pinaster leaves.Synchrotron X-ray microtomography of xylem embolism in Sequoia sempervirens saplings during cycles of drought and recovery.New insights into the mechanisms of water-stress-induced cavitation in conifers.Mechanism of water-stress induced cavitation in conifers: bordered pit structure and function support the hypothesis of seal capillary-seeding.Mechanisms of piñon pine mortality after severe drought: a retrospective study of mature trees.Drought-induced xylem pit membrane damage in aspen and balsam poplar.Responses of gas-exchange rates and water relations to annual fluctuations of weather in three species of urban street trees.Contrasting drought tolerance strategies in two desert annuals of hybrid origin.Reversible Deformation of Transfusion Tracheids in Taxus baccata Is Associated with a Reversible Decrease in Leaf Hydraulic Conductance.Xylem structure of four grape varieties and 12 alternative hosts to the xylem-limited bacterium Xylella fastidiousHydraulics of Asteroxylon mackei, an early Devonian vascular plant, and the early evolution of water transport tissue in terrestrial plants.Impacts of long-term precipitation manipulation on hydraulic architecture and xylem anatomy of piñon and juniper in Southwest USA.
P2860
Q27306892-E1E2B092-ECB5-4BBF-99F1-5EFFC52E258FQ27307021-65C96FAD-A324-4BC6-ACE6-222B5B93F857Q28749639-A790958F-45BC-4016-8E89-522AA927D8D5Q30473226-53F12E28-DC2E-45E8-915F-F16D77DBF635Q30473665-B5EB0203-A429-4794-BBB0-A0B57E3F544FQ30478435-2D8D974C-65C6-440E-B0F7-F47060319A60Q30484345-1FC3FDD3-9A08-4394-ACF6-B1A4868D17A4Q30755820-275BD8B3-1918-4817-94D3-737D23CD6AF4Q33260401-6E5C0B9B-0E4A-4C80-A2D7-1169425A9688Q33342806-8981B0BF-6A5A-4690-BE35-F672A1728E7FQ33957537-1F61041F-50D8-40A6-87BC-070A08CE0AD8Q34180362-FD587937-2941-4D0B-885E-CAED1CE1942EQ34516021-394D21C4-B705-4671-9023-3CB1095C9D9EQ34603107-C96FD19E-DD3E-41B9-A427-06EADF0A1303Q35574196-D59E8165-95D5-4711-A634-6A98C5383BC1Q35796663-2A692845-DEBD-457B-8E1F-CB9C1D854330Q36308729-BD8BEB02-FBCE-4EDC-ABCE-8E5E61C3AC54Q36335397-7FFD0035-2AAF-44CF-B20C-47E8919E2094Q37035353-3E8B34F4-53B3-4E43-AF20-2089D7178730Q37091741-53FE226A-94BF-4735-BA40-93A5C419AEEFQ38253790-D5F82D56-ABA2-423B-9DE9-D9E9A36D6981Q38274696-6580D76D-BE14-4C90-9928-0D056F4FDC21Q38368958-CC398377-4746-4FD4-89C3-87AA83B1C9BDQ38893771-3B1D1EB5-7C29-4769-AC17-AB8F8FD1239DQ38916582-D52E72AE-880C-4E57-9AFF-9850AA30A388Q38922029-97A46A62-1A47-49DD-9C13-2A7FE97C939DQ38922042-4F8C51A6-C18E-4514-9A5F-3EE5BB2FA9C1Q38924629-61C10005-66C5-488B-A2BF-1F7EBDC9A8A7Q38939644-C50CAB46-6556-40CA-B950-B6FF53960ACEQ38945394-A42A70DA-ADD4-4E7B-B118-29230C43BBBDQ38949390-50BF1514-B32E-40BD-8501-F4773C4635ECQ38969670-DB53D3B2-1F99-4169-9FBF-EC4517A81B2CQ38998706-7858D36F-4FFB-450D-920F-1110A722CF1AQ39067973-09A1510B-9F25-407F-BE24-4985C7E8567EQ39328900-DA8B8E11-AC6A-49E4-87A2-CB2CCFD79FDDQ39409347-0A274216-5B72-450A-BDBF-7BE118E126CCQ41608145-48FD0520-A646-45F0-9CFB-F2C743AE7055Q41966692-C548E2A6-6664-49CB-B21C-EC67DF92DE7FQ46001166-CA578739-2FF6-4588-A8BA-D9CDC95FF3B0Q46246044-509F2918-F754-4397-9F87-2B23B5F1B2A8
P2860
Analysis of circular bordered pit function II. Gymnosperm tracheids with torus-margo pit membranes
description
article
@en
im März 2004 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в березні 2004
@uk
name
Analysis of circular bordered ...... with torus-margo pit membranes
@en
Analysis of circular bordered ...... with torus-margo pit membranes
@nl
type
label
Analysis of circular bordered ...... with torus-margo pit membranes
@en
Analysis of circular bordered ...... with torus-margo pit membranes
@nl
prefLabel
Analysis of circular bordered ...... with torus-margo pit membranes
@en
Analysis of circular bordered ...... with torus-margo pit membranes
@nl
P356
P1476
Analysis of circular bordered ...... with torus-margo pit membranes
@en
P2093
Jarmila Pittermann
John S. Sperry
P304
P356
10.3732/AJB.91.3.386
P407
P50
P577
2004-03-01T00:00:00Z