Add to ORKGJournal ArticleTwo structure-function hypotheses were tested for vesselless angiosperm wood. First, vesselless angiosperm wood should have much higher flow resistance than conifer wood because angiosperm tracheids lack low-resistance torus-margo pits. Second, vesselless wood ought to be exceptionally safe from cavitation if the small cumulative area of pits between tracheids confers safety (the pit area hypothesis). Data were obtained from branch wood of 19 vesselless angiosperms: Amborella trichopoda, Trochodendron aralioides, Tetracentron sinense, and 16 Winteraceae from Tasmannia, Zygogynum, Bubbia, Pseudowintera, and Drimys
Xylem anatomical traits can provide insights regarding the mechanisms affecting the distribution of ...
Vulnerability to cavitation and conductive efficiency depend on xylem anatomy. We tested a large ran...
Woody stems comprise a large biological carbon fraction and determine water transport between roots ...
Journal ArticleWe tested two hypotheses for how vessel evolution in angiosperms influenced xylem fun...
Journal ArticleA model of xylem conduit function was applied to gymnosperm tracheids with torus-marg...
Journal ArticlePlant xylem must balance efficient delivery of water to the canopy against protection...
The relationship between hydraulic specific conductivity (ks) and vulnerability to cavitation (VC) w...
There is a broad diversity of imperforate tracheary elements (ITEs) - libriform fibers, fiber-trache...
The article discusses water transport in angiosperms and conifers, focusing on structural factors th...
Journal ArticleLand plants need water to replace the evaporation that occurs while atmospheric CO2 i...
The relationship between hydraulic specific conductivity (ks) and vulnerability to cavitation (VC) w...
The evolution of xylem vessels from tracheids is put forward as a key innovation that boosted hydrau...
Water transport in conifers occurs through single-celled tracheids that are connected to one another...
Water transport in conifers occurs through single-celled tracheids that are connected to one another...
The evolution of lignified xylem allowed for the efficient transport of water under tension, but als...
Xylem anatomical traits can provide insights regarding the mechanisms affecting the distribution of ...
Vulnerability to cavitation and conductive efficiency depend on xylem anatomy. We tested a large ran...
Woody stems comprise a large biological carbon fraction and determine water transport between roots ...
Journal ArticleWe tested two hypotheses for how vessel evolution in angiosperms influenced xylem fun...
Journal ArticleA model of xylem conduit function was applied to gymnosperm tracheids with torus-marg...
Journal ArticlePlant xylem must balance efficient delivery of water to the canopy against protection...
The relationship between hydraulic specific conductivity (ks) and vulnerability to cavitation (VC) w...
There is a broad diversity of imperforate tracheary elements (ITEs) - libriform fibers, fiber-trache...
The article discusses water transport in angiosperms and conifers, focusing on structural factors th...
Journal ArticleLand plants need water to replace the evaporation that occurs while atmospheric CO2 i...
The relationship between hydraulic specific conductivity (ks) and vulnerability to cavitation (VC) w...
The evolution of xylem vessels from tracheids is put forward as a key innovation that boosted hydrau...
Water transport in conifers occurs through single-celled tracheids that are connected to one another...
Water transport in conifers occurs through single-celled tracheids that are connected to one another...
The evolution of lignified xylem allowed for the efficient transport of water under tension, but als...
Xylem anatomical traits can provide insights regarding the mechanisms affecting the distribution of ...
Vulnerability to cavitation and conductive efficiency depend on xylem anatomy. We tested a large ran...
Woody stems comprise a large biological carbon fraction and determine water transport between roots ...