scholarly article | Q13442814 |
P356 | DOI | 10.1111/PCE.12461 |
P698 | PubMed publication ID | 25292257 |
P50 | author | Martin Venturas | Q42810967 |
Anna L. Jacobsen | Q58330225 | ||
P2093 | author name string | R Brandon Pratt | |
Evan D Mackinnon | |||
P2860 | cites work | Mechanism of water stress-induced xylem embolism | Q33241875 |
Tracheid diameter is the key trait determining the extent of freezing-induced embolism in conifers | Q33430393 | ||
Vein recovery from embolism occurs under negative pressure in leaves of sunflower (Helianthus annuus). | Q33439430 | ||
The roles of hydraulic and carbon stress in a widespread climate-induced forest die-off | Q34100462 | ||
Safety and efficiency conflicts in hydraulic architecture: scaling from tissues to trees. | Q37035353 | ||
Confronting Maxwell's demon: biophysics of xylem embolism repair | Q37590960 | ||
Refilling embolized xylem conduits: is it a matter of phloem unloading? | Q37855299 | ||
Cavitation and its discontents: opportunities for resolving current controversies | Q38185623 | ||
Shoot dieback during prolonged drought in Ceanothus (Rhamnaceae) chaparral of California: a possible case of hydraulic failure | Q38963817 | ||
The relationship between xylem conduit diameter and cavitation caused by freezing | Q41696510 | ||
Diurnal cycles of embolism formation and repair in petioles of grapevine (Vitis vinifera cv. Chasselas). | Q42214583 | ||
Vulnerability curves by centrifugation: is there an open vessel artefact, and are 'r' shaped curves necessarily invalid? | Q42619719 | ||
Relax and refill: xylem rehydration prior to hydraulic measurements favours embolism repair in stems and generates artificially low PLC values | Q44034374 | ||
Kinetics of recovery of leaf hydraulic conductance and vein functionality from cavitation-induced embolism in sunflower | Q44592846 | ||
Rare pits, large vessels and extreme vulnerability to cavitation in a ring-porous tree species. | Q44816583 | ||
Hydraulic conductivity and embolism in the mangrove tree Laguncularia racemosa. | Q50792754 | ||
Recent advances in tree hydraulics highlight the ecological significance of the hydraulic safety margin. | Q51162937 | ||
Evolution of Water Transport and Xylem Structure | Q56001207 | ||
Hydraulic and photosynthetic co-ordination in seasonally dry tropical forest trees | Q58310446 | ||
Use of Positive Pressures to Establish Vulnerability Curves : Further Support for the Air-Seeding Hypothesis and Implications for Pressure-Volume Analysis | Q58380167 | ||
Limits to xylem refilling under negative pressure in Laurus nobilis and Acer negundo | Q58388293 | ||
Sustained and significant negative water pressure in xylem | Q59084622 | ||
P433 | issue | 6 | |
P921 | main subject | xylem | Q122811 |
xylem cavitation | Q125445495 | ||
P304 | page(s) | 1060-1068 | |
P577 | publication date | 2014-11-11 | |
P1433 | published in | Plant, Cell and Environment | Q15766307 |
P1476 | title | Excising stem samples underwater at native tension does not induce xylem cavitation | |
P478 | volume | 38 |
Q41901709 | Avoidance of harvesting and sampling artefacts in hydraulic analyses: a protocol tested on Malus domestica. |
Q31113405 | Chaparral Shrub Hydraulic Traits, Size, and Life History Types Relate to Species Mortality during California's Historic Drought of 2014 |
Q92010285 | Dead or dying? Quantifying the point of no return from hydraulic failure in drought-induced tree mortality |
Q46851488 | Direct x-ray microtomography observation confirms the induction of embolism upon xylem cutting under tension |
Q39533571 | Diurnal changes in embolism rate in nine dry forest trees: relationships with species-specific xylem vulnerability, hydraulic strategy and wood traits |
Q39600263 | Does leaf shedding protect stems from cavitation during seasonal droughts? A test of the hydraulic fuse hypothesis |
Q64951458 | Drought-induced dieback of Pinus nigra: a tale of hydraulic failure and carbon starvation. |
Q54206978 | Further evidence that some plants can lose and regain hydraulic function daily. |
Q31030972 | Grapevine petioles are more sensitive to drought induced embolism than stems: evidence from in vivo MRI and microcomputed tomography observations of hydraulic vulnerability segmentation. |
Q60916719 | Hydrodynamic Study on the “Stop-and-Acceleration” Pattern of Refilling Flow at Perforation Plates by Using a Xylem-Inspired Channel |
Q39141907 | In Situ Visualization of the Dynamics in Xylem Embolism Formation and Removal in the Absence of Root Pressure: A Study on Excised Grapevine Stems |
Q57804977 | Insights from in vivo micro-CT analysis: testing the hydraulic vulnerability segmentation in Acer pseudoplatanus and Fagus sylvatica seedlings |
Q38984443 | Leaf size serves as a proxy for xylem vulnerability to cavitation in plantation trees |
Q64932069 | Plant height and hydraulic vulnerability to drought and cold. |
Q39349382 | Plant pneumatics: stem air flow is related to embolism - new perspectives on methods in plant hydraulics |
Q36308729 | Plant xylem hydraulics: What we understand, current research, and future challenges |
Q43514726 | Post-drought hydraulic recovery is accompanied by non-structural carbohydrate depletion in the stem wood of Norway spruce saplings. |
Q39293998 | Rooting depth, water relations and non-structural carbohydrate dynamics in three woody angiosperms differentially affected by an extreme summer drought |
Q50883787 | Short-time xylem relaxation results in reliable quantification of embolism in grapevine petioles and sheds new light on their hydraulic strategy. |
Q36162227 | X-ray microtomography observations of xylem embolism in stems of Laurus nobilis are consistent with hydraulic measurements of percentage loss of conductance. |
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