| P50 | author | Martin Venturas | Q42810967 |
| | Anna L. Jacobsen | Q58330225 |
| P2093 | author name string | R Brandon Pratt | |
| | Casparus J Crous | |
| | F Daniela Rodriguez-Zaccaro | |
| | Marta I Percolla | |
| P2860 | cites work | Methods for measuring plant vulnerability to cavitation: a critical review | Q26860494 |
| | Intra- and inter-plant variation in xylem cavitation in Betula occidentalis | Q29037766 |
| | In vivo visualizations of drought-induced embolism spread in Vitis vinifera. | Q30596791 |
| | In vivo observation of cavitation and embolism repair using magnetic resonance imaging. | Q30651838 |
| | Cavitation: a blessing in disguise? New method to establish vulnerability curves and assess hydraulic capacitance of woody tissues | Q30836827 |
| | Root resistance to cavitation is accurately measured using a centrifuge technique. | Q30900152 |
| | Mechanism of water stress-induced xylem embolism | Q33241875 |
| | Comparative community physiology: nonconvergence in water relations among three semi-arid shrub communities | Q33351746 |
| | The interdependence of mechanisms underlying climate-driven vegetation mortality | Q33976002 |
| | Mortality of resprouting chaparral shrubs after a fire and during a record drought: physiological mechanisms and demographic consequences. | Q34394782 |
| | Structure and function of bordered pits: new discoveries and impacts on whole-plant hydraulic function. | Q37034477 |
| | Contrasting hydraulic architecture and function in deep and shallow roots of tree species from a semi-arid habitat | Q37606607 |
| | Nanobubbles: a new paradigm for air-seeding in xylem. | Q38355048 |
| | Variable hydraulic resistances and their impact on plant drought response modelling | Q38887618 |
| | The relevance of xylem network structure for plant hydraulic efficiency and safety | Q39187157 |
| | How reliable are methods to assess xylem vulnerability to cavitation? The issue of 'open vessel' artifact in oaks | Q39219202 |
| | Patterns of PIP gene expression in Populus trichocarpa during recovery from xylem embolism suggest a major role for the PIP1 aquaporin subfamily as moderators of refilling process | Q39443003 |
| | Regulation of water loss in populations of Populus trichocarpa: the role of stomatal control in preventing xylem cavitation | Q39482138 |
| | Vulnerability curves by centrifugation: is there an open vessel artefact, and are 'r' shaped curves necessarily invalid? | Q42619719 |
| | A global analysis of xylem vessel length in woody plants | Q43532871 |
| | Xylem vulnerability to cavitation can be accurately characterised in species with long vessels using a centrifuge method | Q43799318 |
| | Vulnerability of xylem vessels to cavitation in sugar maple. Scaling from individual vessels to whole branches | Q44401335 |
| | Morphological variation of intervessel pit membranes and implications to xylem function in angiosperms. | Q44472328 |
| | Testing hypotheses that link wood anatomy to cavitation resistance and hydraulic conductivity in the genus Acer. | Q44670628 |
| | Rare pits, large vessels and extreme vulnerability to cavitation in a ring-porous tree species. | Q44816583 |
| | Xylem function of arid-land shrubs from California, USA: an ecological and evolutionary analysis. | Q45815941 |
| | No evidence for an open vessel effect in centrifuge-based vulnerability curves of a long-vesselled liana (Vitis vinifera). | Q46262343 |
| | Xylem vessel relays contribute to radial connectivity in grapevine stems (Vitis vinifera and V. arizonica; Vitaceae). | Q46613625 |
| | Use of X-ray computed microtomography for non-invasive determination of wood anatomical characteristics | Q49132615 |
| | Single-vessel flow measurements indicate scalariform perforation plates confer higher flow resistance than previously estimated. | Q51767897 |
| | Hydraulic properties of individual xylem vessels of Fraxinus americana. | Q52066350 |
| | A global overview of drought and heat-induced tree mortality reveals emerging climate change risks for forests | Q55966720 |
| | Geographic And Seasonal Variation In Chaparral Vulnerability To Cavitation | Q56195869 |
| | ADAPTIVE VARIATION IN THE VULNERABILITY OF WOODY PLANTS TO XYLEM CAVITATION | Q58318698 |
| | Use of centrifugal force in the study of xylem cavitation | Q58318701 |
| | Use of Positive Pressures to Establish Vulnerability Curves : Further Support for the Air-Seeding Hypothesis and Implications for Pressure-Volume Analysis | Q58380167 |
| | The standard centrifuge method accurately measures vulnerability curves of long-vesselled olive stems | Q58388246 |
| | Linking irradiance-induced changes in pit membrane ultrastructure with xylem vulnerability to cavitation | Q58388258 |
| | Comparative analysis of end wall resistivity in xylem conduits | Q58388280 |
| | Inter-vessel pitting and cavitation in woody Rosaceae and other vesselled plants: a basis for a safety versus efficiency trade-off in xylem transport | Q58388285 |
| | Changes in pit membrane porosity due to deflection and stretching: the role of vestured pits | Q59159316 |
| P433 | issue | 10 | |
| P921 | main subject | xylem | Q122811 |
| | xylem cavitation | Q125445495 |
| P1104 | number of pages | 13 | |
| P304 | page(s) | 1247-1259 | |
| P577 | publication date | 2016-06-29 | |
| P1433 | published in | Tree Physiology | Q15761975 |
| P1476 | title | Single vessel air injection estimates of xylem resistance to cavitation are affected by vessel network characteristics and sample length | |
| P478 | volume | 36 | |