human | Q5 |
P227 | GND ID | 1077043546 |
P1006 | Nationale Thesaurus voor Auteursnamen ID | 39406237X |
P856 | official website | http://www.ualberta.ca/~hacke/ |
P496 | ORCID iD | 0000-0001-5983-3582 |
P3829 | Publons author ID | 1564768 |
P1053 | ResearcherID | M-7719-2015 |
P1153 | Scopus author ID | 6602593865 |
P214 | VIAF ID | 5490147425862145040006 |
P734 | family name | Hacke | Q56246415 |
Hacke | Q56246415 | ||
Hacke | Q56246415 | ||
P735 | given name | Uwe | Q18515951 |
Uwe | Q18515951 | ||
P106 | occupation | researcher | Q1650915 |
P21 | sex or gender | male | Q6581097 |
Q43532871 | A global analysis of xylem vessel length in woody plants |
Q58242456 | A multi-species synthesis of physiological mechanisms in drought-induced tree mortality |
Q57029893 | Adjustments in hydraulic architecture of Pinus palustris maintain similar stomatal conductance in xeric and mesic habitats |
Q53902393 | Analysis of circular bordered pit function I. Angiosperm vessels with homogenous pit membranes. |
Q58388289 | Analysis of circular bordered pit function II. Gymnosperm tracheids with torus-margo pit membranes |
Q38870425 | Cellular localization of aquaporin mRNA in hybrid poplar stems |
Q58388280 | Comparative analysis of end wall resistivity in xylem conduits |
Q30601763 | Drought's legacy: multiyear hydraulic deterioration underlies widespread aspen forest die-off and portends increased future risk |
Q39067973 | Drought-induced xylem pit membrane damage in aspen and balsam poplar |
Q58388282 | Efficiency Versus Safety Tradeoffs for Water Conduction in Angiosperm Vessels Versus Gymnosperm Tracheids |
Q58388266 | Embolism resistance of three boreal conifer species varies with pit structure |
Q58388268 | Evaluation of centrifugal methods for measuring xylem cavitation in conifers, diffuse- and ring-porous angiosperms |
Q39126742 | Exploring Picea glauca aquaporins in the context of needle water uptake and xylem refilling |
Q39228949 | Frost drought in conifers at the alpine timberline: xylem dysfunction and adaptations |
Q58069879 | Frost hardiness vs. growth performance in trembling aspen: an experimental test of assisted migration |
Q39359742 | Gene expression patterns underlying changes in xylem structure and function in response to increased nitrogen availability in hybrid poplar |
Q33790324 | Genetic variation of hydraulic and wood anatomical traits in hybrid poplar and trembling aspen |
Q30578178 | Global convergence in the vulnerability of forests to drought. |
Q50528572 | Heterogeneous distribution of pectin epitopes and calcium in different pit types of four angiosperm species. |
Q57314190 | Hydraulic acclimation to shading in boreal conifers of varying shade tolerance |
Q39762505 | Influence of evaporative demand on aquaporin expression and root hydraulics of hybrid poplar |
Q42473960 | Influence of nitrogen fertilization on xylem traits and aquaporin expression in stems of hybrid poplar. |
Q46011342 | Inter-tracheid pitting and the hydraulic efficiency of conifer wood: the role of tracheid allometry and cavitation protection. |
Q58388285 | Inter-vessel pitting and cavitation in woody Rosaceae and other vesselled plants: a basis for a safety versus efficiency trade-off in xylem transport |
Q58388248 | Irradiance-induced changes in hydraulic architecture |
Q38984443 | Leaf size serves as a proxy for xylem vulnerability to cavitation in plantation trees |
Q58388258 | Linking irradiance-induced changes in pit membrane ultrastructure with xylem vulnerability to cavitation |
Q39358912 | Mechanical reinforcement of tracheids compromises the hydraulic efficiency of conifer xylem |
Q58388254 | New research on plant-water relations examines the molecular, structural, and physiological mechanisms of plant responses to their environment |
Q41845081 | Nobody's perfect: can irregularities in pit structure influence vulnerability to cavitation? |
Q58310338 | On research priorities to advance understanding of the safety-efficiency tradeoff in xylem |
Q39359749 | Phenotypic and developmental plasticity of xylem in hybrid poplar saplings subjected to experimental drought, nitrogen fertilization, and shading |
Q46733247 | Pit membrane structure is highly variable and accounts for a major resistance to water flow through tracheid pits in stems and roots of two boreal conifer species |
Q31066877 | Plant hydraulics as a central hub integrating plant and ecosystem function: meeting report for 'Emerging Frontiers in Plant Hydraulics' (Washington, DC, May 2015). |
Q36308729 | Plant xylem hydraulics: What we understand, current research, and future challenges |
Q114239080 | Seasonal patterns of callose deposition and xylem embolism in five boreal deciduous tree species |
Q47257712 | Sixteen years of winter stress: an assessment of cold hardiness, growth performance and survival of hybrid poplar clones at a boreal planting site |
Q47319666 | Size and function in conifer tracheids and angiosperm vessels |
Q100296522 | Solid mechanics of the torus-margo in conifer inter-tracheid bordered pits |
Q58388245 | Stomatal conductance scales with petiole xylem traits in Populus genotypes |
Q35432965 | The role of water channel proteins in facilitating recovery of leaf hydraulic conductance from water stress in Populus trichocarpa |
Q58388246 | The standard centrifuge method accurately measures vulnerability curves of long-vesselled olive stems |
Q56864109 | Torus-Margo Pits Help Conifers Compete with Angiosperms |
Q40718308 | Transpirational demand affects aquaporin expression in poplar roots |
Q30755820 | Uptake of water via branches helps timberline conifers refill embolized xylem in late winter. |
Q58388250 | Variable plant hydraulic conductance |
Q58069866 | Variation of xylem vessel diameters across a climate gradient: insight from a reciprocal transplant experiment with a widespread boreal tree |
Q35778455 | Weak tradeoff between xylem safety and xylem-specific hydraulic efficiency across the world's woody plant species. |
Q58388262 | What happens when stems are embolized in a centrifuge? Testing the cavitron theory |
Q45815941 | Xylem function of arid-land shrubs from California, USA: an ecological and evolutionary analysis. |
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