scholarly article | Q13442814 |
P356 | DOI | 10.1111/NPH.14087 |
P698 | PubMed publication ID | 27373446 |
P50 | author | John S Sperry | Q91647900 |
Thomas A. Kursar | Q113273044 | ||
P2093 | author name string | Brett T Wolfe | |
P2860 | cites work | What plant hydraulics can tell us about responses to climate-change droughts | Q28081447 |
Confronting model predictions of carbon fluxes with measurements of Amazon forests subjected to experimental drought | Q30654642 | ||
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Deciduousness in a seasonal tropical forest in western Thailand: interannual and intraspecific variation in timing, duration and environmental cues | Q33314344 | ||
Living to Die and Dying to Live: The Survival Strategy behind Leaf Senescence | Q34489664 | ||
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Comparative drought-resistance of seedlings of 28 species of co-occurring tropical woody plants | Q38993784 | ||
Stem hydraulic traits and leaf water-stress tolerance are co-ordinated with the leaf phenology of angiosperm trees in an Asian tropical dry karst forest. | Q39013269 | ||
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Drought-deciduous behavior reduces nutrient losses from temperate deciduous trees under severe drought. | Q39214174 | ||
Ecological differentiation in xylem cavitation resistance is associated with stem and leaf structural traits | Q39215682 | ||
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Water deficits and hydraulic limits to leaf water supply | Q39482891 | ||
Excising stem samples underwater at native tension does not induce xylem cavitation. | Q39557142 | ||
Diverse patterns of stored water use among saplings in seasonally dry tropical forests | Q39600267 | ||
Xylem vulnerability to cavitation can be accurately characterised in species with long vessels using a centrifuge method | Q43799318 | ||
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Phenology of Canopy Trees of a Tropical Deciduous Forest in Mexico | Q55922804 | ||
Long-term change within a Neotropical forest: assessing differential functional and floristic responses to disturbance and drought | Q56785142 | ||
Leaf Hydraulics and Its Implications in Plant Structure and Function | Q56973926 | ||
Die and let live: leaf senescence contributes to plant survival under drought stress | Q57066886 | ||
Relations between stomatal closure, leaf turgor and xylem vulnerability in eight tropical dry forest trees | Q58310442 | ||
Hydraulic and photosynthetic co-ordination in seasonally dry tropical forest trees | Q58310446 | ||
Drought-induced leaf shedding in walnut: evidence for vulnerability segmentation | Q58380160 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | drought | Q43059 |
P304 | page(s) | 1007-1018 | |
P577 | publication date | 2016-07-04 | |
P1433 | published in | New Phytologist | Q13548580 |
P1476 | title | Does leaf shedding protect stems from cavitation during seasonal droughts? A test of the hydraulic fuse hypothesis | |
P478 | volume | 212 |
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Q93012226 | Low growth resilience to drought is related to future mortality risk in trees |
Q92981092 | Plant functional traits differ in adaptability and are predicted to be differentially affected by climate change |
Q36308729 | Plant xylem hydraulics: What we understand, current research, and future challenges |
Q31109647 | Pragmatic hydraulic theory predicts stomatal responses to climatic water deficits. |
Q60959735 | Rainforest trees respond to drought by modifying their hydraulic architecture |
Q36321830 | Retention of stored water enables tropical tree saplings to survive extreme drought conditions |
Q38741502 | Role of tree size in moist tropical forest carbon cycling and water deficit responses. |
Q36332210 | Secrets of succulence |
Q36326124 | Stomatal Closure, Basal Leaf Embolism, and Shedding Protect the Hydraulic Integrity of Grape Stems |
Q64236996 | Swift metabolite changes and leaf shedding are milestones in the acclimation process of grapevine under prolonged water stress |
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