Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 Global change and plant water relations
- 2 Cavitation. A review: past, present and future
- 3 Effect of cavitation on the status of water in plants
- 4 Stomatal control of xylem cavitation
- 5 Refilling of embolized xylem
- 6 Interpretation of the dynamics of plant water potential
- 7 A proposed mechanism of freezing and thawing in conifer xylem
- 8 Winter xylem embolism and spring recovery in Betula cordifolia, Fagus grandifolia, Abies balsamea and Picea rubens
- 9 Drought resistance strategies and vulnerability to cavitation of some Mediterranean sclerophyllous trees
- 10 Relations between sap velocity and cavitation in broad-leaved trees
- 11 NMR and water transport in plants
- 12 The symplast radial-axial water transport in plants: a NMR approach
- 13 Reproductive adaptation by polyembryony of coniferous forest trees under climatic stress as revealed by the metabolism of tritiated water
- 14 A heat balance method for measuring sap flow in small trees
- 15 Heat pulse measurements on beech (Fagus sylvatica L.) in relation to weather conditions
- 16 Extremely fast changes of xylem water flow rate in tall trees caused by atmospheric, soil and mechanic factors
- 17 Water relations and water transport in coppice vs. single stem Quercus cerris L. trees
- 18 Environmental control of water flux through Maritime pine (Pinus pinaster Ait).
- 19 Evaluation of transpiration of apple trees and measurement of daily course of water flow within the main branches of walnut trees
- 20 Estimating citrus orchard canopy resistance from measurements of actual and potential transpiration
- 21 Stomatal conductance in tomato responds to air humidity
- 22 Water relations of Canarian laurel forest trees
- 23 Watering regime and photosynthetic performance of Gunnera tinctoria (Molina) Mirbel.
- 24 Water relations and ultrasound emissions in Douglas-fir seedlings infected with xylem pathogens
- 25 Diurnal fruit shrinkage: a model
- 26 Analysis of pressure-volume curves by non-linear regression
- 27 Determination of the amount of apoplastic water and other water relations parameters in conifer needles
- 28 The assessment of water status in chilled plants
- 29 An artificial osmotic cell: a model system for studying phenomena of negative pressure and for determining concentrations of solutes
- 30 Measurement of water and solute uptake into excised roots at positive and negative root pressures
- Index
8 - Winter xylem embolism and spring recovery in Betula cordifolia, Fagus grandifolia, Abies balsamea and Picea rubens
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 Global change and plant water relations
- 2 Cavitation. A review: past, present and future
- 3 Effect of cavitation on the status of water in plants
- 4 Stomatal control of xylem cavitation
- 5 Refilling of embolized xylem
- 6 Interpretation of the dynamics of plant water potential
- 7 A proposed mechanism of freezing and thawing in conifer xylem
- 8 Winter xylem embolism and spring recovery in Betula cordifolia, Fagus grandifolia, Abies balsamea and Picea rubens
- 9 Drought resistance strategies and vulnerability to cavitation of some Mediterranean sclerophyllous trees
- 10 Relations between sap velocity and cavitation in broad-leaved trees
- 11 NMR and water transport in plants
- 12 The symplast radial-axial water transport in plants: a NMR approach
- 13 Reproductive adaptation by polyembryony of coniferous forest trees under climatic stress as revealed by the metabolism of tritiated water
- 14 A heat balance method for measuring sap flow in small trees
- 15 Heat pulse measurements on beech (Fagus sylvatica L.) in relation to weather conditions
- 16 Extremely fast changes of xylem water flow rate in tall trees caused by atmospheric, soil and mechanic factors
- 17 Water relations and water transport in coppice vs. single stem Quercus cerris L. trees
- 18 Environmental control of water flux through Maritime pine (Pinus pinaster Ait).
- 19 Evaluation of transpiration of apple trees and measurement of daily course of water flow within the main branches of walnut trees
- 20 Estimating citrus orchard canopy resistance from measurements of actual and potential transpiration
- 21 Stomatal conductance in tomato responds to air humidity
- 22 Water relations of Canarian laurel forest trees
- 23 Watering regime and photosynthetic performance of Gunnera tinctoria (Molina) Mirbel.
- 24 Water relations and ultrasound emissions in Douglas-fir seedlings infected with xylem pathogens
- 25 Diurnal fruit shrinkage: a model
- 26 Analysis of pressure-volume curves by non-linear regression
- 27 Determination of the amount of apoplastic water and other water relations parameters in conifer needles
- 28 The assessment of water status in chilled plants
- 29 An artificial osmotic cell: a model system for studying phenomena of negative pressure and for determining concentrations of solutes
- 30 Measurement of water and solute uptake into excised roots at positive and negative root pressures
- Index
Summary
SUMMARY
Xylem embolism was monitored from mid-winter to mid-summer in four co-occurring species: Betula cordifolia (Reg.) Fern., Fagus grandifolia Ehrh., Abies balsamea (L.) Mill., Picea rubens Sarg. The study site was a west-facing slope in the northern Green Mountains of Vermont, U.S.A.; Betula and conifers were sampled at 914 m; Fagus was collected at 827 m near its local altitudinal limit. Embolism was quantified by the percent the hydraulic conductivity of branch segments was below the maximum obtained following removal of air embolism in xylem conduits. Between early February and early May, the deciduous species averaged 60 to 84% embolism compared to 15 to 60% for the conifers. From April 24 to May 25, embolism in Betula dropped from 81 to 8%; this recovery was associated with root pressures up to 86 kPa as measured with manometers at the lower trunk. Betula trees in which root pressure was eliminated by overlapping saw cuts still showed 75% embolism in June; only 4% was present in control trees cut in a similar fashion after leaf flush. Root pressure was weak (3 kPa) and uncommon in Fagus, and trees remained 80% embolized through June showing considerable dieback. Fagus at lower elevations (60 m) were 33% embolized in June with no dieback. Embolism in the conifer species decreased from 40% embolism in late April to 6% in late June despite no detected positive xylem pressures. The mechanism for conifer recovery is unknown.
INTRODUCTION
Xylem embolism occurs as a result of water stress and freezing of xylem sap and it has the immediate consequence of reducing the hydraulic conductivity of the xylem. Longer-term consequences could include reduced growth and dieback.
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- Water Transport in Plants under Climatic Stress , pp. 86 - 98Publisher: Cambridge University PressPrint publication year: 1993
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