Water Conservation in Artemisia tridentata through Redistribution of Precipitation

Water Conservation in Artemisia tridentata through Redistribution of Precipitation

Water conservation is important for plants that maintain physiologically active foliage during prolonged periods of drought. A variety of mechanisms for water conservation exist including stomatal regulation, foliage loss, above- and below-ground allocation patterns, size of xylem vessels and leaf p...

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Bibliographic Details
Published in:Oecologia Vol. 141; no. 2; pp. 335 - 345
Main Authors: Ryel, R. J., Leffler, A. J., Peek, M. S., Ivans, C. Y., Caldwell, M. M.
Format: Journal Article
Language:English
Published: Berlin Springer-Verlag 01-10-2004
Springer
Springer Nature B.V
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Arid environments
Artemisia - physiology
Artemisia tridentata
Biological and medical sciences
Computer Simulation
Drought
Foliage
Fundamental and applied biological sciences. Psychology
General aspects
Hydraulics
Models, Theoretical
Moisture content
Plant roots
Plant Roots - physiology
Plant Transpiration - physiology
Plants
Precipitation
Pulse Events and Arid Ecosystems
Rain
Semiarid environments
Soil
Soil columns
Soil conductivity
Soil depth
Soil hydraulic properties
Soil water
Soil water content
Soil water recharge
Summer
Transpiration
Utah
Water - physiology
Water availability
Water conservation
Water potential
Water shortages
Water storage
Water use
USA, Great Basin
USA
Artemisia tridentata
Soils
Precipitation
Hydraulic redistribution
Soil-water model
Dicotyledones
Angiospermae
Water conservation
Spermatophyta
Models
Compositae
Soil-water recharge
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Summary:Water conservation is important for plants that maintain physiologically active foliage during prolonged periods of drought. A variety of mechanisms for water conservation exist including stomatal regulation, foliage loss, above- and below-ground allocation patterns, size of xylem vessels and leaf pubescence. Using the results of a field and simulation study with Artemisia tridentata in the Great Basin, USA, we propose an additional mechanism of water conservation that can be used by plants in arid and semi-arid environments following pulses of water availability. Precipitation redistributed more uniformly in the soil column by roots (hydraulic redistribution of water downward) slows the rate at which this water can subsequently be taken up by plants, thus prolonging water availability during periods of drought. By spreading out water more uniformly in the soil column at lower water potentials following precipitation events, water use is reduced due to lower soil conductivity. The greater remaining soil water and more uniform distribution result in higher plant predawn water potentials and transpiration rates later in the drought period. Simulation results indicate that plants can benefit during drought periods from water storage following both summer rain events (small summer pulses) and overwinter recharge (large spring pulse). This mechanism of water conservation may aid in sustaining active foliage, maintaining root-soil hydraulic connectivity, and increasing survival probability of plants which remain physiologically active during periods of drought.
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ISSN:0029-8549
1432-1939
DOI:10.1007/s00442-003-1421-2