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Downward flux of water through roots (i.e. inverse hydraulic lift) in dry Kalahari sands (1998)

Schulze, E.-D. ; Caldwell, M. M. ; Canadell, J. ; [et al.]

Springer

Oecologia 115 (1998), S. 460-462

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ISSN: 1432-1939

Keywords: Key words Water transport ; Grass roots ; Hydraulic lift ; Deserts

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Downward transport of water in roots, in the following termed “inverse hydraulic lift,” has previously been shown with heat flux techniques. But water flow into deeper soil layers was demonstrated in this study for the first time when investigating several perennial grass species of the Kalahari Desert under field conditions. Deuterium labelling was used to show that water acquired by roots from moist sand in the upper profile was transported through the root system to roots deeper in the profile and released into the dry sand at these depths. Inverse hydraulic lift may serve as an important mechanism to facilitate root growth through the dry soil layers underlaying the upper profile where precipitation penetrates. This may allow roots to reach deep sources of moisture in water-limited ecosystems such as the Kalahari Desert.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050541

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Environmental regulation of surface conductance for evaporation from vegetation (1995)

Schulze, E.-D. ; Leuning, R. ; Kelliher, F. M.

Springer

Plant ecology 121 (1995), S. 79-87

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ISSN: 1573-5052

Keywords: Canopy ; Evaporation ; Leaf area index ; Scaling ; Surface conductance ; Stomata

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract We examine conductances for evaporation from both vegetation and soil in response to environmental variables. Data from a vertically-structured pristine forest of Nothofagus are presented as an example of the effects of biodiversity on the scaling of conductances between tiers of plant organisation. Available data sets of maximum leaf stomatal conductances (g lmax ) and bulk vegetation surface conductances (G smax ) are compared. Overall, the ratio G smax /g lmax is consistently close to 3 for seven major vegetation types of diverse structure. An analytical model accounts for this close relationship, and in particular how G smax is conservative against changes in leaf area index because of the compensating decrease in plant canopy transpiration and increase in soil evaporation as leaf area index diminishes. The model is also successfully tested by comparison with canopy conductances of emergent trees measured in the Nothofagus forest. The constraint of vegetation surface conductance and evaporation via environmental regulation by irradiance, air saturation deficit and root zone water supply are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00044674

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