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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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Differential use of large summer rainfall events by shrubs and grasses: a manipulative experiment in the Patagonian steppe (1998)

Golluscio, R. A. ; Sala, O. E. ; Lauenroth, W. K.

Springer

Oecologia 115 (1998), S. 17-25

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ISSN: 1432-1939

Keywords: Key words Patagonian steppe ; Water stress ; Percolation ; Aboveground net primary production

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In the Patagonian steppe, years with above-average precipitation (wet years) are characterized by the occurrence of large rainfall events. The objective of this paper was to analyze the ability of shrubs and grasses to use these large events. Shrubs absorb water from the lower layers, grasses from the upper layers, intercepting water that would otherwise reach the layers exploited by shrubs. We hypothesized that both life-forms could use the large rainfalls and that the response of shrubs could be more affected by the presence of grasses than vice versa. We performed a field experiment using a factorial combination of water addition and life-form removal, and repeated it during the warm season of three successive years. The response variables were leaf growth, and soil and plant water potential. Grasses always responded to experimental large rainfall events, and their response was greater in dry than in wet years. Shrubs only used large rainfalls in the driest year, when the soil water potential in the deep layers was low. The presence or absence of one life-form did not modify the response of the other. The magnitude of the increase in soil water potential was much higher in dry than in humid years, suggesting an explanation for the differences among years in the magnitude of the response of shrubs and grasses. We propose that the generally reported poor response of deep-rooted shrubs to summer rainfalls could be because (1) the water is insufficient to reach deep soil layers, (2) the plants are in a dormant phenological status, and/or (3) deep soil layers have a high water potential. The two last situations may result in high deep-drainage losses, one of the most likely explanations for the elsewhere-reported low response of aboveground net primary production to precipitation during wet years.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050486

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CO2 alters water use, carbon gain, and yield for the dominant species in a natural grassland (1994)

Jackson, R. B. ; Sala, O. E. ; Field, C. B. ; [et al.]

Springer

Oecologia 98 (1994), S. 257-262

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ISSN: 1432-1939

Keywords: Annual grassland ; Avena barbata CO2 ; Reproduction ; Water relations

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Global atmospheric CO2 is increasing at a rate of 1.5–2 ppm per year and is predicted to double by the end of the next century. Understanding how terrestrial ecosystems will respond in this changing environment is an important goal of current research. Here we present results from a field study of elevated CO2 in a California annual grassland. Elevated CO2 led to lower leaf-level stomatal conductance and transpiration (approximately 50%) and higher mid-day leaf water potentials (30–35%) in the most abundant species of the grassland, Avena barbata Brot. Higher CO2 concentrations also resulted in greater midday photosynthetic rates (70% on average). The effects of CO2 on stomatal conductance and leaf water potential decreased towards the end of the growing season, when Avena began to show signs of senescence. Water-use efficiency was approximately doubled in elevated CO2, as estimated by instantaneous gas-exchange measurements and seasonal carbon isotope discrimination. Increases in CO2 and photosynthesis resulted in more seeds per plant (30%) and taller and heavier plants (27% and 41%, respectively). Elevated CO2 also reduced seed N concentrations (9%).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00324212

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