G. Bauer scite author profile

Above-and belowground biomass distribution, isotopic composition of soil and xylem water, and carbon isotope ratios were studied along an aridity gradient in Patagonia (44-45°S). Sites, ranging from those with Nothofagus forest with high annual rainfall (770 mm) to Nothofagus scrub (520 mm), Festuca (290 mm) and Stipa (160 mm) grasslands and into desert vegetation (125 mm), were chosen to test whether rooting depth compensates for low rainfall. Along this gradient, both mean above-and belowground biomass and leaf area index decreased, but average carbon isotope ratios of sun leaves remained constant (at-27‰), indicating no major differences in the ratio of assimilation to stomatal conductance at the time of leaf growth. The depth of the soil horizon that contained 90% of the root biomass was similar for forests and grasslands (about 0.80-0.50 m), but was shallower in the desert (0.30 m). In all habitats, roots reached water-saturated soils or ground water at 2-3 m depth. The depth profile of oxygen and hydrogen isotope ratios of soil water corresponded inversely to volumetric soil water contents and showed distinct patterns throughout the soil profile due to evaporation, water uptake and rainfall events of the past year. The isotope ratios of soil water indicated that high soil moisture at 2-3 m soil depth had originated from rainy periods earlier in the season or even from past rainy seasons. Hydrogen and oxygen isotope ratios of xylem water revealed that all plants used water from recent rain events in the topsoil and not from water-saturated soils at greater depth. However, this study cannot explain the vegetation zonation along the transect on the basis of water supply to the existing plant cover. Although water was accessible to roots in deeper soil layers in all habitats, as demonstrated by high soil moisture, earlier rain events were not fully utilized by the current plant cover during summer drought. The role of seedling establishment in determining species composition and vegetation type, and the indirect effect of seedling establishment on the use of water by fully developed plant cover, are discussed in relation to climate change and vegetation modelling.

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Threats to the freshwater pearl mussel Margaritifera margaritifera L. in Central Europe

Bauer

1988

Biological Conservation

214

212

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Variation in the Life Span and Size of the Freshwater Pearl Mussel

Bauer¹

1992

The Journal of Animal Ecology

207

198

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Reproductive Strategy of the Freshwater Pearl Mussel Margaritifera margaritifera

Bauer¹

1987

The Journal of Animal Ecology

174

151

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Evaporation from an eastern Siberian larch forest

Kelliher

Hollinger

Schulze

et al. 1997

Agricultural and Forest Meteorology

164

113

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G. Bauer

Rooting depth, water availability, and vegetation cover along an aridity gradient in Patagonia

Threats to the freshwater pearl mussel Margaritifera margaritifera L. in Central Europe

Variation in the Life Span and Size of the Freshwater Pearl Mussel

Reproductive Strategy of the Freshwater Pearl Mussel Margaritifera margaritifera

Evaporation from an eastern Siberian larch forest

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