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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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Grazing effects upon plant community structure in subhumid grasslands of Argentina (1986)

Sala, O. E. ; Oesterheld, M. ; León, R. J. C. ; [et al.]

Springer

Plant ecology 67 (1986), S. 27-32

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ISSN: 1573-5052

Keywords: Argentina ; Basal area ; Community structure ; Diversity ; Dynamics ; Flooding pampa ; Grassland ; Grazing effect ; Leaf area

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Changes in plant community structure are identified as a result of grazing in grasslands of the flooding pampa which evolved under supposedly light grazing conditions. The effect of excluding grazing upon total leaf area index was an increase of 30%. The largest response was observed in the distribution of leaves in the canopy. In the grazed areas, most of the green material was concentrated in the 0–5 cm layer while in the ungrazed treatments the largest portion of the leaf area was in the 10–30 cm layer. Grazing exclusion resulted in a small change in total basal area but a larger change in its distribution, from many small tussocks to less numerous large ones. The effect of grazing upon leaf area and basal area was accounted for by changes in vigor as well as by changes in species composition. The major effect of excluding grazing upon species composition was the disappearance of some native planophile species and most of the exotics. The species composition of grazed areas of both communities was very similar while there were large differences between the ungrazed areas and between the grazed and ungrazed areas of the same community. It is suggested that there is a group of species which responds to the coarse-grained ‘signal’ of grazing and its presence can cause dissimilar communities to converge under grazing conditions. The other group of species responded to the fine-grained ‘signal’ of the environmental conditions associated with topography.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00040315

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