Old-field successional dynamics on the Inland Pampa, Argentina

The first 10 yr of old-field successional dynamics on the Argentine Inland Pampa were studied on a series of adjacent plots established consecutively between 1978 and 1989. We examined differences in species abundance patterns among plots in order to detect the spatial and temporal variability of su...

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Bibliographic Details
Published in:Journal of vegetation science 1995-06, Vol.6 (3), p.309-316
Main Authors: Omacini, M, Chaneton, E.J, Leon, R.J.C, Batista, W.B
Format: Article
Language:English
Subjects:
Annuals
botanical composition
Cabrera & Zardini
Calamagrostis
Climatic fluctuation
Colonization
Cynodon dactylon
deyeuxia viridiflavescens
Ecological life histories
ecological succession
Exotic
Forbs
Grasses
Grassland
life cycle (organisms)
Life history
Lolium multiflorum
long term experiments
Magnoliopsida
Native species
old fields
Pampas
Perennials
plant colonization
Plant succession
Plants
Poaceae
precipitation
Rain
seral stages
spatial variation
Stochastic process
Synecology
temporal variation
wild plants
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Summary:The first 10 yr of old-field successional dynamics on the Argentine Inland Pampa were studied on a series of adjacent plots established consecutively between 1978 and 1989. We examined differences in species abundance patterns among plots in order to detect the spatial and temporal variability of succession. Perennial grasses steadily increased in cover and replaced the dominant annual species after 5 yr. Pioneer dicots persisted in older seral stages with 20 - 23 species/plot. Overall, exotic species (mostly the grasses Lolium multiflorum and Cynodon dactylon) contributed much to the plant cover in these communities. Native grasses comprised 45 % of total cover at years 7 - 10 of succession, but occurred with less than 7 species/plot. Substantial variation was found in the successional pathway, which reflected the particular sequence from annual forbs to short-lived and perennial grasses in the various plots. The course of succession was apparently influenced by a 2-yr period of unusually high rainfall. Deyeuxia viridiflavescens, a native perennial grass virtually absent before the wet period, spread over the study area and dominated seral communities for 3 yr, irrespective of plot age. Climatic conditions thus affected the successional turnover of life forms by increasing the rate of colonization by perennial grasses. We further point out the constraints imposed on secondary succession by the life histories of 'available' species.
ISSN:1100-9233
1654-1103
DOI:10.2307/3236229