Anne Vaçulik scite author profile

A number of plant communities have been described on tropical inselbergs, known as hot spots of plant and animal biodiversity. However, few studies tried to question what drives seral processes in these harsh environments, submitted to natural hazards (violent storms, intense runoff and lightning strikes) which may destroy the vegetation cover and its accumulated organic matter. We analysed quantitative data from the granitic Nouragues inselberg (French Guiana) in order to discern how successional processes featured their variety. We showed that the transition from herbaceous carpets (bromeliaceous mats and grassy meadows) to woody vegetation (shrub thickets) was not conditioned by slope, but was truly successional. We also showed that there was a cycle of change in shrub thickets, reinitiated by the destruction of scrub vegetation by fire (lightnings), wood-destroying fungi and termites.

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Soil invertebrate activity in biological crusts on tropical inselbergs

Vaçulik

Kounda-Kiki

Sarthou

et al. 2004

European J Soil Science

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International audienceGranite inselbergs protrude from forest and savanna in the tropics. They are exposed to harsh climates (alternation of heavy rain and severe drought) and provide little nutrient for plants. Soil animals and humus components were investigated in cyanobacterial crusts close to patches of epilithic vegetation on the surface of the Nouragues inselberg (French Guiana). Three biological crust samples, corresponding to bromeliacean carpets of increasing size (supposed of increasing age), were sampled for faunal and micromorphological studies. Arthropods (mainly mites and insects) were abundant and highly diversified, the more so after enchytraeid worms ate and transformed the cyanobacterial mass. Below the superficial cyanobacterial crust, humus was made of a loose assemblage of enchytraeid faeces where these animals were present, or of a compact assemblage of cyanobacteria and amorphous organic matter where mites were the dominant animal group. Roots abounded in the humified part of the crust. We conclude that soil invertebrates, in particular enchytraeid worms, are important for the accumulation of organic matter on granite outcrops, and so therefore for the encroachment of plant succession

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Humus profiles under main vegetation types in a rock savanna (Nouragues inselberg, French Guiana)

et al. 2006

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International audienceThe aim of our study was to describe succession related changes in humus profiles on moderate slopes of a tropical inselberg (Nouragues, French Guiana). Nine humus profiles were collected in a stratified manner under two main communities on well-drained sites: carpets of Pitcairnia geyskesii (Bromeliaceae) and shrub thickets of Clusia minor (Clusiaceae), the latter including two stages of its dynamic development. The 53 sampled layers were analysed by an optical method, the volume ratio of 109 classes of litter/humus components being quantified by a count point method. Correspondence analysis (CA) revealed marked differences among humus forms. Pitcairnia carpets were characterized by the dominance of cyanobacteria which formed crusts with low faunal activity, except when they were colonized by enchytraeid worms. With advancing succession, we observed that leaf litter did not accumulate but rather was incorporated into organo-mineral excrements of macro-invertebrates under C minor. The late developmental stage of Clusia thickets, characterised by the establishment of Myrcia saxatilis (Myrtaceae), showed a thick layer of undecayed litter and near absence of organo-mineral aggregates. The humus form varied from mor in cyano-bacterial crusts to tropical moder (with a few mull features) in Clusia thickets, but comparisons among humus profiles revealed more complex successional processes than expected on the basis of the composition of plant and soil animal communities

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Soil arthropods in a developmental succession on the Nouragues inselberg (French Guiana)

Kounda-Kiki

Vaçulik²,

Ponge

et al. 2004

Biology and Fertility of Soils

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Tropical inselbergs are isolated rock outcrops with a special type of vegetation surrounded by rain forest. They are exposed to harsh climate (alternation of heavy rain and severe drought) and provide few nutrients for plant growth. The aim of our study was to investigate a possible correlation between primary plant succession, size and diversity of soil arthropods. The study site was the Nouragues inselberg, in French Guiana (South America). Nine soil samples (three samples in each vegetation type) were taken for study of soil arthropod communities and their food habits in three habitat types: Pitcairnia geyskesii (Bromeliaceae), Clusia minor (Clusiaceae) and Myrcia saxatilis (Myrtaceae) represent three stages in a primary plant succession on this inselberg. Soil arthropods were classified into morphospecies under the dissecting microscope and their food habits were characterized by examining their gut contents under the light microscope. A variation in food habits was observed, cyanobacteria being found in arthropod guts only during Pitcairnia stage, being replaced by plant material at Myrcia stage. Carnivory was prominent in oribatid mites, contrary to temperate records. All our samples contained large numbers of microarthropods, principally mites and collembolans. At Myrcia stage arthropod density was significantly higher than at the two other stages. Macro-invertebrates are present only at late and intermediate successional stages. The number 2 of macro-predators increased by a factor of 10 in species richness and 100 in abundance along the succession. These results suggest that abundance and diversity of soil arthropod increased throughout plant succession and show the importance of organic matter as an explanation for the observed phenomenon.

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Anne Vaçulik

Successional patterns on tropical inselbergs: A case study on the Nouragues inselberg (French Guiana)

Soil invertebrate activity in biological crusts on tropical inselbergs

Humus profiles under main vegetation types in a rock savanna (Nouragues inselberg, French Guiana)

Soil arthropods in a developmental succession on the Nouragues inselberg (French Guiana)

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