A 10‐year decrease in plant species richness on a neotropical inselberg: detrimental effects of global warming?

Fonty, Émile; Sarthou, Corinne; Larpin, Denis; Ponge, Jean‐François

doi:10.1111/j.1365-2486.2009.01923.x

Cited by 30 publications

(30 citation statements)

References 87 publications

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“…It may even be thought that present-day climate warming, and accompanying increased frequency of severe El Niño events in the Southern Oscillation Zone (Malhi and Wright, 2004) cause a reversion of the successional progress. Results of a parallel study showed that the recruitment of juveniles of woody species between 1995 and 2005 was severely affected by the severe El-Niño event which occurred in 1997 (Fonty et al, 2009). In this study we observed a decrease of 24% for individuals and 22% for species over the 205 quadrats of the three transects (totalling 410 m 2 ).…”

Section: Stability Of Plant Assemblagesmentioning

confidence: 53%

“…In a previous paper, we reported a marked decrease in plant species richness and tree recruitment in a 10-yr period (1995)(1996)(1997)(1998)(1999)(2000)(2001)(2002)(2003)(2004)(2005) embracing a severe El-Niño event in 1997 (Fonty et al, 2009). In the present study, we explored the community scale and questioned the temporal change of the vegetation on the ecotone gradient over the same period.…”

Section: Introductionmentioning

confidence: 92%

“…Mean annual air temperature lies between 25 and 27 • C at the Nouragues station (Grimaldi and Riéra, 2001). Climatic measurements (synthesis in Fonty et al, 2009) indicate a marked El Niño event in 1997. This granitic whaleback dome protruding ∼300 m from the rain forest matrix (Fig.…”

Section: Study Sitementioning

confidence: 98%

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Stability of plant communities along a tropical inselberg ecotone in French Guiana (South America)

Sarthou

Larpin

Fonty³

et al. 2010

Flora - Morphology, Distribution, Functional Ecology of Plants

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International audienceWe questioned whether and how plant communities vary in space and time along an inselberg-rainforest ecotone in relation to present-day warming and whether biotic and non-biotic factors could explain the observed patterns. The study took place on a granitic inselberg in the French Guianan (South America) rainforest (Nouragues Natural Reserve: 4°5'N, 52°41'W). In a diachronic study (1995-2005) embracing a severe El-Niño event in 1997, we analysed vegetation structure and composition along three transects subsuming whole environmental and topographical variations in the transition zone from shrub vegetation at the fringe of open-rock vegetation to tall-tree rainforest. Data were analysed by PCA. Major variations in species and trait distribution were described in the low forest, with two floristic types evidenced by first PCA component and verified by cluster analysis: one with floristic composition reminiscent of open-rock vegetation but with higher and continuous canopy, the other typical of the low forest. There is no clear-cut boundary between typical open-rock and low forest vegetation. Variation in species composition of typical low forest was evidenced by second PCA component, which displayed differences according to slope and altitude. Small (~1.5 m), although significant, shifts in the spatial distribution of plant species pointed to possible slow encroachment of typical low forest vegetation in the absence of disturbance. However, the stability of species and trait distribution was remarkable within the 10-yr interval considered, despite an otherwise recorded decrease in species richness and recruitment. The boundary between typical low forest and open-rock-like vegetation coincided with the spatial limit of the mineral soil above granite. Despite demographic accidents due to severe El Niño events, plant communities at the fringe of a tropical inselberg are stable at short-time both in composition and spatial distribution. In the absence of strong disturbances such as wildfire and further erosion, soil availability for roots could be interpreted as an environmental constraint to the successional development of forest vegetation. Soil development might thus act as an ecological barrier to forest encroachment, which could only be alleviated by erosion recovery, as otherwise demonstrated

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Section: Stability Of Plant Assemblagesmentioning

confidence: 53%

Section: Introductionmentioning

confidence: 92%

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Stability of plant communities along a tropical inselberg ecotone in French Guiana (South America)

Sarthou

Larpin

Fonty³

et al. 2010

Flora - Morphology, Distribution, Functional Ecology of Plants

Self Cite

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“…In the understorey of the tall-tree rain forest, the air temperature varies from 24.9°C to 28.5°C and the air humidity varies from 84.4% to 96.7% (FF, personal data, 2008). More detailed climate data, including present-day warming trends, are available in Fonty et al (2009). Soils are acid (pH < 5) claysandy Ferralsols (FAO 2006) with a micro-aggregate texture of biological origin and a sparsely distributed litter cover (Grimaldi & Riéra 2001).…”

Section: Study Sitementioning

confidence: 99%

The impact of red howler monkey latrines on the distribution of main nutrients and on topsoil profiles in a tropical rain forest

et al. 2010

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Scarcity of organic matter and nutrients in the topsoil is a typical feature of lowland primary tropical rain forests. However, clumped defecation by vertebrate herbivore troops and further dung beetle processing may contribute to locally improve soil biological activity and plant growth.We studied the impact of clumped defecation by the red howler monkey (Alouatta seniculus), a frugivorous primate, on the vertical distribution of topsoil (0-6 cm) main nutrients and microstructures in a tropical rain forest (French Guiana). Three latrines, where monkey troops regularly defecate, were sampled, together with adjoining controls for carbon, nitrogen, phosphorus and microscopic components.The vertical distribution of C and N was affected by clumped defecation: nutrients were mostly restricted to the top 2 cm in control areas while latrines exhibited homogeneously distributed C and N, resulting in higher C and N content below 2 cm. No marked effect of defecation was registered on Olsen P. A small although significant increase in pH (0.1-0.3 pH units) and a marked increase in soil respiration (¥1.5-2.5) were registered in latrines. Soil microstructures were studied by the small-volume method. Variation according to depth, site and clumped defecation was analysed by Redundancy Analysis. The three latrines were characterized by an increase in root-penetrated mineral-organic assemblages, mainly composed of recent and old earthworm faeces. The local stimulation of plant roots, microbial and earthworm activity was prominent, together with an increase in soil fertility. Consequences for the regeneration of tropical rain forests in the Amazonian basin were discussed, in the light of existing knowledge.

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“…We need replicates on a larger scale and to investigate other natural habitat types such as riverine lowland cloud forest (obregon et al 2011), bamboo forest or palm swamp to understand the effects of natural forest dynamics and by extension of anthropogenic disturbance on species distribution. A regular increase in temperature observed over the last 50 years in French Guiana was the most probable cause of plant species richness 10-year decrease in low forest in Nouragues (Fonty et al 2009). Similar trends are predicted in several region of South America (Boulanger et al 2006) which may play direct or indirect role on dung beetle communities through changes in forest structure.…”

Section: Species Compositionmentioning

confidence: 99%

Variations in dung beetles assemblages (Coleoptera: Scarabaeidae) within two rain forest habitats in French Guiana

Feer

2013

RBT

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For both years Clench model asymptotes for species richness were greater in high forest than in low forest sites. For both years, mean per-trap species richness, abundance and biomass among high forest sites were similar and higher than in low forest sites, especially where the lowest humidity and the highest temperature were recorded. Within the two low forest sites, species richness and abundance recorded during the second year, decreased with distance to edge. Different dominant roller species characterized the pitfall samples in one site of low forest and in other sites. Small variations in microclimatic conditions correlated to canopy height and openness likely affected dung beetle assemblages but soil depth and the presence of large mammals providing dung resource may also play a significant role. Rev. Biol. Trop. 61 (2): 753-768. Epub 2013 June 01.

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A 10‐year decrease in plant species richness on a neotropical inselberg: detrimental effects of global warming?

Cited by 30 publications

References 87 publications

Stability of plant communities along a tropical inselberg ecotone in French Guiana (South America)

Stability of plant communities along a tropical inselberg ecotone in French Guiana (South America)

The impact of red howler monkey latrines on the distribution of main nutrients and on topsoil profiles in a tropical rain forest

Variations in dung beetles assemblages (Coleoptera: Scarabaeidae) within two rain forest habitats in French Guiana

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