Corinne Sarthou

Genetic structure of the saxicole Pitcairnia geyskesii (Bromeliaceae) on inselbergs in French Guiana

South American inselbergs constitute singular and fragmented habitats in the tropical rain forest. Pitcairnia geyskesii is restricted to these habitats and exhibits both sexual and asexual reproduction. The genetic structure of populations on three inselbergs in French Guiana is examined by analysis of ten isozyme loci. All analyzed populations show high levels of genetic variation. On average, 63.3% of loci per population were polymorphic, with a mean number of 2.21 alleles per polymorphic locus, and mean observed and expected heterozygosities of 0.185 and 0.183, respectively. The analyses of genetic variability displayed at different levels (inselbergs, subpopulations, and mats) give different but complementary information. A significant multilocus disequilibrium was detected in one subpopulation, whereas none was observed within the whole populations sampled on the three inselbergs. Tests on spatial genetic structure indicate a patchy distribution of genotypes on two inselbergs. The data give some insights on the reproductive behavior of P. geyskesii. (1) Efficient sexual reproduction leads to seed recruitment at the level of the inselberg. (2) Both clonality and seed recruitment occur within mats. (3) Vegetative spread by fragmentation is involved in the establishment of new mats. There is substantial differentiation (F(ST) = 0.322) and low gene flow among inselbergs (Nm = 0.234). High genetic diversity within inselbergs appears as a consequence of the association of genet longevity induced by clonal replication and recruitment of new genets produced by sexual reproduction.

Epilithic plant communities on inselbergs in French Guiana

. Tropical inselbergs are isolated elevations with a special type of vegetation and surrounded by rain forest. The paper describes, using the field methods of Braun-Blanquet, combined with numerical analysis (clustering, Correspondence Analysis), plant communities on French Guianan inselbergs. Six new associations are described: Portulacetum sedifolii, Furcraeetum foetidae, Ananasetum annassoidis, Stylosanthetum guianensis, Axonopetum ramosi and (endemic to the Guianan inselbergs) Pepinietum geyskesii – with three subassociations. The six vegetation units reflect different combinations of environmental factors such as local relief, insolation, water availability and soil depth. All syntaxa show a low species diversity. Species of Cyperaceae, Poaceae, Lentibulariaceae and Bromeliaceae are predominant, whereas families typical of other South American inselbergs (Velloziaceae and Cactaceae), are missing or scarce. Similarities between vegetation units of South American and African inselbergs are emphasized.

Forest perturbations and biodiversity during the last ten thousand years in French Guiana

Tropical forests can be described as a mosaic of juxtaposed eco-units corresponding to different stages of regeneration after treefals. However, these small-scale regeneration mechanisms alone cannot account for the different patterns of species distribution, plant communities and population structures found in this habitat. The presence of charcoal layers in the soil and the study of sediments along streams suggest that large-scale forest fires deeply affected the tropical forest vegetation, even in high rainfall areas such as French Guiana. Many atypical plant distribution and population structure patterns, in relation to what would be expected from present-time regeneration processes, can be explained by these large-scale events which happened during the last few thousand years.

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

Tropical inselbergs are isolated rock outcrops with a special type of vegetation surrounded by rain forest. They are exposed to a 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 the study of soil arthropod communities and their food habits in three habitat types: Pitcairnia geyskesi (Bromeliaceae), Clusia minor (Clusiaceae) and Myrcia saxatilis (Myrtaceae), which 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 the Pitcairnia stage, and were replaced by plant material at the 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 the Myrcia stage arthropod density was significantly higher than at the two other stages. Macroinvertebrates are present only at late and intermediate successional stages. The number of macropredators 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 arthropods increased throughout the plant succession and show the importance of organic matter as a factor which can explain the observed phenomenon.

Effects of pruning on carbohydrate distribution in the trunk of sweet cherry (Prunus avium L.)

Abstract During the annual carbohydrate cycle, starch and soluble sugar concentrations were quite similar in the lower and upper parts of the trunk of sweet cherry. The seasonal variations were characterized by a maximum carbohydrate content between summer and mid-November and at the end of winter. Bloom and fruit development were distinguished by carbohydrate depletion. The effects of the removal of low branches on the level of the carbohydrates were related to the time of pruning. After summer pruning, the middle and upper parts of the trunk contained the highest concentrations of starch and soluble sugars. The following year, starch had completely disappeared in the upper and lower parts of the trunk. The autumn pruning induced an increase in starch and soluble sugar levels in the upper part. The winter pruning mainly induced a rapid accumulation of soluble sugars in the upper part only.

Palaeoclimates and Their Consequences on Forest Composition

The analysis of most plant populations in natural forests clearly retraces the mechanisms of sylvigenesis, based on the occurrence of small-scale incidents — in particular treefall gaps — more or less regularly distributed in time and space (van der Meer et al. chapter 24). However, a number of ‘anomalies’ detected in the population structure or in the distribution of some species cannot be adequately explained by the internal dynamic processes which occur on the century time scale. Plants react at different speeds to perturbations, and major events, even very ancient ones such as the perturbations recorded in the sediments, have probably also left a durable mark in the present organisation of the vegetation. We can therefore hypothesise that relatively ancient events, which would have occurred on a much larger scale than treefall gaps, would have caused large modifications of the forest ecosystems and left long-lasting tell-tale signs.

The evolution of afro-montane Delphinium (Ranunculaceae): Morphospecies, phylogenetics and biogeography

The genus Delphinium (Ranunculaceae) consists of ca. 300 species and has a mainly holarctic distribution. Few species hove been described from high-altitude areas in West and East Tropical Africa, where the environmental conditions are mostly temperate-like. We aim to clarify the taxonomy of these afro-montane Delphinium species and to understand their evolutionary history in terms of their floral morphology and their phylogenetic and biogeographic relationships. Based on herbarium specimens, we analyze flower shape variation, map the geographic distribution of the morphologically defined taxa and reconstruct the molecular phylogeny of the group. Our quantitative analyses of flower shapes indicate that three species can be defined based on floral morphological traits, hence confirming the latest taxonomic treatment of the group where D. dasycaulon, D. leroyi and D. macrocentrum were described. The examination of herbarium specimens indicates that these three species are almost parapatric. However, their respective monophyly is not supported by molecular data. Considering their relatively young age, the non-monophyly of each of the three morphospecies could be due to incomplete lineage sorting and/or hybridization events. Alternatively, the transition to the D. leroyi floral morph could be the result of evolutionary convergence in the two main groups of afro-montane Delphinium driven by similar pollinators in different sky islands of the East African Rift System. We hypothesize that the main branches of the East African Rift System, as physical barriers to dispersal, may have prevented genetic exchange among geographic clusters.

Effets de la sécheresse sur les réserves et l'activité cambiale de l'Ailanthus glandulosa Desf. (Simarubacées)

Summary In 1-year-old Ailanthus seedlings, drought stress first induces hydrolisis of carbohydrates stored which are mainly accumulated in the taproot. After the outset of wilting (8–10 days after watering cessation), this phenomena is connected with an increase of soluble sugars in the root system and stem. During this period, proteins are less affected even increase significantly in the stem after leaf-fall. When the abscission of the terminal bud occurs (at the end of the experience), one note an important decrease in carbohydrate, lipid and protein contents of the tap—root and stem. On the contrary, the lateral roots are characterized by high soluble sugar level, starch synthesis, stability of proteins and lipid accumulation. In the nonstressed seedlings, the composition of the soluble sugar fraction of the different perennial parts is marked by the dominance of sucrose. During the stress treatment, fructose becomes the most important sugar in the stem and tap-root. In the lateral roots, the fructose ...

Phylogeny, biogeography and character evolution in the tribe Desmodieae (Fabaceae: Papilionoideae), with special emphasis on the New Caledonian endemic genera

The nearly cosmopolitan tribe Desmodieae (Fabaceae) includes many important genera for medicine and forage. However, the phylogenetic relationships among the infratribal groups circumscribed using morphological traits are still poorly known. In this study, we used chloroplast (rbcL, psbA-trnH) and nuclear (ITS-1) DNA sequences to investigate the molecular phylogeny and historical biogeography of Desmodieae, and infer ancestral states for several vegetative and reproductive traits. Three groups, corresponding to the Desmodium, Lespedeza, and Phyllodium groups sensu Ohashi were retrieved in the phylogenetic analyses. Conflicts in the topologies inferred from the chloroplast and nuclear datasets were detected. For instance, the Lespedeza clade was sister to the groups Phyllodium+Desmodium based on chloroplast DNA, but nested within the Desmodium group based on ITS-1. Moreover, the New Caledonian endemic genera Arthroclianthus and Nephrodesmus were not monophyletic but together formed a clade, which also included Hanslia and Ohwia based on chloroplast DNA. The hypothetical common ancestor of Desmodieae was dated to the Middle Oligocene (ca. 28.3Ma) and was likely an Asian shrub or tree producing indehiscent loments. Several colonization events towards Oceania, America, and Africa occurred (all less than ca. 17.5Ma), most probably through long distance dispersal. The fruits of Desmodieae repeatedly evolved from indehiscence to dehiscence. We also showed that indehiscent loments allow for more variability in the number of seeds per fruit than indehiscent legumes. Modularity seems here to allow variability in the number of ovules produced in a single ovary.