At the end of August 2014, a visitor to the French National Plant Protection service (NPPO) in Cayenne (French Guiana) brought in mango twigs covered with a significant amount of sooty mould. From these branches, the NPPO officers took large numbers of mealybugs from the underside of the leaves (Fig. 1). The sample was sent to the Plant Health Laboratory (LSV) in Montpellier where it was identified as Rastrococcus invadens Williams. This is the first record of this species in French Guiana and in the Americas.
Ceratocystis paradoxa (Dade) C. Moreau is a polyphagous wound parasite causing black rot post-harvest disease in pineapple. This fungus is responsible for high losses of fruit destined for the fresh market and is a common problem in many countries (2). C. paradoxa is officially listed as a quarantine pathogen for French Guiana. In November 2013, the Plant Protection Service of French Guiana observed damage in crops of Ananas comosus var. perolera located in Corossony (4°19′10.8″ N, 52°10′17.1″ W) and Wayabo (5°01′02.3″ N, 52°36′18.7″ W) (eastern and middle part of the country). The three plants collected at each location showed a soft base rot of the stem and of young leaves, and developed a foul smell. Plant tissues were collected from the edge of the lesions, chopped in small pieces, and plated on malt extract agar supplemented with 100 ppm chloramphenicol. The plates were incubated at 25°C with a 12-h photoperiod. After 5 days, a fungal colony, first white and downy, then becoming black and velvety after 10 days, was transferred on potato dextrose agar (PDA) and incubated in the same conditions. After 7 days, the colonies produced phialides releasing cylindrical or doliform conidia that were unicellular, colorless to pale brown, in long chains (3.09 to 20.17 × 3.1 to 5.57 μm, n = 20) and oval, pyriform, brown chlamydospores (8.02 to 21.32 × 4.20 to 9.76 μm, n = 20), occurring in long chains or singly with a vertical slit, usually not very visible. Furthermore, the colonies emitted a fruity odor. On the basis of these morphological characteristics, the fungus was identified as the anamorph of C. paradoxa (Thielaviopsis paradoxa (De Seynes) Höhn.) (1). The species designation was confirmed by sequencing the ITS region of the rDNA followed by comparison with reference sequences available in GenBank. Fungal material was collected from PDA culture by scraping the mycelium with a sterile needle and transferring into 2-ml microtubes. Fungal total DNA was then extracted and the ITS region was amplified by PCR using the ITS1-ITS4 primer pair. Nucleotide sequence was determined and deposited in GenBank (KJ667047). BLAST analysis showed 100% identity with C. paradoxa. The pathogenicity of the fungus was confirmed by inoculating two pineapples with mycelium from the C. paradoxa isolate grown on PDA. The peel of fruits and the base of the crowns were wounded with a sterile scalpel blade, each at five locations. Mycelial plugs (avg. 4 mm diameter) were placed on the wounds. Inoculation sites were wrapped with Parafilm to prevent dehydration and to hold the mycelial plugs in position. Negative controls received five sterile PDA plugs. The samples were incubated at 25°C in a moist chamber with a 12-h photoperiod. Eight days after inoculation, negative controls remained symptomless, whereas characteristic soft, watery, and black rot lesions developed on the base of all the crowns that were inoculated with C. paradoxa. The pathogen was successfully re-isolated from symptomatic tissues, fulfilling Koch's postulate. To our knowledge, this is the first report of C. paradoxa on A. comosus in French Guiana, and quarantine measures have been enforced to prevent the spread of this pathogen that might also cause severe losses on other susceptible plant species that are important for the local market (e.g., banana, coconut, sugar cane). Pineapple has become a major crop in French Guiana, and is now subjected to a more intensive monitoring, which may explains why this disease was discovered recently. References: (1) T. R. Nag Raj and W. B. Kendrick. A Monograph of Chalara and Allied Genera. Wilfrid Laurier University Press, Waterloo, Ontario, 1975. (2) R. C. Ploetz et al., eds. Compendium of Tropical Fruit Diseases. American Phytopathological Society, St. Paul, MN, 1994.
Leaf-cutting ants (Hymenoptera: Formicidae) are one of the main pests found in the Americas and they cause global economic losses worth several billions of dollars. While pesticides have been the most widely used control method, new management alternatives in a context of agroecological transition are now being considered. This study focuses on the leaf-cutting ants species found in the pan-Amazon region. As part of efforts to improve management of these pests, this multi-criteria analysis of control strategies covers a total of 691 experiments collected from 153 studies, and the control were evaluated as a function of their management efficacy, environmental and human health impacts, and their ease of application. Chemical control methods were effective but posed a danger to human health and the environment, whereas mechanical methods and integrated management were more sustainable but not always very effective. Some of the biocontrol methods were evaluated as effective and safe for the environment and human health, including the use of entomopathogenic fungi Beauveria bassiana (Bals.-Criv) Vuill. (Hypocreales: Cordycipitaceae) and Metarhizium anisopliae (Metschn.) Sorokïn (Hypocreales: Clavicipitaceae) in the form of bait or sprayed in the nest, or the application of plant mulch in the nest using Tithonia diversifolia (Hemsley) A. Gray (Asterales: Asteraceae) or Canavalia ensiformis L. DC. (Fabales: Fabaceae). Because of variations in the efficacy data between laboratory and field tests, we are in favor of evaluating these control methods during field studies with different leaf-cutting ant species and under different environmental conditions. These methods should adopt experimental arrangements that are appropriate for local socioeconomic conditions adapted for farmers.
An updated checklist of the scale insects recorded from French Guiana (French overseas department) is given. This list has been collated from data from 6 different sources: ScaleNet, the EPPO Global Database, the Catalogue des insectes ravageurs des cultures en Guyane Française (Remillet, 1988), MNHN in Paris, LSV in Montpellier and a survey carried out by Direction de l'Alimentation, de l'Agriculture et de la Forêt de Guyane, Service de l'Alimentation (DAAF‐SALIM). Previously, 29 species were recorded from French Guiana by ScaleNet, but the updated list presented in this paper includes a total of 64 species. The 35 species added belong to 7 families: 1 Cerococcidae, 9 Coccidae, 14 Diaspididae, 1 Eriococcidae, 1 Monophlebidae, 2 Ortheziidae and 7 Pseudococcidae.
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