106 research outputs found
The Cuba-Florida plant-pest pathway
Recent shifts in US policies towards Cuba suggest a relaxation or lifting of the embargo may occur in the
near future. With the prospects of open travel and trade with Cuba come concerns over the introduction of agricultural
pests. In an effort to assess these concerns the distribution-based introduction risk of pests listed in the 2015 Cooperative
Agricultural Pest Survey’s (CAPS) list of priority pests of economic and environmental importance is reviewed. Of
the 59 pests on the CAPS priority pest list, 20 have been recorded in the literature as being present in the Caribbean
Basin, South America and Central America. For these 20 New World pests a commodity and distribution-based risk
rating was assigned to describe their potential for introduction through the Cuba-Florida pest pathway. The highest
rating was given to the six listed pests currently reported as being present in Cuba, and potential for introduction and
subsequent impact of these six pests on Florida agriculture is discussed. In addition to the pests found on the 2015
CAPS priority pest list, information regarding pests of concern in the family Tephritidae and the Old World bollworm
Helicoverpa armigera (Hübner), is also included, as is a description of the Cuban plant health and regulatory structure.
The significance of plant-pest introductions between Cuba and Florida is discussed, with an emphasis on proactive
engagement in research and collaboration to address these issues.
Las nuevas polÃticas de los Estados Unidos hacia Cuba sugieren la posibilidad de que el embargo será
suavizado o levantado en un futuro próximo. Asociada a la posible apertura del comercio con Cuba está la preocupación
por la introducción de nuevas plagas agrÃcolas. En un esfuerzo por atender dicha preocupación, y tomando como base
su distribución geográfica, este trabajo analiza las plagas comprendidas en la lista del 2015, elaborada por el Programa
de Monitoreo de Plagas AgrÃcolas (CAPS Cooperative Agricultural Pest Survey), la cual incluye aquellas que han sido
consideradas prioritarias por la importancia económica y ambiental que supone su riesgo. La literatura reporta que 20
de las 59 plagas listadas están presentes en el Caribe, Centro y Sudamérica. A cada una de estas veinte plagas del
Nuevo Mundo le fue asignada una categorÃa de riesgo que describe la posibilidad de introducción por la vÃa Cuba-
Florida. La categorÃa de riesgo más alta fue atribuida a seis especies que han sido registradas en Cuba. Los autores
discuten el potencial de introducción y los posibles efectos que éstas pueden causar en la agricultura de Florida.
Además de las plagas clasificadas en la lista CAPS 2015, el artÃculo incluye información acerca de las que corresponden
a la familia Tephritidae, asà como del gusano cogollero Helicoverpa armigera (Hübner). A la vez, analizan el sistema de
sanidad vegetal y la estructura regulatoria en Cuba. El artÃculo finaliza con una discusión sobre la importancia de los
riesgos de introducción de plagas entre Cuba y Florida, haciendo énfasis en la necesidad de contar con un enfoque
proactivo de investigación y colaboración entre ambos paÃses para atender este problema
The Cuba-Florida plant-pest pathway
Recent shifts in US policies towards Cuba suggest a relaxation or lifting of the embargo may occur in the
near future. With the prospects of open travel and trade with Cuba come concerns over the introduction of agricultural
pests. In an effort to assess these concerns the distribution-based introduction risk of pests listed in the 2015 Cooperative
Agricultural Pest Survey’s (CAPS) list of priority pests of economic and environmental importance is reviewed. Of
the 59 pests on the CAPS priority pest list, 20 have been recorded in the literature as being present in the Caribbean
Basin, South America and Central America. For these 20 New World pests a commodity and distribution-based risk
rating was assigned to describe their potential for introduction through the Cuba-Florida pest pathway. The highest
rating was given to the six listed pests currently reported as being present in Cuba, and potential for introduction and
subsequent impact of these six pests on Florida agriculture is discussed. In addition to the pests found on the 2015
CAPS priority pest list, information regarding pests of concern in the family Tephritidae and the Old World bollworm
Helicoverpa armigera (Hübner), is also included, as is a description of the Cuban plant health and regulatory structure.
The significance of plant-pest introductions between Cuba and Florida is discussed, with an emphasis on proactive
engagement in research and collaboration to address these issues.
Las nuevas polÃticas de los Estados Unidos hacia Cuba sugieren la posibilidad de que el embargo será
suavizado o levantado en un futuro próximo. Asociada a la posible apertura del comercio con Cuba está la preocupación
por la introducción de nuevas plagas agrÃcolas. En un esfuerzo por atender dicha preocupación, y tomando como base
su distribución geográfica, este trabajo analiza las plagas comprendidas en la lista del 2015, elaborada por el Programa
de Monitoreo de Plagas AgrÃcolas (CAPS Cooperative Agricultural Pest Survey), la cual incluye aquellas que han sido
consideradas prioritarias por la importancia económica y ambiental que supone su riesgo. La literatura reporta que 20
de las 59 plagas listadas están presentes en el Caribe, Centro y Sudamérica. A cada una de estas veinte plagas del
Nuevo Mundo le fue asignada una categorÃa de riesgo que describe la posibilidad de introducción por la vÃa Cuba-
Florida. La categorÃa de riesgo más alta fue atribuida a seis especies que han sido registradas en Cuba. Los autores
discuten el potencial de introducción y los posibles efectos que éstas pueden causar en la agricultura de Florida.
Además de las plagas clasificadas en la lista CAPS 2015, el artÃculo incluye información acerca de las que corresponden
a la familia Tephritidae, asà como del gusano cogollero Helicoverpa armigera (Hübner). A la vez, analizan el sistema de
sanidad vegetal y la estructura regulatoria en Cuba. El artÃculo finaliza con una discusión sobre la importancia de los
riesgos de introducción de plagas entre Cuba y Florida, haciendo énfasis en la necesidad de contar con un enfoque
proactivo de investigación y colaboración entre ambos paÃses para atender este problema
Forest Health Diagnostics Facebook Page: Impact and Natural Resources Programming Implications
The Southern Forest and Tree Health Diagnostics Facebook page, managed by Extension and forestry professionals in the southeastern United States, is designed to deliver forest and tree heath information to the public via a web-based, crowdsourced diagnostic service. We conducted an online survey to quantify the page\u27s impact by identifying audience demographics, engagement levels, and perceptions of the page\u27s value. Results indicated that stakeholders consider the Southern Forest and Tree Health Diagnostics page to be an effective diagnostics service and a valuable educational tool. This model could be used in other natural resources program areas to increase the reach of Extension professionals
Structure of the Ambrosia Beetle (Coleoptera: Curculionidae) Mycangia Revealed Through Micro-Computed Tomography
Ambrosia beetles (Coleoptera: Curculionidae: Scolytinae and Platypodinae) rely on a symbiosis with fungi for their nutrition. Symbiotic fungi are preserved and transported in specialized storage structures called mycangia. Although pivotal in the symbiosis, mycangia have been notoriously difficult to study, given their minute size and membranous structure. We compared the application of novel visualization methods for the study of mycangia, namely micro-computed tomography (micro-CT) and laser ablation tomography (LATscan) with traditional paraffin sectioning. Micro-CT scanning has shown the greatest promise in new organ discovery, while sectioning remains the only method with sufficient resolution for cellular visualization. All three common types of mycangia (oral, mesonotal, and pronotal) were successfully visualized and presented for different species of ambrosia beetles: Ambrosiodmus minor (Stebbing) 1909, Euplatypus compositus (Say) 1823, Premnobius cavipennis Eichhoff 1878, Scolytoplatypus raja Blandford 1893, Xylosandrus crassiusculus (Motschulsky) 1866 and X. amputatus (Blandford) 1894. A reconstruction of the mycangium and the surrounding musculature in X. amputatus is also presented. The advantages of micro-CT compared to the previously commonly used microtome sectioning include the easy visualization and recording of three-dimensional structures, their position in reference to other internal structures, the ability to distinguish natural aberrations from technical artifacts, and the unprecedented visualizations of the anatomic context of mycangia enabled by the integrated software
Four new species of Harringtonia: unravelling the laurel wilt fungal genus
Symbiosis between beetles and fungi arose multiple times during the evolution of both organisms. Some of the most biologically diverse and economically important are mutualisms in which the beetles cultivate and feed on fungi. Among these are bark beetles and Harringtonia, a fungal genus that produces Raffaelea-like asexual morph and hosts the causal agent of laurel wilt, H. lauricola (formerly Raffaelea lauricola). In this study, we propose four new species of Harringtonia associated with beetles from Belize and Florida (USA). We hope to contribute towards a more robust and inclusive phylogenetic framework for future studies on these beetle-fungi relationships and their potential impact in crops and forests worldwide.DATA AVAILABITY STATEMENT : Genetic data were deposited in GenBank and can be accessed using the numbers provided in Table 1. Any further request relating to the data please contact J.P.M.A.The National Science Foundation, the USDA APHIS, the Jones Center at Ichauway, and the USDA Forest Service.http://www.mdpi.com/journal/jofBiochemistryForestry and Agricultural Biotechnology Institute (FABI)GeneticsMicrobiology and Plant Patholog
The Essential Role of Taxonomic Expertise in the Creation of DNA Databases for the Identification and Delimitation of Southeast Asian Ambrosia Beetle Species (Curculionidae: Scolytinae: Xyleborini)
DNA holds great potential for species identification and efforts to create a DNA database of all animals and plants currently contains >7.5 million sequences representing ~300,000 species. This promise of a universally applicable identification tool suggests that morphologically based tools and taxonomists will soon not have utility. Here we demonstrate that DNA-based identification is not reliable without the contributions of taxonomic experts. We use ambrosia beetles (Xyleborini), which are known for great diversity as well as global invasions and damage, as a test case. Recent xyleborine introductions have caused major economic and ecological losses, thus timely species identifications of new invaders are necessary. This need is hampered by a paucity of identification tools and a fauna that is only moderately documented. To help alleviate deficiencies in their identification, we created COI and CAD DNA barcode databases (490 and 429 specimens), representing over half of the known fauna of Southeast Asia (165/316 species). Taxonomic experts identified species based on original descriptions and type specimens. Tree, distance, and iterative methods were used to assess the identification and delimitation of species. High intra- and interspecific COI distances were observed for congeneric species and attributed to the beetle's inbreeding system. Neither of the two markers provided 100% identification success but with the neighbor-joining tree-based method, 80% of species were identified by both genes. As for species delimitation, an obvious barcode gap between intra- and interspecific differences was not observed. Correspondence between distance-based groups and morphology-based species was poor. In a demonstration of iterative taxonomy, we constructed parsimony-based phylogenies using COI and CAD sequences for two genera. Although not all clades were resolved or supported, we provided better explanations for species boundaries in light of morphological and DNA sequence differences. Confident species identifications demonstrated 10–12% COI and/or >2–3% CAD. Involvement of taxonomic experts from the start of this project was essential for the creation of a stable foundation for the DNA identification of xyleborine species. In general, their role in DNA barcoding cannot be underestimated and is further discussed.publishedVersio
Geosmithia associated with bark beetles and woodborers in the western USA : taxonomic diversity and vector specificity
Fungi in the genus Geosmithia (Ascomycota: Hypocreales) are frequent associates of bark beetles and woodborers that colonize hardwood and coniferous trees. One species, Geosmithia morbida, is an economically damaging invasive species. The authors surveyed the Geosmithia species of California and Colorado, USA, to (i) provide baseline data on taxonomy of Geosmithia and beetle vector specificity across the western USA; (ii) investigate the subcortical beetle fauna for alternative vectors of the invasive G. morbida; and (iii) interpret the community composition of this region within the emerging global biogeography of Geosmithia. Geosmithia was detected in 87% of 126 beetle samples obtained from 39 plant species. Twenty-nine species of Geosmithia were distinguished, of which 13 may be new species. Bark beetles from hardwoods, Cupressus, and Sequoia appear to be regular vectors, with Geosmithia present in all beetle gallery systems examined. Other subcortical insects appear to vector Geosmithia at lower frequencies. Overall, most Geosmithia have a distinct level of vector specificity (mostly high, sometimes low) enabling their separation to generalists and specialists. Plant pathogenic Geosmithia morbida was not found in association with any other beetle besides Pityophthorus juglandis. However, four additional Geosmithia species were found in P. juglandis galleries. When integrated with recent data from other continents, a global pattern of Geosmithia distribution across continents, latitudes, and vectors is emerging: of the 29 Geosmithia species found in the western USA, 12 have not been reported outside of the USA. The most frequently encountered species with the widest global distribution also had the broadest range of beetle vectors. Several Geosmithia spp. with very narrow vector ranges in Europe exhibited the similar degree of specialization in the USA. Such strong canalization in association could reflect an ancient origin of each individual association, or a recent origin and a subsequent diversification in North America.Czech Grant Agency (grant no. 16-15293Y), Long-Term Research Development Project (grant number RVO 67985939), Ministry of Education, Youth and Sports of the Czech Republic (grant number LO1509), USDA NIFA Western Region IPM Center and Critical Issues—Emerging and New Plant and Animal Pests and Diseases grant programs, USDA Forest Service Forest Health Monitoring Program (Detection Monitoring Grant No. INT-DM-09-01 and Evaluation Monitoring Grant No. INT-EM-B-11-03), USDA Forest Service Special Technology Development Grant R4-2011-01 (administered by A. S. Munson).http://www.tandfonline.com/toc/umyc202018-04-24hj2017Forestry and Agricultural Biotechnology Institute (FABI)Microbiology and Plant Patholog
Diversity and evolution of entomocorticium (Russulales, peniophoraceae), a genus of bark beetle mutualists derived from free-living, wood rotting peniophora
Symbiosis between insects and fungi arose multiple times during the evolution of both groups, and some of the most biologically diverse and economically important are mutualisms in which the insects cultivate and feed on fungi. Among these are bark beetles, whose ascomycetous cultivars are better known and studied than their frequently-overlooked and poorly understood basidiomycetous partners. In this study, we propose five new species of Entomocorticium, fungal mutualists in the Russulales (Basidiomycota) that are mutualistic symbionts of scolytine beetles. We have isolated these fungi from the beetle mycangia, which are structures adapted for the selective storage and transportation of fungal mutualists. Herein, we present the most complete phylogeny of the closely related genera Entomocorticium and Peniophora and provide insights into how an insect-associated taxon (Entomocorticium) evolved from within a wood-decaying, wind-dispersed lineage (Peniophora). Our results indicate that following a transition from angiosperms to gymnosperms, fungal domestication by beetles facilitated the evolution and diversification of Entomocorticium. We additionally propose four new species: Entomocorticium fibulatum Araújo, Li & Hulcr, sp. nov.; E. belizense Araújo, Li & Hulcr, sp. nov.; E. perryae Araújo, Li & Hulcr, sp. nov.; and E. macrovesiculatum Araújo, Li, Six & Hulcr, sp. nov. Our findings highlight the fact that insect-fungi associations remain an understudied field and that these associations harbor a large reservoir of novel fungal species.Fil: Araújo, João P. M.. University of Florida; Estados Unidos. New York Botanical Garden; Estados UnidosFil: Li, You. University of Florida; Estados UnidosFil: Six, Diana. University of Montana; Estados UnidosFil: Rajchenberg, Mario. Consejo Nacional de Investigaciones CientÃficas y Técnicas; Argentina. Centro de Investigación y Extensión Forestal Andino Patagónico; ArgentinaFil: Smith, Matthew E.. University of Florida; Estados UnidosFil: Johnson, Andrew J.. University of Florida; Estados UnidosFil: Klepzig, Kier D.. University of Georgia; Estados UnidosFil: Crous, Pedro W.. Westerdijk Fungal Biodiversity Institute; PaÃses BajosFil: Leal Dutra, Caio A.. Universidad de Copenhagen; DinamarcaFil: Skelton, James. The College of William and Mary; Estados UnidosFil: Adams, Sawyer N.. University of Florida; Estados UnidosFil: Hulcr, Jiri. University of Florida; Estados Unido
Diversity and evolution of entomocorticium (Russulales, peniophoraceae), a genus of bark beetle mutualists derived from free-living, wood rotting peniophora
Symbiosis between insects and fungi arose multiple times during the evolution of both groups, and some of the most biologically diverse and economically important are mutualisms in which the insects cultivate and feed on fungi. Among these are bark beetles, whose ascomycetous cultivars are better known and studied than their frequently-overlooked and poorly understood basidiomycetous partners. In this study, we propose five new species of Entomocorticium, fungal mutualists in the Russulales (Basidiomycota) that are mutualistic symbionts of scolytine beetles. We have isolated these fungi from the beetle mycangia, which are structures adapted for the selective storage and transportation of fungal mutualists. Herein, we present the most complete phylogeny of the closely related genera Entomocorticium and Peniophora and provide insights into how an insect-associated taxon (Entomocorticium) evolved from within a wood-decaying, wind-dispersed lineage (Peniophora). Our results indicate that following a transition from angiosperms to gymnosperms, fungal domestication by beetles facilitated the evolution and diversification of Entomocorticium. We additionally propose four new species: Entomocorticium fibulatum Araújo, Li & Hulcr, sp. nov.; E. belizense Araújo, Li & Hulcr, sp. nov.; E. perryae Araújo, Li & Hulcr, sp. nov.; and E. macrovesiculatum Araújo, Li, Six & Hulcr, sp. nov. Our findings highlight the fact that insect-fungi associations remain an understudied field and that these associations harbor a large reservoir of novel fungal species.Fil: Araújo, João P. M.. University of Florida; Estados Unidos. New York Botanical Garden; Estados UnidosFil: Li, You. University of Florida; Estados UnidosFil: Six, Diana. University of Montana; Estados UnidosFil: Rajchenberg, Mario. Consejo Nacional de Investigaciones CientÃficas y Técnicas; Argentina. Centro de Investigación y Extensión Forestal Andino Patagónico; ArgentinaFil: Smith, Matthew E.. University of Florida; Estados UnidosFil: Johnson, Andrew J.. University of Florida; Estados UnidosFil: Klepzig, Kier D.. University of Georgia; Estados UnidosFil: Crous, Pedro W.. Westerdijk Fungal Biodiversity Institute; PaÃses BajosFil: Leal Dutra, Caio A.. Universidad de Copenhagen; DinamarcaFil: Skelton, James. The College of William and Mary; Estados UnidosFil: Adams, Sawyer N.. University of Florida; Estados UnidosFil: Hulcr, Jiri. University of Florida; Estados Unido
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