Your search keyword '"Halbert SE"' showing total 29 results

1. Global climate suitability of citrus huanglongbing and its vector, the Asian citrus psyllid, using two correlative species distribution modeling approaches, with emphasis on the USA

Author

Narouei-Khandan, H, Halbert, SE, Worner, SP, and van Bruggen, AHC

Published

2016

2. Invasion and spread of the neotropical leafhopper Curtara insularis (Hemiptera: Cicadellidae) in Africa and North America and the role of high-altitude windborne migration in invasive insects.

Author

Nartey R, Chamorro L, Buffington M, Afrane YA, Mohammed AR, Owusu-Asenso CM, Akosah-Brempong G, Pambit Zong CM, Hendrix SV, Dao A, Yaro AS, Diallo M, Sanogo ZL, Djibril S, Halbert SE, Bamou R, Nance CE, Bartlett CR, Reynolds DR, Chapman JW, Obiri-Danso K, and Lehmann T

Abstract

Invasive insects threaten ecosystem stability, public health, and food security. Documenting newly invasive species and understanding how they reach into new territories, establish populations, and interact with other species remain vitally important. Here, we report on the invasion of the South American leafhopper, Curtara insularis into Africa, where it has established populations in Ghana, encroaching inland at least 350 km off the coast. Importantly, 80% of the specimens collected were intercepted between 160 and 190 m above ground. Further, the fraction of this species among all insects collected was also higher at altitude, demonstrating its propensity to engage in high-altitude windborne dispersal. Its aerial densities at altitude translate into millions of migrants/km over a year, representing massive propagule pressure. Given the predominant south-westerly winds, these sightings suggest an introduction of C. insularis into at least one of the Gulf of Guinea ports. To assess the contribution of windborne dispersal to its spread in a new territory, we examine records of C. insularis range-expansion in the USA. Reported first in 2004 from central Florida, it reached north Florida (Panhandle) by 2008-2011 and subsequently spread across the southeastern and south-central US. Its expansion fits a "diffusion-like" process with 200-300 km long "annual displacement steps"-a pattern consistent with autonomous dispersal rather than vehicular transport. Most "steps" are consistent with common wind trajectories from the nearest documented population, assuming 2-8 hours of wind-assisted flight at altitude. Curtara insularis has been intercepted at US ports and on trucks. Thus, it uses multiple dispersal modalities, yet its rapid overland spread is better explained by its massive propagule pressure linked with its high-altitude windborne dispersal. We propose that high-altitude windborne dispersal is common yet under-appreciated in invasive insect species.

Published

2024

3. Seasonal activity of Trechnites insidiosus (Hymenoptera: Encyrtidae) and its host Cacopsylla pyricola (Hemiptera: Psyllidae) in pear.

Author

Zilnik G, Cooper WR, Horton DR, Orpet R, Nottingham L, Hilton R, Adams C, Dickens KL, Halbert SE, Snyder J, and Schmidt-Jeffris R

Subjects

Animals, Seasons, Insecta, Hemiptera genetics, Hymenoptera, Pyrus

Abstract

Cacopsylla pyricola (Förster) (Hemiptera: Psyllidae) is the most expensive and challenging insect pest of commercial pear trees in the Pacific Northwest. Integrated pest management (IPM) programs are working toward relying more heavily on natural enemies to reduce insecticide use. Trechnites insidiosus (Crawford) (Hymenoptera: Encyrtidae) is the main parasitoid of C. pyricola, but little is known about its biology in the region. Developing sampling tools is important for the deployment of IPM programs, including monitoring of natural enemies. In this study, we examined 2 conventional monitoring methods: beat trays and yellow sticky cards, in addition to screened sticky cards and 3D-printed cylinder traps. Additionally, we tested an overwintering trap for the collection of parasitized C. pyricola. The trapping methods were tested in orchards in Oregon and Washington. Unscreened cards caught the most T. insidiosus and C. pyricola, followed by screened cards, cylinder traps, and then beat trays. Beat trays sometimes failed to catch any T. insidiosus, even when it was found in abundance via other methods. Screened cards and cylinder traps reduced bycatch and increased ease of identifying T. insidiosus. Specimens from the cylinder traps were also more suitable for use in molecular analysis. The overwintering traps were effective at capturing parasitized C. pyricola, but were highly variable year to year. The ideal trapping method will vary based on research needs (e.g., DNA preservation, reducing bycatch, catching higher numbers), but both screened sticky cards and cylinder traps were viable methods for monitoring T. insidiosus and its host., (Published by Oxford University Press on behalf of Entomological Society of America 2023.)

Published

2023

4. Balclutha jafara (Hemiptera: Cicadellidae): integrative identification of a species introduced in the Western Hemisphere, and notes on other Balclutha.

Author

Zahniser JN, Halbert SE, Moore MR, Mottern JL, and Beuzelin JM

Subjects

Animals, Phylogeny, Hemiptera, Oryza, Magnoliopsida

Abstract

Leafhopper specimens of the genus Balclutha Kirkaldy, found in southern Florida (Palm Beach and Collier Counties), United States, beginning in 2020, and in shipments of plant products originating from Colombia and entering the United States beginning in 2019, are identified as B. jafara Webb. This species was previously known only from the Seychelles and Aldabra Islands, which are parts of the Seychelles archipelago in the Indian Ocean east of mainland Africa. Identifications were made by comparison with type specimens, both morphologically and through molecular analysis. Specimens in Palm Beach Co. were swept from commercial rice (Oryza sativa L.) paddies. Mitochondrial cytochrome c oxidase I (COI) barcodes of specimens from Florida and Colombia were closely matched to each other and to partial barcodes obtained from paratype specimens of B. jafara. The COI barcodes also closely matched sequences from previously unidentified Balclutha specimens in the Barcode of Life Data Systems (BOLD) from Kenya and South Africa, several of which were confirmed later morphologically as B. jafara. Previously unidentified museum specimens from South Sudan, Zambia, and Zimbabwe were determined as B. jafara. Together, these specimens show that B. jafara has a more widespread African distribution than was known previously, and that it arrived in the Western Hemisphere by 2019. Balclutha jafara is redescribed and illustrated. Further studies on the Balclutha fauna of Florida were performed. COI barcode data were generated for Floridian specimens of B. caldwelli Blocker, B. curvata Caldwell, B. flavescens (Baker), B. frontalis (Ferrari), B. incisa (Matsumura), and B. lucida (Butler). A phylogenetic analysis of COI data was conducted using publicly available sequences and those generated here. A key to the Balclutha species known from Florida is provided. The names that have been applied and mis-applied to Western Hemisphere species are discussed. To clarify the identity of some species, illustrations are given for: the female holotype and a male paratype of Eugnathodus virescens Osborn (=B. flavescens); the holotype of Nesosteles robustus Caldwell (=B. robusta); and the holotype of Balclutha curvata Caldwell. Additional barcoded specimens of Balclutha from Kenya and Pakistan were provided for examination by the BOLD research group and determined as B. sujawalensis Ahmed, previously known only from India and Pakistan, and this species is also illustrated here.

Published

2023

5. An annotated and illustrated catalog of the primary type material of Hemiptera deposited in the Florida State Collection of Arthropods.

Author

Powell EC, Halbert SE, Deeter L, and Keller O

Subjects

Humans, Animals, Florida, Hemiptera, Aphids, Reduviidae

Abstract

The Florida State Collection of Arthropods (FSCA) is one of the largest and most diverse insect collections in North America and the largest in the southeastern United States with over twelve million curated specimens and significant amounts of materials in bulk collections and other unprocessed samples. The order Hemiptera currently comprises approximately 95,000 species in three suborders. The FSCA houses type material in the auchenorrhynchan families Cicadidae, Cicadellidae, Cixiidae, Delphacidae, Derbidae, and Membracidae; the heteropteran families Coreidae, Corixidae, Curaliidae, Lygaeidae, Miridae, Pentatomidae, Reduviidae, Schizopteridae, Scutelleridae, and Tingidae; the sternorrhynchan families Aleyrodidae, Aphalaridae, Aphididae, Coccidae, Diaspididae, Matsucoccidae, Pseudococcidae, Phacopteronidae, and Triozidae. This catalog documents the FSCA primary type material for 167 species in 79 genera in 24 families across the three suborders.

Published

2023

6. Association of Two Bactericera Species (Hemiptera: Triozidae) With Native Lycium spp. (Solanales: Solanaceae) in the Potato Growing Regions of the Rio Grande Valley of Texas.

Author

Cooper WR, Esparza-Diaz G, Wildung MR, Horton DR, Badillo-Vargas IE, and Halbert SE

Subjects

Animals, Solanales, Texas, Plant Diseases, Solanum tuberosum, Lycium, Hemiptera, Rhizobiaceae

Abstract

Bactericera cockerelli (Šulc) (Hemiptera: Triozidae) is a vector of 'Candidatus Liberibacter solanacearum' (Lso), the pathogen that causes potato zebra chip. Zebra chip incidence varies regionally, perhaps because of geographic differences in species of noncrop hosts available to the vector and in susceptibility of those hosts to Lso. Native and introduced species of Lycium (Solanales: Solanaceae) are important noncrop hosts of B. cockerelli in some regions of North America. Susceptibility of native Lycium species to Lso is uncertain. We investigated the use of two native species of Lycium by B. cockerelli in South Texas and tested whether they are susceptible to Lso. Bactericera cockerelli adults and nymphs were collected frequently from L. berlandieri Dunal and L. carolinianum Walter. Greenhouse assays confirmed that B. cockerelli develops on both species and showed that Lso infects L. carolinianum. Molecular gut content analysis provided evidence that B. cockerelli adults disperse between potato and Lycium. These results demonstrate that L. berlandieri and L. carolinianum are likely noncrop sources of potato-colonizing B. cockerelli in South Texas and that L. carolinianum is a potential source of Lso-infected psyllids. We also routinely collected the congeneric psyllid, Bactericera dorsalis (Crawford), from both Lycium species. These records are the first for this psyllid in Texas. Bactericera dorsalis completed development on both native Lycium species, albeit with high rates of mortality on L. berlandieri. B. dorsalis acquired and transmitted Lso on L. carolinianum under greenhouse conditions but did not transmit Lso to potato. These results document a previously unknown vector of Lso., (Published by Oxford University Press on behalf of Entomological Society of America 2022.)

Published

2023

7. A new Australian species of invasive psyllid, Acizzia convector Burckhardt & Taylor, sp. nov. (Psylloidea: Psyllidae) associated with Acacia auriculiformis and A. mangium (Fabaceae).

Author

Taylor GS, Halbert SE, Tripathy A, and Burckhardt D

Subjects

Animals, Australia, Plants, Acacia, Fabaceae, Hemiptera

Abstract

Acizzia convector Burckhardt & Taylor, sp. nov., a psyllid originating from Australia, is described from material from Australia (NT), South and Southeast Asia (Brunei, Cambodia, India, Laos, Malaysia [Sabah], Singapore and Thailand) and North America (USA [Florida from six counties]). The new species is diagnosed and illustrated, and a key is provided to identify the adults of Acizzia species adventive in the New World. The new species develops on Acacia auriculiformis and A. mangium (Fabaceae), two mimosoids planted and widely naturalised throughout the tropics. While the presence of A. convector sp. nov. in Florida is probably recent (earliest record from October 2014), it occurs in Southeast Asia at least since the 1980s. The wide distribution of the host plants in tropical Africa and South America would allow the psyllids also to occur there.

Published

2023

8. Acquisition and Transmission of the Lethal Bronzing Phytoplasma by Haplaxius crudus Using Infected Palm Spear Leaves and Artificial Feeding Media.

Author

Mou DF, Di Lella B, Halbert SE, Bextine B, Helmick EE, and Bahder BW

Subjects

Animals, Nutritional Support, Plant Diseases, Plant Leaves, Sucrose, Hemiptera, Phytoplasma

Abstract

Lethal bronzing (LB) is a fatal palm disease caused by the phytoplasma ' Candidatus Phytoplasma aculeata'. This disease causes significant economic losses in palm industries and landscapes. The American palm cixiid, Haplaxius crudus , recently was identified as the vector of the phytoplasma. However, knowledge about LB phytoplasma transmission is limited due to the lack of a method to generate phytoplasma-infected insects in the laboratory. In this study, the acquisition and transmission of the LB phytoplasma by H. crudus were investigated. Successful acquisitions of the phytoplasma by H. crudus were observed at 2 days acquisition access period on LB-infected palm spear leaves. Analyses revealed increased phytoplasma infection rates of H. crudus with longer acquisition access periods and latent periods. A significantly higher phytoplasma infection rate was shown after various acquisition access periods and latent periods than the infection rate of the field-collected H. crudus population. Transmission of the phytoplasma from LB-infected spear leaves to sucrose media by H. crudus also was observed using digital PCR assays. These results further support the vector status of H. crudus and offer valuable information to understand LB phytoplasma transmission. Additionally, these results generate a critical baseline for future LB phytoplasma-vector research by providing a way to generate vectors with high phytoplasma infection rates in the laboratory setting.

Published

2022

9. Morphology, molecular phylogenetics, and DNA barcoding revealed a new unusual species of the aphid genus Pleotrichophorus from the USA (Insecta, Hemiptera: Aphididae).

Author

Barjadze S, Halbert SE, Moore MR, and Kanturski M

Subjects

Animals, DNA Barcoding, Taxonomic, Female, Microscopy, Electron, Scanning, Phylogeny, United States, Aphids, Asteraceae

Abstract

Here, we present the descriptions of a new aphid species in the genus Pleotrichophorus Brner, 1930 (Hemiptera: Aphididae: Macrosiphini), found by Kenneth L. Hibbard, inspection supervisor for the Florida Department of Agriculture and Consumer Services, Division of Plant Industry. It is associated with Euthamia graminifolia (L.) Nutt. (Asteraceae) a native plant species in Florida, USA. Apterous and alate viviparous and oviparous females of Pleotrichophorus blackmani sp. n. are described and illustrated using light and scanning electron microscopy (SEM). SEM images of apterous viviparous female of Pleotrichophorus glandulosus (Kaltenbach, 1846), type species of the genus Pleotrichophorus, are given for the first time. Taxonomic notes are given, and an updated key to the apterae of the Euthamia-feeding aphids is provided. A multigene phylogenetic analyses of two New World Pleotrichophorus species places the genus in the tribe Macrosiphini sensu stricto. Pleotrichophorus glandulosus, the type species of the genus, was described from Germany. European specimens of P. glandulosus from France had similar molecular sequences to both Florida species, strongly suggesting that the new species belongs in Pleotrichophorus. COI and gnd sequence data indicate that P. blackmani sp. n. can be identified reliably by DNA barcodes.

Published

2022

10. Description of a new species of Hamamelistes forming galls on Fothergilla spp. (Hamamelidaceae) and the generic limits of Hormaphidini (Sternorrhyncha: Aphididae: Hormaphidinae).

Author

Dederich AE, Halbert SE, and VON Dohlen CD

Subjects

Animals, Aphids, Hamamelidaceae

Abstract

Hamamelistes and Hormaphis aphids of the tribe Hormaphidini are distributed disjunctly in eastern North America and Eurasia. Host-alternating species have life cycles encompassing generations in a gall on witch-hazel (Hamamelis spp.) and generations on leaves of birch (Betula spp.). In Hamamelistes, generations on witch-hazel induce globular pouch galls on flower or leaf buds. Herbarium specimens of a related Hamamelidaceae genus, Fothergilla, contain large galls in place of the seed head. We obtained a fresh sample of these elongate pouch galls collected from F. milleri in Alabama, USA. The galls were formed in place of fruiting structures and contained numerous aphids. Examination of morphology and the cytochrome oxidase subunit I barcode DNA sequence confirmed that the aphids are an undescribed species of Hamamelistes. Here, we describe the new species, Hamamelistes blackmani Dederich von Dohlen sp. n., from the morphology of foundresses, immatures, and winged forms in the gall. The life cycle is presumed monoecious. In addition, we review the evidence for including other genera in Hormaphidini and recommend that this tribe be restricted to Hamamelistes and Hormaphis.

Published

2022

11. A new gall-producing species of Geoica Hart, 1894 (Hemiptera: Aphididae: Eriosomatinae) from Israel.

Author

Barjadze S, Halbert SE, and Ben-Shlomo R

Subjects

Animals, Israel, Aphids, Pistacia

Abstract

Geoica inbari sp. nov., living on Pistacia palaestina Boiss. (Anacardiaceae), is described based on apterous fundatrigeniae, fall migrants, embryos of apterous exules within fall migrants (fundatrispuriae) and the first instar larva of an apterous exule borne by a fall migrant, collected in the Mount Hermon area of Northern Israel. The new species differs from all other known Geoica species in its mitochondrial DNA, and from those known from Pistacia by the shape of the galls. It makes coral-shaped galls, while all congeners produce spherical galls. The new species is a member of the Geoica utricularia group and morphologically resembles Geoica wertheimae Brown Blackman, 1994.

Published

2022

12. The Development and Evaluation of Insect Traps for the Asian Citrus Psyllid, Diaphorina citri (Hemiptera: Psyllidae), Vector of Citrus Huanglongbing.

Author

Snyder J, Dickens KL, Halbert SE, Dowling S, Russell D, Henderson R, Rohrig E, and Ramadugu C

Abstract

Citrus huanglongbing (HLB) is a severe problem for citrus cultivation. The disease management programs benefit from improved field tools suitable for surveying the ACP vector (Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera: Psyllidae)) and the associated pathogen. In the present study, we utilize three-dimensional (3D) printers and design tools to develop traps that can capture and preserve ACPs. Three novel, 3D-printed traps were designed and evaluated: stem trap, and cylinder traps 1 and 2. The traps and yellow sticky cards were deployed weekly for 8 months in 2 non-commercial citrus groves in Florida; in California, the traps were evaluated for 12 months in field cages and 4 citrus groves. The stem traps captured lower numbers of ACPs at all experimental sites compared to the cylinder traps. Capture rates in the cylinder traps were comparable to the sticky trap, making the device a viable tool for monitoring field ACPs. The two main advantages of using the reusable 3D traps over standard methods of ACP and HLB surveys include dynamic sampling that can be conducted year-round and the capture of ACPs that can be preserved and tested. Improved trapping may facilitate quick management decisions and mitigate HLB.

Published

2022

13. Complex life histories predispose aphids to recent abundance declines.

Author

Crossley MS, Smith OM, Davis TS, Eigenbrode SD, Hartman GL, Lagos-Kutz D, Halbert SE, Voegtlin DJ, Moran MD, and Snyder WE

Subjects

Animals, Climate, Climate Change, Herbivory, Humans, Plants, Aphids

Abstract

Many animals change feeding habits as they progress through life stages, exploiting resources that vary in space and time. However, complex life histories may bring new risks if rapid environmental change disrupts the timing of these switches. Here, we use abundance times series for a diverse group of herbivorous insects, aphids, to search for trait and environmental characteristics associated with declines. Our meta dataset spanned three world regions and >300 aphid species, tracked at 75 individual sites for 10-50 years. Abundances were generally falling, with median changes of -8.3%, -5.6%, and -0.1% per year in the central USA, northwestern USA, and United Kingdom, respectively. Aphids that obligately alternated between host plants annually and those that were agricultural pests exhibited the steepest declines, relative to species able to persist on the same host plant year-round or those in natural areas. This suggests that host alternation might expose aphids to climate-induced phenology mismatches with one or more of their host plant species, with additional risks from exposure to insecticides and other management efforts. Warming temperatures through time were associated with milder aphid declines or even abundance increases, particularly at higher latitudes. Altogether, while a warming world appeared to benefit some aphid species in some places, most aphid species that had time-sensitive movements among multiple host plants seemed to face greater risk of decline. More generally, this suggests that recent human-induced rapid environmental change is rebalancing the risks and rewards associated with complex life histories., (© 2021 John Wiley & Sons Ltd.)

Published

2021

14. In-Grove Spatiotemporal Spread of Citrus Huanglongbing and Its Psyllid Vector in Relation to Weather.

Author

Shimwela MM, Halbert SE, Keremane ML, Mears P, Singer BH, Lee WS, Jones JB, Ploetz RC, and van Bruggen AHC

Subjects

Animals, Plant Diseases, Weather, Citrus metabolism, Hemiptera microbiology, Rhizobiaceae pathogenicity

Abstract

Reports of spatial patterns of 'Candidatus Liberibacter asiaticus'-infected asymptomatic citrus trees and 'Ca. L. asiaticus'-positive Asian citrus psyllids (ACP) are rare, as are published relationships between huanglongbing (HLB), ACP, and weather. Here, spatial patterns of 'Ca. L. asiaticus'-positive asymptomatic and symptomatic trees were determined every half year in a small grove over 2.5 years, and of HLB-symptomatic trees and ('Ca. L. asiaticus'-positive) ACP populations every month in two commercial groves for 1 year. Spread of symptomatic trees followed that of asymptomatic 'Ca. L. asiaticus'-positive trees with <6 months' delay. 'Ca. L. asiaticus'-positive asymptomatic and symptomatic fronts moved at 2.5 to 3.6 m month -1 . No spatial relationship was detected between ACP populations and HLB-infected trees. HLB incidence and 'Ca. L. asiaticus'-positive ACP dynamics were tentatively positively correlated with monthly rainfall data and, to a lesser extent, with average minimum temperature.

Published

2019

15. Regional Spatial-Temporal Spread of Citrus Huanglongbing Is Affected by Rain in Florida.

Author

Shimwela MM, Schubert TS, Albritton M, Halbert SE, Jones DJ, Sun X, Roberts PD, Singer BH, Lee WS, Jones JB, Ploetz RC, and van Bruggen AHC

Subjects

Animals, Florida, Plant Diseases microbiology, Spatio-Temporal Analysis, Trees, Weather, Citrus microbiology, Hemiptera microbiology, Insect Vectors microbiology, Plant Diseases statistics & numerical data, Rhizobiaceae physiology

Abstract

Citrus huanglongbing (HLB), associated with 'Candidatus Liberibacter asiaticus' (Las), disseminated by Asian citrus psyllid (ACP), has devastated citrus in Florida since 2005. Data on HLB occurrence were stored in databases (2005 to 2012). Cumulative HLB-positive citrus blocks were subjected to kernel density analysis and kriging. Relative disease incidence per county was calculated by dividing HLB numbers by relative tree numbers and maximum incidence. Spatiotemporal HLB distributions were correlated with weather. Relative HLB incidence correlated positively with rainfall. The focus expansion rate was 1626 m month -1 , similar to that in Brazil. Relative HLB incidence in counties with primarily large groves increased at a lower rate (0.24 year -1 ) than in counties with smaller groves in hotspot areas (0.67 year -1 ), confirming reports that large-scale HLB management may slow epidemic progress.

Published

2018

16. Long-Term Field Evaluation Reveals Huanglongbing Resistance in Citrus Relatives.

Author

Ramadugu C, Keremane ML, Halbert SE, Duan YP, Roose ML, Stover E, and Lee RF

Abstract

Citrus huanglongbing (HLB) is a destructive disease with no known cure. To identify sources of HLB resistance in the subfamily Aurantioideae to which citrus belongs, we conducted a six-year field trial under natural disease challenge conditions in an HLB endemic region. The study included 65 Citrus accessions and 33 accessions belonging to 20 other closely related genera. For each accession, eight seedling trees were evaluated. Based on quantitative polymerase chain reaction analysis of the pathogen titers and disease symptoms, eight disease-response categories were identified. We report two immune, six resistant, and 14 tolerant accessions. Resistance and tolerance observed in different accessions may be attributed to a multitude of factors, including psyllid colonization ability, absence of pathogen multiplication, transient replication of the bacterium, lack of pathogen establishment in the plant, delayed infection, or recovery from infection. Most citrus cultivars were considered susceptible: 15 citrons, lemons, and limes retained leaves in spite of the disease status. Resistance and high levels of field tolerance were observed in many noncitrus genera. Disease resistance/tolerance was observed in Australian citrus relative genera Eremocitrus and Microcitrus, which are sexually compatible with citrus and may be useful in future breeding trials to impart HLB resistance to cultivated citrus.

Published

2016

17. Huanglongbing: An overview of a complex pathosystem ravaging the world's citrus.

Author

da Graça JV, Douhan GW, Halbert SE, Keremane ML, Lee RF, Vidalakis G, and Zhao H

Subjects

Ecosystem, Models, Biological, Plant Immunity, Citrus microbiology, Host-Pathogen Interactions, Plant Diseases microbiology

Abstract

Citrus huanglongbing (HLB) has become a major disease and limiting factor of production in citrus areas that have become infected. The destruction to the affected citrus industries has resulted in a tremendous increase to support research that in return has resulted in significant information on both applied and basic knowledge concerning this important disease to the global citrus industry. Recent research indicates the relationship between citrus and the causal agent of HLB is shaped by multiple elements, in which host defense responses may also play an important role. This review is intended to provide an overview of the importance of HLB to a wider audience of plant biologists. Recent advances on host-pathogen interactions, population genetics and vectoring of the causal agent are discussed., (© 2015 Institute of Botany, Chinese Academy of Sciences.)

Published

2016

18. The potato pest Russelliana solanicola Tuthill (Hemiptera: Psylloidea): taxonomy and host-plant patterns.

Author

Serbina L, Burckhardt D, Birkhofer K, Syfert MM, and Halbert SE

Subjects

Animals, Crops, Agricultural microbiology, Disease Vectors, Female, Male, Plant Diseases microbiology, Solanum tuberosum microbiology, South America, Hemiptera anatomy & histology, Hemiptera classification, Hemiptera microbiology, Hemiptera pathogenicity

Abstract

The Neotropical jumping plant-louse Russelliana solanicola Tuthill is a potato pest and a probable vector of plant pathogens. Populations morphologically similar to those found on potatoes have been collected on plants of at least ten different families, four of which have been confirmed as hosts by the presence of immatures. This suggests that R. solanicola is either a single polyphagous species or a complex of closely related, monophagous species (host races/cryptic species). Results of our analyses of multiple morphometric characters show for both sexes a grouping of the populations of R. solanicola and a clear separation of the latter from other Russelliana species. On the other hand, within R. solanicola, there is an overlap of populations from different host-plants as well as from different geographical regions. The results of the present study strongly suggest that R. solanicola is a single, polyphagous species and the known distribution indicates that it is native to the Andes. It is likely that R. solanicola has been introduced into eastern Argentina, Brazil and Uruguay. The polyphagy together with the ability to disperse and transmit plant pathogens potentially make this species an economically important pest of potato and other crop species.

Published

2015

19. Asymptomatic spread of huanglongbing and implications for disease control.

Author

Lee JA, Halbert SE, Dawson WO, Robertson CJ, Keesling JE, and Singer BH

Subjects

Animals, Bacterial Infections microbiology, Bacterial Infections prevention & control, Bacterial Infections transmission, Computer Simulation, Insect Control methods, Models, Biological, Time Factors, Citrus microbiology, Hemiptera microbiology, Plant Diseases microbiology, Plant Diseases prevention & control, Rhizobiaceae pathogenicity

Abstract

Huanglongbing (HLB) is a bacterial infection of citrus trees transmitted by the Asian citrus psyllid Diaphorina citri. Mitigation of HLB has focused on spraying of insecticides to reduce the psyllid population and removal of trees when they first show symptoms of the disease. These interventions have been only marginally effective, because symptoms of HLB do not appear on leaves for months to years after initial infection. Limited knowledge about disease spread during the asymptomatic phase is exemplified by the heretofore unknown length of time from initial infection of newly developing cluster of young leaves, called flush, by adult psyllids until the flush become infectious. We present experimental evidence showing that young flush become infectious within 15 d after receiving an inoculum of Candidatus Liberibacter asiaticus (bacteria). Using this critical fact, we specify a microsimulation model of asymptomatic disease spread and intensity in a grove of citrus trees. We apply a range of psyllid introduction scenarios to show that entire groves can become infected with up to 12,000 psyllids per tree in less than 1 y, before most of the trees show any symptoms. We also show that intervention strategies that reduce the psyllid population by 75% during the flushing periods can delay infection of a full grove, and thereby reduce the amount of insecticide used throughout a year. This result implies that psyllid surveillance and control, using a variety of recently available technologies, should be used from the initial detection of invasion and throughout the asymptomatic period.

Published

2015

20. Modeling huanglongbing transmission within a citrus tree.

Author

Chiyaka C, Singer BH, Halbert SE, Morris JG Jr, and van Bruggen AH

Subjects

Animals, Insect Control methods, Plant Diseases prevention & control, Plant Leaves microbiology, Population Dynamics, Citrus microbiology, Citrus parasitology, Disease Transmission, Infectious, Hemiptera microbiology, Insect Vectors microbiology, Models, Biological, Plant Diseases microbiology, Rhizobiaceae

Abstract

The citrus disease huanglongbing (HLB), associated with an uncultured bacterial pathogen, is threatening the citrus industry worldwide. A mathematical model of the transmission of HLB between its psyllid vector and citrus host has been developed to characterize the dynamics of the vector and disease development, focusing on the spread of the pathogen from flush to flush (a newly developing cluster of very young leaves on the expanding terminal end of a shoot) within a tree. This approach differs from that of prior models for vector-transmitted plant diseases where the entire plant is the unit of analysis. Dynamics of vector and host populations are simulated realistically as the flush population approaches complete infection. Model analysis indicates that vector activity is essential for initial infection but is not necessary for continued infection because infection can occur from flush to flush through internal movement in the tree. Flush production, within-tree spread, and latent period are the most important parameters influencing HLB development. The model shows that the effect of spraying of psyllids depends on time of initial spraying, frequency, and efficacy of the insecticides. Similarly, effects of removal of symptomatic flush depend on the frequency of removal and the time of initiation of this practice since the start of the epidemic. Within-tree resistance to spread, possibly affected by inherent or induced resistance, is a major factor affecting epidemic development, supporting the notion that alternate routes of transmission besides that by the vector can be important for epidemic development.

Published

2012

21. First Report of a 16SrIV-D Phytoplasma Associated with Texas Phoenix Palm Decline on Pigmy Date Palm (Phoenix roebelenii) in Florida.

Author

Jeyaprakash A, Sutton BD, Halbert SE, and Schubert TS

Abstract

The pigmy date palm (Phoenix roebelenii O'Brien) is used as an ornamental in Florida and is popular and lucrative within the nursery trade. Severe decline of several pigmy date palms was observed at a residence in Hillsborough County, FL. Several other palm species, including P. canariensis (Canary Island date palm), P. sylvestris (wild date palm), P. dactylifera (date palm), Syagrus romanzoffiana (queen palm), and Sabal palmetto (cabbage palm), in Florida are known to be affected by Texas Phoenix palm decline (TPPD), a disease associated with a phytoplasma subgroup strain 16SrIV-D (2,3). Moreover, the location of the affected pigmy date palms was in the proximity of many other diseased cabbage palms that were identified in previous surveys and subsequently rogued. Genomic DNA was extracted from 100 mg of ground-up palm trunk tissues containing phloem cells with a DNeasy Plant Mini kit column (QIAGEN Inc., Valencia, CA) from four specimens. A high-fidelity PCR (Hf-PCR) procedure was used in preference to standard PCR because it was 10,000 to 100,000 times more sensitive (1,4). The Hf-PCR (50 μl) utilized two DNA polymerases; Taq (five units) and ACCUZYME (one unit), 350 μM dNTP, a buffer (50 mM Tris pH 9.2, 16 mM ammonium sulfate, and 1.75 mM magnesium chloride), a higher concentration of primers (200 pM) (2,3), and palm DNA templates (>10 ng) or no DNA negative control. Hf-PCR was performed using three linked profiles: (i) 94°C (2 min) (1 cycle); (ii) 94°C (10 s), 50°C (30 s) for P1m/P7 or 57°C for LY16Sf/LY16Sr and 68°C (2 min) (10 cycles); and (iii) 94°C (10 s), 50°C (30 s) for P1m/P7 or 57°C for LY16Sf/LY16Sr and 68°C (2 min plus 20 s added for every consecutive cycle) (20 cycles) (1). The genomic DNA extracted from P. roebelenii specimens was used as template for amplification by Hf-PCR. Expected 1.8- and 1.4-kb DNA bands for each primer combination were readily amplified. The Hf-PCR products were sequenced (GenBank Accession No. JF791816) and a BLAST search revealed a 100% similarity with a phytoplasma subgroup strain 16SrIV-D (EF042899 and AF434989), which is known to cause severe palm decline (TPPD) in other hosts (2,3). To our knowledge, this is the first report of TPPD from P. roebelenii, and therefore, expands the host range of this pathogen. In areas where TPPD is present, the landscape industry may need to identify alternative nonhost palm species or resistant varieties for disease management. References: (1) W. M. Barnes. Proc. Natl. Acad. Sci. USA 91:2216, 1994. (2) N. A. Harrison et al. Plant Dis. 86:676, 2002. (3) N. A. Harrison et al. Ann. Appl. Biol. 153:85, 2008. (4) A. Jeyaprakash and M. A. Hoy. Insect Mol. Biol. 9:393, 2000.

Published

2011

22. Species composition of aphid vectors (Hemiptera: Aphididae) of barley yellow dwarf virus and cereal yellow dwarf virus in Alabama and western Florida.

Author

Hadi BA, Flanders KL, Bowen KI, Murphy JF, and Halbert SE

Subjects

Alabama, Animals, Flight, Animal, Florida, Plant Diseases, Seasons, Aphids virology, Insect Vectors virology, Luteovirus isolation & purification, Triticum virology

Abstract

Yellow dwarf is a major disease problem of wheat, Triticum aestivum L., in Alabama and is estimated to cause yield loss of 21-42 bu/acre. The disease is caused by a complex of viruses comprising several virus species, including Barley yellow dwarf virus-PAV and Cereal yellow dwarf virus-RPV. Several other strains have not yet been classified into a specific species. The viruses are transmitted exclusively by aphids (Hemiptera:Aphididae). Between the 2005 and 2008 winter wheat seasons, aphids were surveyed in the beginning of each planting season in several wheat plots in Alabama and western Florida Collected aphids were identified and bioassayed for their yellow dwarf virus infectivity. This survey program was designed to identify the aphid species that serve as fall vectors of yellow dwarf virus into winter wheat plantings. From 2005 to 2008, bird cherry-oat aphid, Rhopalosiphum padi (L.); rice root aphid, Rhopalosiphum rufiabdominale (Sasaki); and greenbug, Schizaphis graminum (Rondani), were found consistently between October and December. The species of aphids and their timing of appearance in wheat plots were consistent with flight data collected in North Alabama between 1996 and 1999. Both R. padi and R. rufiabdominale were found to carry and transmit Barley yellow dwarf virus-PAV and Cereal yellow dwarf virus-RPV. The number of collected aphids and proportion of viruliferous aphids were low. Although this study has shown that both aphids are involved with introduction of yellow dwarf virus to winter wheat in Alabama and western Florida, no conclusions can be made as to which species may be the most important vector of yellow dwarf virus in the region.

Published

2011

23. Lack of Evidence for Transmission of 'Candidatus Liberibacter asiaticus' Through Citrus Seed Taken from Affected Fruit.

Author

Hartung JS, Halbert SE, Pelz-Stelinski K, Brlansky RH, Chen C, and Gmitter FG

Abstract

Citrus huanglongbing, putatively caused by the associated bacterium 'Candidatus Liberibacter asiaticus', is the greatest threat to the world citrus industry today. The bacterium is spread locally and regionally by the citrus psyllid Diaphorina citri, and also can be disseminated by propagation of contaminated scion budwood that is grafted to the appropriate rootstock. The planting of 'Ca. Liberibacter asiaticus'-free trees is a component of a comprehensive strategy to manage huanglongbing. In contrast to the scion budwood, the rootstocks used to produce these trees are grown from seed. This research was undertaken to provide evidence as to whether or not 'Ca. L. asiaticus' can be transmitted through seed. Two groups of 360 or more seedlings each of various citrus species were grown from seed removed from fruit on trees that were symptomatic for huanglongbing and confirmed to be infected with 'Ca. L. asiaticus' by polymerase chain reaction (PCR) tests. These seedlings were tested multiple times over periods of up to 3 years. No symptoms typical of huanglongbing, such as blotchy leaf mottle, chlorotic shoots, or dieback of branches, were observed in these seedlings, and none of these 723 seedlings tested positive for the presence of 'Ca. L. asiaticus' even after repeated testing by sensitive quantitative PCR assays. Some sour orange seedlings did have quite pronounced and atypical growth, including stunting and mild to severe leaf malformation. These atypical growth habits were limited to seedlings that arose from zygotic embryos as determined by expressed-sequence tag simple-sequence repeat analyses. Thus, no evidence of transmission of 'Ca. L. asiaticus' via seed was obtained, and an earlier report of transmission of the pathogen through seed was not confirmed.

Published

2010

24. Biology and biotype determination of greenbug, Schizaphis graminum (Hemiptera: Aphididae), on seashore paspalum turfgrass (Paspalum vaginatum).

Author

Nuessly GS, Nagata RT, Burd JD, Hentz MG, Carroll AS, and Halbert SE

Subjects

Aging, Animals, Ecosystem, Female, Reproduction physiology, Aphids classification, Aphids physiology, Paspalum parasitology

Abstract

Greenbug, Schizaphis graminum (Rondani) (Hemiptera: Aphididae), was first discovered damaging seashore paspalum (Paspalum vaginatum Swartz) turfgrass in November 2003 at Belle Glade, FL. Inquiries to several golf courses with seashore paspalum turf across southern Florida indicated infestation was wide spread by April 2004. Damage symptoms progress from water soaked lesions surrounding feeding sites within 24 h to chlorosis and necrosis of leaf tips within 96 h. Problems caused by greenbug feeding were initially misdiagnosed as fertilizer, disease, other insects, or water management problems because aphids were not previously found on warm season turfgrasses. Greenbug development and fecundity studies were conducted on six seashore paspalum varieties: 'Aloha,' 'SeaDwarf,' 'SeaGreen,' 'SeaIsle,' 'SeaWay,' and 'SeaWolf.' Greenbug did not survive on 'SeaWolf.' Development rates (mean +/- SEM) ranged from 7.6 +/- 0.2 to 8.2 +/- 0.2 d on the remaining varieties. Greenbug longevity and fecundity on 'Aloha' were significantly less than on the other varieties. The estimated intrinsic rate of natural increase (r(m)) for greenbug ranged from 0.24 to 0.26 across tested varieties. Values for net reproductive rate (R(o)) ranged from 12.3 on 'Aloha' to 40.4 on 'SeaWay.' In feeding trials on indicator plants, the Florida isolate of greenbug exhibited a unique biotypic profile most commonly found on noncultivated grass hosts. It was virulent on the wheat variety GRS1201 that is resistant to the principal agricultural biotypes attacking small grains and to all currently available resistant sorghum varieties.

Published

2008

25. Detection of 'Candidatus Liberibacter asiaticus' in Diaphorina citri and its importance in the management of citrus huanglongbing in Florida.

Author

Manjunath KL, Halbert SE, Ramadugu C, Webb S, and Lee RF

Subjects

Animals, Bacteria genetics, Base Sequence, Cloning, Molecular, DNA, Bacterial genetics, Florida, Insect Vectors, Nymph microbiology, Polymerase Chain Reaction, Bacteria classification, Bacteria isolation & purification, Citrus microbiology, Insecta microbiology, Plant Diseases microbiology

Abstract

Citrus huanglongbing (HLB or citrus greening), is a highly destructive disease that has been spreading in both Florida and Brazil. Its psyllid vector, Diaphorina citri Kuwayama, has spread to Texas and Mexico, thus threatening the future of citrus production elsewhere in mainland North America. Even though sensitive diagnostic methods have been developed for detection of the causal organisms, Candidatus Liberibacter spp., the pathogen cannot be detected consistently in plants until symptoms develop, presumably because of low titer and uneven distribution of the causal bacteria in nonsymptomatic tissues. In the present study, TaqMan based real-time quantitative polymerase chain reaction methodology was developed for detection of 'Ca. L. asiaticus' in D. citri. Over 1,200 samples of psyllid adults and nymphs, collected from various locations in Florida, from visually healthy and HLB symptomatic trees at different times of the year were analyzed to monitor the incidence and spread of HLB. The results showed that spread of 'Ca. L. asiaticus' in an area may be detected one to several years before the development of HLB symptoms in plants. The study suggests that discount garden centers and retail nurseries may have played a significant role in the widespread distribution of psyllids and plants carrying HLB pathogens in Florida.

Published

2008

26. First Report of Dodder Transmission of Huanglongbing from Naturally Infected Murraya paniculata to Citrus.

Author

Zhou LJ, Gabriel DW, Duan YP, Halbert SE, and Dixon WN

Abstract

Huanglongbing (HLB) or "greening" disease of citrus is caused by phloem-limited, uncultured bacteria in the genus "Candidatus Liberibacter". HLB is one of the most destructive diseases of citrus worldwide and is considered so dangerous to a U.S. citrus production that the USDA has listed "Ca. Liberibacter species" as a Select Agent. HLB is spread by the Asian citrus psyllid, Diaphorina citri, which was intercepted 40 times by APHIS/PPQ at U.S. ports between 1985 and 1998, became established in Florida by 1998, and more recently in Texas (1). HLB was first detected in the United States near Miami, FL during August 2005, and to date has been confirmed to have spread to 12 Florida counties. In addition to citrus, Murraya paniculata (orange jasmine) is a preferred host of D. citri, and retail trade in this ornamental shrub is strongly implicated in the distribution of D. citri (1). M. paniculata is reported to be a cryptic or largely asymptomatic host of "Ca. Liberibacter" (4), but another report concludes that the bacteria cannot replicate in M. paniculata (2). The epidemiological significance of murraya as a host for the HLB pathogen is therefore unclear. We report here the transmission of "Ca. Liberibacter asiaticus" from M. paniculata to citrus. Two M. paniculata plants, suspected of harboring "Ca. Liberibacter" because of their proximity to HLB-infected citrus and infested with D. citri, were removed from the field, treated with insecticide, and transferred to a quarantine facility. Both plants tested positive for "Ca. Liberibacter" by nested PCR using primers OI1 and OI2 (3) as the first set and primers CGO3F (RGG GAA AGA TTT TAT TGG AG) and CGO5R (GAA AAT AYC ATC TCT GAT ATC GT) as the second set. Two, young, sweet orange plants (Citrus sinensis) grown and maintained in psyllid-free greenhouses in Gainesville, FL were infected by dodder (Cuscuta pentagona) grown from seed. After the dodder had become well established on the orange plants, the orange plants were moved adjacent to the two murraya plants and the dodder from the citrus was draped over the murraya. Coinfection of murraya by dodder occurred within a few days. Sixty days later, both murraya plants, both sweet orange plants, and the connecting dodder all repeatedly tested positive for "Ca. Liberibacter" by nested PCR. Beginning 2 weeks later, the orange plants tested positive by standard PCR using primer set OI1 and OI2 or CGO3F and CGO5R, but remained without typical greening symptoms. Sequencing of the PCR products confirmed amplification of "Ca. L. asiaticus" DNA. We conclude that M. paniculata can serve as an infection source of a Select Agent since it can host the HLB pathogen for at least 2 months and the HLB pathogen can be transmitted to sweet orange during this time. References: (1) S. E. Halbert and K. L. Manjunath. Florida Entomol. 87:330, 2004. (2) T. H. Hung et al. J. Phytopathol. 148:321, 2000. (3) S. Jagoueix et al. Mol. Cell Probes 10:43, 1996. (4) T. Li and C. Ke. Acta Phytophylacica Sin. 29:31, 2002.

Published

2007

27. Distribution and Characterization of Citrus tristeza virus in South Florida Following Establishment of Toxoptera citricida.

Author

Halbert SE, Genc H, Cevik B, Brown LG, Rosales IM, Manjunath KL, Pomerinke M, Davison DA, Lee RF, and Niblett CL

Abstract

The incidence of Citrus tristeza virus (CTV) was found to increase significantly in southern Florida within 2 years after the establishment of its most efficient vector, Toxoptera citricida (Kirkaldy). Increased incidence of both mild and severe strains was documented, with the incidence of severe strains increasing more than mild strains. Molecular probes capable of differentiating mild, quick decline and various types of stem-pitting strains demonstrated that trees often were infected with more than one strain of CTV, with trees containing up to five different strains. Some CTV strains detected in the southeast urban corridor of Florida and in commercial groves in southwest Florida were found to react with probes specific for stem-pitting strains known from elsewhere in the world. The implications of the presence of these CTV strains in Florida and their possible presence in citrus budwood scion trees are discussed.

Published

2004

28. Seasonal abundance of aphids (Homoptera: Aphididae) in wheat and their role as barley yellow dwarf virus vectors in the South Carolina coastal plain.

Author

Chapin JW, Thomas JS, Gray SM, Smith DM, and Halbert SE

Subjects

Animals, Crops, Agricultural, Hordeum, Population Density, Seasons, South Carolina, Time Factors, Triticum, Aphids, Insect Control, Insect Vectors, Luteovirus

Abstract

Aphid (Homoptera: Aphididae) seasonal flight activity and abundance in wheat, Triticum aestivum L., and the significance of aphid species as vectors of barley yellow dwarf virus were studied over a nine-year period in the South Carolina coastal plain. Four aphid species colonized wheat in a consistent seasonal pattern. Greenbug, Schizaphis graminum (Rondani), and rice root aphid, Rhopalosiphum rufiabdominalis (Sasaki), colonized seedlingwheat immediately after crop emergence, with apterous colonies usually peaking in December or January and then declining for the remainder of the season. These two aphid species are unlikely to cause economic loss on wheat in South Carolina, thus crop managers should not have to sample for the subterranean R. rufiabdominalis colonies. Bird cherry-oat aphid, Rhopalosiphum padi (L.), was the second most abundant species and the most economically important. Rhopalosiphum padi colonies usually remained below 10/row-meter until peaking in February or March. Barley yellow dwarf incidence and wheat yield loss were significantly correlated with R. padi peak abundance and aphid-day accumulation on the crop. Based on transmission assays, R. padi was primarily responsible for vectoring the predominant virus serotype (PAV) we found in wheat. Pest management efforts should focus on sampling for and suppressing this aphid species. December planting reduced aphid-day accumulation and barley yellow dwarf incidence, but delayed planting is not a practical management option. English grain aphid, Sitobion avenae (F.), was the last species to colonize wheat each season, and the most abundant. Sitobion avenae was responsible for late-season virus transmission and caused direct yield loss by feeding on heads and flag leaves during an outbreak year.

Published

2001

29. Somaclonal variation in the progeny of transgenic barley.

Author

Bregitzer P, Halbert SE, and Lemaux PG

Abstract

Somaclonal variation (SCV) in transgenic plants may slow the incorporation of introduced genes into commercially competitive cultivars. Somaclonal variation in transgenic barley (Hordeum vulgare L.) was assessed in one experiment by comparing the agronomic characteristics of 44 segregating transgenic lines in the T2 generation to their non-transformed parent ('Golden Promise'). A second experiment examined the agronomic characteristics of seven transgenic-derived, null (non-transgenic) segregant lines in the T2 and T4 generations. Compared to their uncultured parent, Golden Promise, most of these lines were shorter, lower yielding, and had smaller seed, and the variability among individual plants was higher. The frequency and severity of the observed SCV was unexpectedly high, and the transformation procedure appeared to induce greater SCV than tissue culture in the absence of transformation. Attempts to understand the sources of SCV, and to modify transformation procedures to reduce the generation of SCV, should be made.

Published

1998