The relationships between Apocrita wasp populations and flowering plants in Maine's wild lowbush blueberry agroecosystems

This was the first study to have surveyed the spatial and temporal structure of Apocrita wasps in lowbush blueberry fields, a unique native agricultural landscape in Maine and eastern Canada. The relative abundances of wasps associated with lowbush blueberry (Vaccinium angustifolium Ait.) were investigated in 33 blueberry fields throughout Washington County, Maine, USA. Native wasps were captured during the springs and summers of 1997 and 1998 in Malaise traps erected along a transect in each field. Vegetation sampling was also conducted along these transects to quantify available floral resources. Data indicate the abundance of the total wasp community was positively associated with the abundance of sheep laurel (Kalmia angustifolia L.). Relationships between trap capture of 13 wasp morphospecies and other flowering weeds were also investigated. Most taxa in 1998 were positively associated with one or more of the following flowering plants: bunchberry (Cornus canadensis L.), bush honeysuckle (Diervilla lonicera P. Mill.), dogbane (Apocynum androsaemifolium L.), sheep laurel, and witherod (Viburnum nudum var. cassinoides L.). Similar results were not evident in 1997 because the method used to sample vegetation was not as extensive as that used in 1998. However, sheep laurel was positively associated with the wasp genera Microplitis spp. and Phanerotoma spp. during both years.     

The Genetic Relationship Between Mycoplasma-like Organisms Causing Diseases in the Sudan and Different Continents Revealed by Polymerase Chain Reaction (PCR) Amplification of the 16S rRNA Gene Followed by Restriction Fragment Length Polymorphism Analysis

The genetic relationship between faba bean (Vicia faba L.) phyllody and other mycoplasma-like organism (MLO) diseases has been studied by amplification of the conserved region of the 16S rRNA gene followed by restriction fragment length polymorphism (RFLP) analysis using Alu I restriction endonuclease. The restriction patterns produced by faba bean phyllody MLO were smilar to that of Crotalaria saltiana phyllody MLO which persists throughout the year in the Sudan. These, and serological results clearly confirmed that C. saltiana is a reservoir of faba bean phyllody MLO in the Sudan. Moreover, restriction patterns have also shown that MLOs of other diseases have the same RFLP fragment pattern as faba bean phyllody MLO, including C. juncea witches'broom (Thailand) and tomato big-bud (Australia), which differs from the other selected MLO diseases (Gladiolus aster yellow, clover phyllody and yellow decline of lavender, aqll from France). Fragment patterns also revealed the existence of genetically diverse MLO strains in the Sudan. Faba bean phyllody may be placed in group III including WX, apricot chlorotic leaf roll, golden flaveswcence dorée of grapevine, plum leptonecrosis of Prunus salciana, peachy yellow leaf roll, sunnhemp phyllody from Thailand, and blueberry witches' broom.     

Infection of wild and cultivated Vaccinium spp. with blueberry leaf mottle nepovirus

A field survey was performed during the summers of 1991 and 1992 to determine whether blueberry leaf mottle virus (BLMV) infects wild blueberry bushes surrounding commercial blueberry fields and might act as a reservoir of the virus. Leaf samples from wild blueberries growing in wooded areas surrounding commercial plantings in Western central Lower Michigan were taken from bushes radiating out from the border of the commercial field into the wooded areas at 5, 50 and 100 m. BLMV was present in native bushes of Vaccinium corymbosum, V. myrtilloides and V. angustifolium, and two hybrids of V. corymbosum V. angustifolium. BLMV-infected pollen grains were detected in pollen traps located up to 2 miles from a source field.     

Incidence and Pathogenicity of Plant-Parasitic Nematodes Associated with Blueberry (Vaccinium spp.) Replant Disease in Georgia and North Carolina

Blueberry replant disease (BRD) is an emerging threat to continued blueberry (Vaccinium spp.) production in Georgia and North Carolina. Since high populations of ring nematode Mesocriconema ornatum were found to be associated with commercially grown blueberries in Georgia, we hypothesized that M. ornatum may be responsible for predisposing blueberry to BRD. We therefore tested the pathogenicity of M. ornatum on 10-wk-old Rabbiteye blueberries (Vaccinium virgatum) by inoculating with initial populations (Pi) of 0 (water control), 10, 100, 1,000. and 10,000 mixed stages of M. ornatum/pot under both greenhouse (25 ± 2°C) and field microplot conditions. Nematode soil population densities and reproduction rates were assessed 75, 150, 225, and 255, and 75, 150, 225, and 375 d after inoculation (DAI) in both the greenhouse and field experiments, respectively. Plant growth parameters were recorded in the greenhouse and field microplot experiments at 255 and 375 DAI, respectively. The highest M. ornatum population density occurred with the highest Pi level, at 75 and 150 DAI under both greenhouse (P < 0.01) and field (P < 0.01) conditions. However, M. ornatum rate of reproduction increased significantly in pots receiving the lowest Pi level of 10 nematodes/plant compared with the pots receiving Pi levels of 100, 1,000, and 10,000 nematodes 75 DAI. Plant-parasitic nematode populations were determined in commercial blueberry replant sites in Georgia and North Carolina during the 2010 growing season. Mesocriconema ornatum and Dolichodorus spp. were the predominant plant-parasitic nematodes in Georgia and North Carolina, respectively, with M. ornatum occurring in nearly half the blueberry fields sampled in Georgia. Other nematode genera detected in both states included Tylenchorhynchus spp., Hoplolaimus spp., Hemicycliophora spp., and Xiphinema spp. Paratrichodorus spp. was also found only in Georgia. In Georgia, our results indicate that blueberry is a host for M. ornatum and its relationship to BRD warrants further investigation.     

Leafhopper transmission of Rhynchosia little leaf, a disease associated with mycoplasma-like organisms in Jamaica

Little leaf disease of Rhynchosia minima (RLL) in Jamaica is reported for the first time. The presence of phloem-restricted MLO in diseased but not healthy plants, the remission of symptoms induced in RLL-affected plants with soil drenches of tetracycline, but not penicillin, and the transmission of disease-associated MLO to R. minima test plants, suggests that RLL has an MLO aetiology. RLL is vectored by the cicadellid leafhopper Ollarianus balli, for which R. minima represents the specific field host. Healthy colonies of O. balli produced from eggs oviposited on the RLL-immune weed Asystasia gangetica suggest that RLL is not transovarially transmitted. O. balli acquired the RLL agent after access to infected plants for 5 days (shorter feeds were not tried), and there was a maximum latent period in the leafhopper of 21 days. Of the O. balli collected from heavily-infected field stands of RLL, 35% transmitted the disease, while, of those reared on RLL in captivity for 14–16 days, 56% transmitted. Male and female O. balli transmitted equally efficiently, while nymphs were less frequent vectors. O. balli also infected Cajanus cajan, an important small scale subsistence crop in Jamaica, and Catharanthus roseus. It did not, however, transmit coconut lethal yellowing (CLY) disease to test palms after natural or deliberate acquisition-feeding on RLL, acquisition-feeding on CLY-affected palms, or, after injection with CLY-affected phloem exudate. There was thus no evidence that RLL is related to CLY or that O. balli can act as a vector of CLY.     

Transmission of a New Mycoplasma-Like Organism (MLO) from Cuscuta odorata (Ruiz et Pav.) to Herbaceous Plants and Attempts to its Elimination in the Vector

A new MLO-type, originating from a holoparasite plant Cuscuta odorata (Ruiz et Pav.) causing stunting and reduction of flower- and leaf size on Catharanthus roseus (L.) G. Don. (HEINTZ 1986) was transmitted to Apium graveolens L., Plantago major L., Bellis perennis L. and Cirsium japonicum hybrid. The observed symptoms on the test plants probably caused by the MLO have not yet been described in the literature. The symptomatology on these herbaceous plants gives further data in order to classify the MLO as a new one which is named Guscuta latent MLO (Cl-MLO). Attempts to transmit the pathogens by the leafboppers Euscelidius variegates (Kirschbaum) and Euscelis lineolatus (Brullé) failed. It also was impossible to elimmate the MLO completely from Cuscuta odorata by heat treatment and antibiotic application. However, we succeeded in eliminating the pathogens from Catharanthus roseus by heat treatment.     

RAPD-based genetic linkage map of blueberry derived from a cross between diploid species (Vaccinium darrowi and V. elliottii)

An initial genetic linkage map for blueberry has been constructed from over 70 random amplified polymorphic DNA (RAPD) markers that segregated 11 in a testcross population of 38 plants. The mapping population was derived from a cross between two diploid blueberry plants: the F₁ interspecific hybrid (Vaccinium darrowi Camp x V. elliottii Chapm.) and another V. darrowi plant. The map currently comprises 12 linkage groups (in agreement with the basic blueberry chromosome number) and covers a total genetic distance of over 950cM, with a range of 3–30cM between adjacent markers. The use of such a map for identifying molecular markers linked to genes controlling chilling requirement and cold hardiness is discussed.     

Use of Polyclonal Antibodies to Identify Mycoplasma-like organisms (MLOs) From the Sudan and from Thailand

Rabbit polyclonal antibodies prepared against faba bean phyllody MLO from the Sudan reacted with its homologous antigen and with extracts of Catharanthus roseus experimentally infected with the same or a related MLO from Crotalaria saltiana showing symptoms of phyllody disease, as well as with extracts of naturally MLO-infected C. saltiana growing in the field in the Sudan. The antibodies also reacted positively with extracts of C. roseus experimentally infected with Crotalaria juncea phyllody MLO and soybean phyllody MLO from Thailand. Polyclonal antibodies prepared against an MLO associated with witches' broom disease in C. juncea reacted positively in ELISA tests with homologous antigen extracts from naturally infected C. juncea as well as with extracts from experimentally infected C. roseus and with extracts prepared from Sesamum indicum plants with phyllody symptoms growing in Thailand. There was no reaction between these antibodies and extracts from C. roseus plants infected with the MLOs associated with C. juncea phyllody or with soybean phyllody. No cross reactions were observed among the antigens and antibodies of the two MLO groups by immunoflorescence, ELISA or western blotting. However, the molecular weight of the principal protein antigen, determined by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) and western blotting was the same for both types of MLO. Serologically-similar MLOs thus occur in the Sudan and in Thailand, where they are associated with phyllody symptoms in C. saltiana and faba bean and with C. juncea and soybean, respectively. A second, serologically distinct MLO group was also found infecting C. juncea and S. indicum in Thailand but MLOs from this group have not yet been identified in crops from the Sudan.     

Mycoplasma-like bodies inSolanum laciniatum plants infected with potato witches’ broom disease

Mycoplasma-like organisms (MLO) spread from the infectious grafts intoSolanum laciniatum Ait. stock plants relatively slowly. MLO were present in all sprouts ofS. laciniatum four weeks after grafting, but the infected plants remained under glasshouse conditions mostly symptomless and flowered normally and formed fruits like healthy plants. The growth of plants with infectious tomato grafts was identical with the controls but that of plants with infectious tobacco (Nicotiana glauca Grah.) grafts was expressively stimulated. The first flower symptoms appeared onS. laciniatum plants with tomato grafts after five and half months and on.S. laciniatum plants with tobacco grafts after seven months of graft symbiosis. Electron micrographs of ultrathin sections showed the presence of MLO in sieve tubes of potiols and midribs of the infected but symptomless plants. In the phloem parenchyma cells of the witches’ broom diseased plants, highly ordered crystals were occasionally found lying in a microbody surrounded by a membrane. The possible reasons of the disease latency are discussed.     

Attachment of the Flavescence doree pathogen (MLO) to leafhopper vectors and other insects

Flavescence doree (FD) is an important yellows disease of grapevine, caused by mycoplasma-like-organism (MLO) and is transmitted in the field by the leafhopper Scaphoideus titanus Ball. It can be transmitted in the laboratory between Vicia faba test plants by the leafhopper, Euscelidius variegatus Kbm. A technique to identify a specific attachment system between the MLO and the leafhopper vectors was developed. In this method, called “Double Dot”, extracts of macerated healthy whole insects or organs applied to a support membrane or cryosections of healthy whole leafhoppers, are incubated with a MLO-enriched extract from FD-infected V. faba or FD-infected E. variegatus. Attached MLO cells were identified by immunolabelling using FD-MLO specific monoclonal antibodies. Attachment of MLO cells was obtained on extracts of healthy S. titanus and E. variegatus and on tissues such as salivary glands, hemolymph and alimentary tract. On cryosections, MLO attachment was obtained on acini IV and V of the salivary glands and on some acini III, on the ventriculus of the alimentary tract, and on the abdomen fat bodies. “Double dot” experiments were done using other insect species, and MLO cells attachment was obtained on most MLO-vector insects but also on insects from a few non-vector species.     

Use of Polyclonal Antibodies to Identify Mycoplasma-like organisms (MLOs) From the Sudan and from Thailand

Rabbit polyclonal antibodies prepared against faba bean phyllody MLO from the Sudan reacted with its homologous antigen and with extracts of Catharanthus roseus experimentally infected with the same or a related MLO from Crotalaria saltiana showing symptoms of phyllody disease, as well as with extracts of naturally MLO-infected C. saltiana growing in the field in the Sudan. The antibodies also reacted positively with extracts of C. roseus experimentally infected with Crotalaria juncea phyllody MLO and soybean phyllody MLO from Thailand. Polyclonal antibodies prepared against an MLO associated with witches' broom disease in C. juncea reacted positively in ELISA tests with homologous antigen extracts from naturally infected C. juncea as well as with extracts from experimentally infected C. roseus and with extracts prepared from Sesamum indicum plants with phyllody symptoms growing in Thailand. There was no reaction between these antibodies and extracts from C. roseus plants infected with the MLOs associated with C. juncea phyllody or with soybean phyllody. No cross reactions were observed among the antigens and antibodies of the two MLO groups by immunoflorescence, ELISA or western blotting. However, the molecular weight of the principal protein antigen, determined by SDS-polyacrylamide gel electrophoresis (SDS-PAGE) and western blotting was the same for both types of MLO. Serologically-similar MLOs thus occur in the Sudan and in Thailand, where they are associated with phyllody symptoms in C. saltiana and faba bean and with C. juncea and soybean, respectively. A second, serologically distinct MLO group was also found infecting C. juncea and S. indicum in Thailand but MLOs from this group have not yet been identified in crops from the Sudan.     

Native Vaccinium spp. and Gaylussacia spp. infested by Rhagoletis mendax (Diptera: Tephritidae) in the Great Lakes Region: a potential source of inoculum for infestation of cultivated blueberries.

In this study, we addressed the question of whether or not native stands of blueberry (Vaccinium spp.) and/or huckleberry (Gaylussacia spp.) support populations of blueberry maggot, Rhagoletis mendax Curran, in the Great Lakes region. Infestation of commercial blueberries by the blueberry maggot, R. mendax, is a serious problem in many areas where blueberries are grown. In the past 10-20 yr, commercial bighbush blueberry, Vaccinium corymbosum L., production has expanded into places such as southern Ontario and southern Quebec where blueberry maggot had not previously been reported. In the mid-1990s, isolated infestations of commercial highbush blueberry were reported in southern Ontario. Because R. mendax was not considered endemic to that area, it was widely assumed that the pests had come into the fields via movement from exotic localities. Here we present an alternative hypothesis, that the blueberry maggots infesting newly established highbush plantations are derived from native blueberries growing in the vicinity. To test this hypothesis, in 1997-1999, we sampled potential native hosts for R. mendax (Vaccinium spp. and Gaylussacia spp.) from 31 localities in the Great Lakes region, primarily in Michigan and Ontario. R. mendax was reared from fruits of native hosts collected at four sites in Michigan and one site each in Ontario, Indiana, and Ohio. V. corymbosum was the predominant host infested, with infestation of this host observed at five of the seven sites. However, two huckleberry species [Gaylussacia baccata (Wangenheim) K. Koch, and Gaylussacia dumosa (Andersson) Torrey & Gray] had the highest rates of infestation that we observed (25.4 and 17.6%, respectively). These data represent the first published reports of R. mendax infesting native host plants in the Great Lakes region, and support the hypothesis that infestations observed in commercial fields may have originated from infested native host plants.     

Wissadula Proliferation in Jamaica II. Psyllid transmission and antibiotic therapy

Field symptoms of Wissadula proliferation (WP) in Jamaica were reproduced on W. periplocifolia (L.) C. Presl. ex Thwaites test plants, using field-collected or laboratory reared and infected Paracarsidara concolor Crawford. This psyllid naturally is associated with W. periplocifolia in the field. Diseased plants contained phloem-restricted prokaryotes, most of which resembled the phloem-restricted rickettsialike organisms (RLO) known to be associated with a small group of plant diseases. They were bound by a “cell wall” composed of a double unit membrane separated by an electron-lucent layer. A small proportion of the prokaryotes, which were bound by only one recognizable unit membrane and were ill-defined at the periphery, were difficult to distinguish from mycoplasmalike organisms (MLO). Penicillin, applied as a soil drench of 200—400 %mUg/ml caused remission of symptoms of the psyllid-infected test plants 6—17 days after first effective application, with the concomitant disappearance of all of the structures in the resulting new growth. Since MLO are not known to be penicillin-sensitive, it is proposed that the “MLO” were in fact, poorly preserved RLO and it is suggested that RLO may be the aetiological agent of WP. Achromycin also caused symptom remission in WP at a soil drench of 100—400 %mUg/ml, but was generally slightly slower-acting than penicillin, eliciting a response in 12—23 days. Both antibiotics could produce lengthy remissions; neither seemed curative since two penicillin- and two achromycin-treated plants redeveloped symptoms after cessation of treatment. WP was not transmitted by two cicadellids, Protalebra maculata Baker and Scaphytopius fuliginosus Osborn. P. concolor did not transmit disease to test plants of Abutilon hulseanum (Torr. & A. Gray) Torr, ex. Chapm. which was affected by a proliferation disease (Abutilon proliferation), symptomatologically similar to, and which occurred in the same locations, as WP. WP and AP thus may be aetiologically distinct. The putative RLO aetiology of WP provides evidence against Wissadula being an alternate host of the MLO-associated coconut lethal yellowing (CLY) disease in Jamaica, a fact reinforced by negative psyllid transmission tests to CLY-susceptible palms. The results for WP are discussed in relation to other diseases possibly caused by phloem-restricted RLO.     

Studies of Polyclonal Antibodies for the Detection of MLOs Associated with Faba Bean (Vicia faba L.) Using Different ELISA Methods and Dot-blot

Polyclonal antibodies were raised in rabbits against MLO associated with faba bean (Vicia. faba L.) phyllody which exists in the Sudan. Two indirect ELISA methods were able to detect the MLO antigens. In the former, the whole antigen was directly coated onto plates, while in the second, only the F(ab')₂, fragments of the IgG were used to coat the ELISA plates. Higher detectable efficiency was obtained when the F(ab')₂ method was used. Moreover the obtainable antiserum was found to exhibit a high degree of specificity through which the MLO associated with faba bean phyllody in the Sudan, are serologically differentiated from other isolates of MLO existing in the Sudan as well as European MLO isolates maintained at Versailles, and Spiroplasma citri, causal agent of Citrus Stubborn Disease. The positive reactions obtained with this antiserum against MLO phyllody naturally existing in the Sudan on Crotalaria saltiana and some Catharanthus roseus demonstrate that these plants are potential reservoirs of the disease in the Sudan. The same antiserum was used in order to distinguish healthy and diseased plant preparations using the membrane ELISA method (dot-blot).     

Effects of previous cropping and fungicide timing on the development of light leaf spot (Pyrenopeziza brassicae), seed yield and quality of winter oilseed rape (Brassica napus)

Light leaf spot, caused by Pyrenopeziza brassicae, was assessed regularly on double-low cultivars of winter oilseed rape during field experiments at Rothamsted in 1990-91 and 1991-92. Previous cropping and fungicide applications differed; seed yield and seed quality were measured at harvest. In each season, both the initial incidence of light leaf spot and the rate of disease increase were greater in oilseed rape crops sown after rape than those sown after cereals. The incidence of diseases caused by Phoma lingam or Alternaria spp. was also greater in second oilseed rape crops. In 1991-92 there was 42% less rainfall between September and March than in 1990-91, and much less light leaf spot developed. However, P. lingam and Alternaria spp. were more common. Only fungicide application schedules including an autumn spray decreased the incidence of light leaf spot on leaves, stems and pods, as indicated by decreased areas under the disease progress curves (AUDPC) and slower rates of disease increase. Summer sprays decreased incidence and severity of light leaf spot on pods only. In 1990-91, all fungicide treatments which included an autumn spray increased seed and oil yields of cv. Capricorn but only the treatment which included autumn, spring and summer sprays increased yields of cv. Falcon. No treatment increased the yields of cv. Capricorn or cv. Falcon in 1991-92. Fungicide applications decreased glucosinolate concentrations in the seed from a crop of cv. Cobra severely infected by P. brassicae in 1990-91, but did not increase yield.     

Horizontal and vertical distribution of flower thrips in southern highbush and rabbiteye blueberry plantings, with notes on a new sampling method for thrips inside blueberry flowers

The dispersal behavior of flower thrips was studied during two field seasons within blueberry (Vaccinium spp.) plantings in Florida and southern Georgia. A "shake and rinse" technique used to extract thrips from inside the blueberry flowers was not significantly different from the conventional dissecting technique, but the time taken to complete the extraction of thrips was significantly shorter. Overall, the highest concentration of thrips was captured inside the canopy of blueberry bushes. Using a grid of traps to monitor the dispersal of thrips during the blueberry flowering season, we analyzed their dispersion with graphical and analytical methods to determine and describe their distribution within blueberry plantings. Thrips began to form "hot-spots" 5-7 d after bloom initiation. A hot-spot is defined as a large number of thrips concentrated in a small area of the field, whereas the rest of the field has a low population. The behavior of the population inside these hot-spots fit a Gaussian tendency and a regression was conducted to describe this tendency. Green's and Standardized Morisita's indices were used to determine thrips level of aggregation. Results showed significantly aggregated populations of thrips in both years. Formation of hot-spots in blueberry plantings seemed to be random. However, the formation of hot-spots was higher in places where more than seven thrips per day were captured on sticky traps, 5 to 7 d after the bloom begins. With these results, producers will be able to monitor thrips populations and locate and manage hot-spots before they become a more serious a problem on blueberry farms.     

The white-spotted longicorn beetle, <Emphasis Type="Italic">Anoplophora malasiaca</Emphasis> (Coleoptera: Cerambycidae), with a blueberry as host plant,utilizes host chemicals for male orientation

Volatile chemicals from Citrus and Salix host plants evoke orientation behavior in males of the species Anoplophora malasiaca (Thomson) (Coleoptera: Cerambycidae). These chemicals are emitted from wounded branches. We hypothesized that when released, these chemicals may indicate the presence of an individual to other conspecifics. Insects that originate from different host plants may use different plant chemicals from their own host to communicate with conspecifics. To further explore this theory, we investigated this communication system in a population of A. malasiaca from a third host plant, blueberry (Vaccinium spp.). Males from a blueberry host (Vaccinium population) were attracted to the odor of wounded Vaccinium branches when released near a female model in the laboratory, as has been observed in males found on Citrus and Salix host plants. The Vaccinium branch extract that was attractive to the males was separated into six fractions, of which two were active. Three active compounds were subsequently identified: β-caryophyllene and sulfur from the hexane fraction, and (E)-phytol in the weakly polar fraction. The latter two active compounds of Vaccinium branches were different from those found in Citrus and Salix.     

Surveys reveal a complex association of phytoplasmas and viruses with the blueberry stunt disease on Canadian blueberry farms

Surveys for phytoplasmas and viruses were conducted during September 2014 and 2015 on highbush blueberry farms in the Région Montérégie, Quebec. Total DNA and RNA were extracted from blueberry bushes showing blueberry stunt (BBS) symptoms and from symptomless blueberry bushes, and utilised as templates for PCR and RT‐PCR assays, respectively. Phytoplasma DNA was amplified with universal phytoplasma primers that target the 16S rRNA, secA and secY genes from 12 out of 40 (30%) plants tested. Based on 16S rRNA, secA and secY gene sequence identity, phylogenetic clustering, actual and in silico RFLP analyses, phytoplasma strains associated with BBS disease in Quebec were identified as ‘Candidatus Phytoplasma asteris’‐related strains, closely related to the BBS Michigan phytoplasma strain (16SrI‐E). The secY gene sequence‐based single nucleotide polymorphism analysis revealed that one of the BBS phytoplasma strains associated with a leaf marginal yellowing is a secY‐I RFLP variant of the subgroup 16SrI‐E. Two viruses were detected in blueberry bushes. The Blueberry Red Ringspot Virus (BRRV) was found in a single infection in the cultivar Bluecrop with no apparent typical BRRV symptoms. The Tobacco Ringspot Virus (TRSV) was found singly infecting blueberry plants and co‐infecting a BBS phytoplasma‐infected blueberry cv. Bluecrop plant. This is the first report of TRSV in the cv. Bluecrop in Quebec. The Quebec BBS phytoplasma strain was identified in the leafhopper Graphocephala fennahi, which suggests that G. fennahi may be a potential vector for the BBS phytoplasma. The BBS disease shows a complex aetiology and epidemiology; therefore, prompt actions must be developed to support focused BBS integrated management strategies.     

Effects of Snow on Sitka Black-Tailed Deer Browse Availability and Nutritional Carrying Capacity in Southeastern Alaska

ABSTRACT Snow affects the nutritional ecology of northern ungulates during winter through burial of important winter forages. We used nonlinear regression analyses to model snow-burial dynamics of blueberry (Vaccinium spp.) browse biomass, a key winter food item of Sitka black-tailed deer (Odocoileus hemionus sitchensis) in southeastern Alaska, USA. During November 2003—March 2004 we collected data from 546 individually marked twigs located on 100 plants of differing sizes and architectures across a range of snow depths. In general, browse biomass became buried and unavailable to deer at snow depths substantially lower than prewinter twig heights. Plant architecture and plant height were related to the probability of a twig being buried. Probability of twig burial was higher on plants with lateral than on those with erect architectures. Twig height also affected the probability of burial by snow but the relationship was complex. For twigs located on erect plants, probability of burial was greatest for twigs near the bottom and top of the plant due to ground-up burial and bending of flexible apex stems, respectively. We used estimated nonlinear equations to model blueberry browse availability in a simulated upland old-growth habitat patch subject to a range of snow depths. We then compared subsequent estimates of deer winter nutritional carrying capacity for this habitat patch to findings derived using an alternative, simple linear (ground-up) model of winter-browse burial by snow. Comparisons indicated that ground-up models of browse burial overestimated browse availability and nutritional carrying capacity for most snow depths. Our findings demonstrate the importance of applying detailed snow-burial models when characterizing nutritional landscape of northern ungulates during winter.     

Seasonal monitoring of Drosophila suzukii and its non-crop hosts in Wuhu,Eastern China

Drosophila suzukii (Matsumura) (Diptera: Drosophilidae) is a serious pest that prefers fresh fruits and is native to Southeast Asia. In our study, apple cider vinegar bait traps were used to capture and monitor the population dynamics of this native pest in Wuhu City, China, from May/June 2017 to May 2018. The research was conducted at 15 locations in two fruit orchards in Wuhu. Traps caught more adults in general in a Meiling blueberry orchard than in a Xicun mixed orchard, and the highest trap counts occurred near harvest time (October). Females had more mature eggs from September to November, and the number of mature eggs declined thereafter. We found several non-crop hosts, which can provide food and reproductive resources for D. suzukii and are common in forests and field margins. By comparing the number of captured adults in the Meiling and Xicun orchards, we found that blueberry was preferred by D. suzukii among the fruits in our search. Fruit ripening times differed among crops; therefore, fly populations moved between crop and non-crop habitats during the year or had varying population dynamics on different crops in different seasons. The D. suzukii population and the number of mature eggs decreased in summer and winter but increased in spring and autumn. Drosophila suzukii had higher survival rates with blueberry than those with other fruits, and D. suzukii could use four non-crop species growing around the orchards as host plants.