Inoculum dynamics, fruit infection, and development of brown rot in prune orchards in california

ABSTRACT Brown rot, caused by Monilinia fructicola, is a destructive disease of stone fruit in California. Disease management requires information on inoculum dynamics and development of latent and visible fruit infections during the season to help make decisions on timing of fungicide treatments and choice of cultural practices. In this study, the daily spore concentration (ascospores and conidia) of M. fructicola in the air was monitored with spore traps in two prune orchards during the growing seasons in 2001 and 2002. The spore concentrations were low to moderate at early bloom, increased at full bloom, and decreased to the lowest level at the end of bloom. Improper timing of fruit thinning and irrigation in midseason increased spore concentration in the air and fruit infections late in the season. Artificial fruit inoculations were conducted periodically in 10 prune orchards in 2002 and 2004, and incidence of fruit rot at different inoculation dates was assessed. Fruit rot development rate increased linearly with inoculation date during the growing season. Natural blossom and fruit infections were monitored periodically in 10 prune orchards, and incidence of latent fruit infection was determined by using the overnight freezing-incubation technique. Incidence of fruit rot also was assessed 2 weeks before harvest in these orchards. The incidence of latent fruit infection at the pit hardening stage significantly correlated with that at the late stages and with the incidence of fruit rot at harvest.     

Monitoring conidial density of <Emphasis Type="Italic">Monilinia fructigena</Emphasis> in the air in relation to brown rot development in integrated and organic apple orchards

In a three-year Hungarian study, conidial density of Monilinia fructigena in the air determined from mid-May until harvest was related to brown rot disease progress in integrated and organic apple orchards. Conidia of M. fructigena were first trapped in late May in both orchards in all years. Number of conidial density greatly increased after the appearance of first infected fruit, from early July in the organic and from early August in the integrated orchard. Conidial number continuously increased until harvest in both orchards. Final brown rot incidence reached 4.3–6.6% and 19.8–24.5% in the integrated and organic orchards, respectively. Disease incidence showed a significant relationship with corresponding cumulative numbers of trapped conidia both in integrated and organic orchards, and was described by separate three-parameter Gompertz functions for the two orchards. Time series analyses, using autoregressive integrated moving average (ARIMA) models, revealed that the temporal patterns of the number of airborne conidia was similar in all years in both integrated and organic orchards. Conidia caught over a 24-h period showed distinct diurnal periodicity, with peak spore density occurring in the afternoon between 13.00 and 18.00. Percent viability of M. fructigena conidia ranged from 48.8 to 70.1% with lower viability in dry compared to wet days in both orchards and all years. Temperature and relative humidity correlated best with mean hourly conidial catches in both integrated and organic apple orchards in each year. Correlations between aerial spore density and wind speed were significant only in the organic orchard over the 3-year period. Mean hourly rainfall was negatively but poorly correlated with mean hourly conidial catches. Results were compared and discussed with previous observations.     

Quantification of allele E198A in beta-tubulin conferring benzimidazole resistance in Monilinia fructicola using real-time PCR

BACKGROUND: Thiophanate-methyl, a member of the benzimidazole class of fungicides, is used in California to control brown rot of stone fruit caused by Monilinia fructicola (G. Wint.) Honey. The goal of this study was to develop a real-time polymerase chain reaction (PCR) assay as an efficient method to quantify the E198A allele of beta-tubulin that confers benzimidazole resistance. RESULTS: Using the real-time PCR assay, the frequency of allele E198A (FEA) in a population was determined from the quantities of DNA amplified with the E198A allele-specific primer pair HRF/HRR and the M. fructicola-specific primer pair MfF6/MfR6. The average proportions of highly resistant isolates determined with the conventional fungicide sensitivity method were within the range of average FEA values determined with the real-time PCR assay. We also determined the FEAs of M. fructicola populations sampled from 21 stone fruit orchards in California. Only one orchard showed a high FEA over 0.20, seven orchards had values between 0.01 and 0.1, and 13 orchards had values less than 0.01. CONCLUSION: The real-time PCR assay developed in this study provides a potentially useful tool to efficiently quantify benzimidazole resistance for large M. fructicola populations.     

Temporal development and relationship amongst brown rot blossom blight,fruit blight and fruit rot in integrated and organic sour cherry orchards

The aim of this 4‐year study was to characterize temporal development of brown rot blossom blight and fruit blight (caused by Monilinia spp.) and their sporulating areas in sour cherry orchards; and to determine the relationships amongst incidence and sporulating area of blossom blight, fruit blight and fruit rot. The study was performed in integrated and organic orchard blocks on two cultivars (Újfehértói fürtös and Érdi b?term?). On both cultivars, disease progress on flowers and fruits was 2–10 times slower in the integrated than in the organic management system. The peak incidence values were 9 and 31 days after petal fall for blossom blight and fruit blight, respectively. After these dates, no new blight symptoms on flowers and/or fruits appeared and the disease was levelling off. Final blossom blight incidence ranged from 1 to 5% and from 12 to 34%, and fruit rot incidence from 2 to 6% and from 11 to 26% in the integrated and the organic orchards, respectively. The sum of fruit blight incidence ranged from 9 to 22% for the organic system, but was below 5% for the integrated system, while the final sporulating area was 5–16 mm² and <3 mm², respectively. Among the five highest Pearson's correlation coefficients, relationships between blossom blight and early fruit blight stage (r = 0·845, P = 0·0087 integrated; r = 0·901, P = 0·0015 organic), and between sporulating area and fruit rot (r = 0791, P = 0·0199 integrated; r = 0·874, P = 0·0039 organic) were the most significant relationships from an epidemic standpoint as they indicated a connection between different brown rot symptom types.     

单植和混植香梨园梨小食心虫的种群动态

梨小食心虫Grapholitha molesta(Busck)是为害‘库尔勒香梨’的主要害虫。本研究利用性诱剂诱捕器系统调查了不同栽培管理条件、果树种类和用药次数下梨小食心虫各世代的发生动态。结果表明:单植梨园全年成虫有5个高峰期,混植梨园成虫有4个高峰期。单植梨园和混植梨园梨小食心虫种群世代发生量不同,混植梨园中梨小食心虫种群世代重叠严重,发生数量是单植香梨园的4.02倍;单植梨园中管理粗放的河边梨园梨小食心虫发生较重,打药频繁的母本园发生较轻,梨小食心虫成虫第1～第4代峰期延迟8～28 d,属于迁入为害。研究还表明:在混植梨园中梨小食心虫产卵有8个高峰,幼虫孵化期有6个高峰,在世代发展中相邻峰值叠加,形成成虫期4个大峰。因此,研究不同栽培管理条件下梨园梨小食心虫的发生规律有助于对其进行科学的防治。     

Detection and quantification of airborne inoculum of Hymenoscyphus pseudoalbidus using real‐time PCR assays

A method based on real‐time polymerase chain reaction (PCR) and the use of rotating‐arm spore traps was developed for quantifying airborne Hymenoscyphus pseudoalbidus ascospores. The method was sensitive and reproducible, and the collection efficiency was 10% of the spores present in the air. The temporal ascospore dispersal pattern was studied over 3 years by collecting spores every 15 days for a 24 h air‐sampling period during the ash‐growing season. The highest production was detected from the end of June to the beginning of September. The overall ascospore production did not differ significantly among stands within a specific year but there were differences from year to year. There was a positive correlation between air temperature and the number of ascospores trapped, with most of the positive samples being observed at temperatures above 12°C. The vertical profile of ascospore dispersal showed a strong decrease in ascospore density within a height of 3 m, regardless of date of collection. An analysis of the spore traps installed at increasing distances from an infected stand showed that most of the ascospores were deposited downwind within 50 m of the stand. These data are discussed in context of the epidemiology of the disease.     

Variation in rates of spore deposition of Fusarium circinatum, the causal agent of pine pitch canker, over a 12-month-period at two locations in Northern California

Patterns of spore deposition by Fusarium circinatum, the causal agent of pine pitch canker (PPC) of Monterey pine (Pinus radiata) and other conifers, were studied between May 2003 and April 2004 at two sites in Northern California using a novel spore trapping method combined with a real-time polymerase chain reaction (PCR) approach. At each study site, two plots were sampled by placing spore traps at 100 m intervals along transects 600 m in length. The air was sampled continuously by exchanging the spore traps every 2 weeks. The spore deposition rate (DR), ranged from 0 to 1.3 x 10(5) spores m(2). Spores were detected throughout the year, with higher trapping frequencies (TF) during the rainy season (November to April), than during the dry season (May to October). The detection of spores on traps at distances larger than 200 m from any Monterey pine, suggests at least midrange aerial dispersal. Finally, different inoculum loads were associated with trees displaying different levels of disease symptoms, suggesting infectiousness of the pathogen varies as the disease progresses. This study represents one of the first documenting continuous inoculum pressure values over an entire year for a forest pathogen, and provides important epidemiological information that will be invaluable in the development of disease progression models.     

Real-time PCR quantification and spatio-temporal distribution of airborne inoculum of <Emphasis Type="Italic">Puccinia triticina</Emphasis> in Belgium

In order to better understand the epidemiology of Puccinia triticina and the relationship between airborne inoculum and disease severity, a method for quantifying airborne inoculum was developed using volumetric Burkard 7-day spore traps and real-time PCR. The method was applied using a spore trap network from 1 March to 30 June over a 5-year period. At one site, the inoculum was quantified continuously over 3 years, during which it showed a seasonal distribution, with the highest quantities and detection frequencies occurring between May and June. High mean daily quantities (65.8–121.2 spores/day) and detection frequencies (±20 % of days) were also reported after harvest from September to December. In the coldest months of the year, almost no detection was recorded (1–6 % of days). The study results indicate that the absence of inoculum in the air when upper leaves are emerging could be a limiting factor for the risk of epidemics. Mean daily quantities of airborne inoculum (0–131.4 spores/day) were measured from the beginning of stem elongation (GS30) to the flag leaf stage (GS39). These values were well correlated with the disease severity levels measured during grain development. A multiple regression analysis showed that total rainfall in late summer and autumn and mean minimum temperature in winter positively influence spore density between GS30 and GS39 in the following spring (R² = 0.73). This relationship and the patterns of airborne inoculum observed in fields strongly suggest the existence of a ‘green bridge’ phenomenon in Belgium. Our study also showed that the quantification of airborne inoculum or its estimation using a weather-based predictive model could be useful for interpreting disease severity models and avoiding over-estimates of disease risk.     

Detection of airborne inoculum of Leptosphaeria maculans and Pyrenopeziza brassicae in oilseed rape crops by polymerase chain reaction (PCR) assays

The potential use of DNA-based methods for detecting airborne inoculum of Leptosphaeria maculans and Pyrenopeziza brassicae , both damaging pathogens of oilseed rape, was investigated. A method for purifying DNA from spores collected using Hirst-type spore samplers and detecting it using polymerase chain reaction (PCR) assays is described. For both pathogens, the sensitivities of the DNA assays were similar for spore-trap samples and pure spore suspensions. As few as 10 spores of L. maculans or P. brassicae could be detected by PCR and spores of both species could be detected against a background of spores of six other species. The method successfully detected spores of P. brassicae collected using spore traps in oilseed rape crops that were infected with P. brassicae. Leptosphaeria maculans spores were detected using spore traps on open ground close to L. maculans -infected oilseed rape stems. The potential use of PCR detection of airborne inoculum in forecasting the diseases caused by these pathogens is discussed.     

三种果园中实蝇粘虫板对橘小实蝇及天敌的诱杀作用

为减少实蝇粘虫板对天敌的诱杀作用,完善实蝇粘虫板在果园的使用方法,于2018年和2019年分别在湖南省农业科学院园艺研究所橘园、桃园、梨园悬挂实蝇粘虫板,调查其诱杀的橘小实蝇、其他害虫和天敌数量。结果表明,橘园、梨园和桃园共诱杀到15个种、4个科和9个类群,包括靶标害虫橘小实蝇、其他害虫和天敌。3种果园中粘虫板诱杀的昆虫种、科或类群数量有差异,其中梨园中诱杀的昆虫总数最多,为13 653头,其次是桃园,橘园中诱杀的昆虫总数最少。在橘园、梨园和桃园中,橘小实蝇的相对丰富度分别为5.90%、23.45%和21.73%,最早出现时间均为6月;在橘园中橘小实蝇诱杀量高峰期在8月下旬至10月上旬,下半年天敌诱杀量高峰期略滞后于橘小实蝇的诱杀量高峰期,在梨园和桃园中橘小实蝇诱杀量高峰期主要集中在7月中下旬至10月中旬,橘小实蝇诱杀量高峰期与天敌诱杀量高峰期无明显相关性;3种果园中粘虫板诱杀的主要天敌有瓢虫、食蚜蝇、草蛉、寄生蜂,桃园和梨园中诱杀的草蛉较多,橘园中诱杀的瓢虫和寄生蜂较多。应用实蝇粘虫板防控橘小实蝇时,梨园和桃园应从6月上旬开始悬挂,橘园应从8月上旬开始悬挂,先少量悬挂,根据诱杀橘小实蝇数量,再逐渐增加粘虫板。     

Using real-time PCR to survey frequency of azoxystrobin-resistant allele G143A in Alternaria populations from almond and pistachio orchards in California

Alternaria spp. cause leaf spot of almond and Alternaria late blight of pistachio in California, and azoxystrobin is a strobilurin fungicide that has been registered for the control of these diseases. To date, only a single point mutation of G143A in cytochrome b resulting to azoxystrobin resistance in Alternaria spp. was found in California. Based on this single point mutation, a real-time PCR assay was developed to quantify the frequency of the resistant allele G143A (FA) in pathogen samples taken from orchards. Forty-one almond and pistachio orchards were arbitrarily selected in eight counties of California. Fifty leaf lesions caused by Alternaria spp. per orchard were cut to extract the fungal DNA for a real-time PCR assay to determine the FA. About 88% of 41 surveyed orchards had Alternaria spp. with FA > 0.90, while six pistachio orchards showed a FA < 0.90. Therefore, azoxystrobin-resistant Alternaria populations are predominant in almond and pistachio orchards in California, and sprays of azoxystrobin to control Alternaria diseases are not recommended in these orchards. This study shows a potential use of a real-time PCR assay to efficiently quantify the frequency of azoxystrobin-resistant Alternaria spp. from large number of samples.     

黄色黏虫板在3种果园对蚜虫及其天敌的诱集作用

为减少黄色黏虫板(简称黄板)对果园害虫天敌的影响,明确黄板在果园中的使用方法,于2014年5月4日至9月30日在山西省太谷县的苹果、梨、桃园中进行了黄板诱集蚜虫及其天敌的动态调查。结果表明:在3种果园黄板可以诱集8目32科的昆虫,主要类群为蚜虫、叶蝉、瓢虫、食蚜蝇、草蛉和蚜茧蜂等。在苹果园和桃园中诱蚜量呈双峰谷线状,在梨园中呈三峰状;各果园寄生性天敌的数量变化趋势与蚜虫一致且有跟随效应,但苹果园和梨园诱集的捕食性天敌均在8月下旬至8月底出现高峰期,而桃园中捕食性天敌水平一直较高。3个果园在花期至幼果期即5月4日至6月22日益害比最小,苹果园仅为1:202.8,而在其它时段的益害比均大于1:150,甚至最高可达1:19.4,表明在果园中使用黄板的害处大于益处,建议在果园中慎用黄板诱蚜。     

Conidial density of <Emphasis Type="Italic">Monilinia</Emphasis> spp. on peach fruit surfaces in relation to the incidences of latent infections and brown rot

To evaluate the effect of conidial density of Monilinia spp. on the fruit surface on the incidence of latent infection and brown rot in peaches, eleven field surveys were performed in commercial orchards located in Cataluña, Spain over four growing seasons from 2002 to 2005, and nine surveys were conducted to determine the sources of overwintered Monilinia spp. inoculum. There was a significant positive relationship (r?=?0.69) between the numbers of conidia of Monilinia spp. on the fruit surface and the incidence of latent infections, but not with brown rot at harvest. Although mummified fruit, twigs and pits have been identified as being able to carry the pathogen from year to year in peaches grown in Spanish orchards, no relationships between any of these sources and the numbers of conidia on the fruit surface, or incidence of latent infection or brown rot were found. The effect of temperature (T), solar radiation (SR), rainfall (R) and wind speed (WS) on the area under the number of conidia of Monilinia spp. curve (AUncC) on peach surfaces was analysed. Regression analysis revealed that T, SR, R, and WS could account for 99% of the total variation in the area of the AUncC on peach surfaces. Thus, in order to reduce the incidence of latent infection and brown rot it is essential not only to remove the sources of primary inoculum but also to reduce the number of Monilinia spp. conidia on the fruit surface. Furthermore, the sources of airborne conidia of Monilinia spp. should be taken into consideration in disease management programmes in Spain.     

Relationship between the incidence of latent infections caused by <Emphasis Type="Italic">Monilinia</Emphasis> spp<Emphasis Type="Italic">.</Emphasis> and the incidence of brown rot of peach fruit: factors affecting latent infection

Five field experiments were performed in commercial orchards located in Lleida (Spain) over three growing seasons, 2000–2002, in order to estimate the relationship between the incidence of latent infection caused by Monilinia spp. in peaches and the incidence of post-harvest brown rot. No latent infection was recorded at popcorn and the maximum incidence occurred pre-harvest; in some orchards a second peak was detected during the pit hardening period. Monilinia laxa is the most prevalent species isolated from peaches with brown rot. There was a positive correlation between the incidence of latent infection and that of post-harvest brown rot. The average incidence of latent infection during the crop season explained 55% of the total variation in the incidence of post-harvest brown rot. The effect of temperature (T) and duration of wetness (W) on the incidence of latent infection in peach and nectarine orchards was analysed using multiple regression. The regression analysis indicated that T and W jointly explained 83% of the total variation in the incidence of latent infection. The model predicts no latent infections when T < 8°C, and >22 h wetness are required when T = 8°C but only 5 h at 25°C are necessary for latent infection to occur. The incidence of brown rot and latent infection of peaches caused by M. laxa under controlled experimental conditions were also affected by T and W, as well as by fruit maturity and inoculum concentration. Latent infections were produced in fruit when T was not suitable for the development of brown rot symptoms. In these experiments more than 4–5 h of daily wetness were required after embryo growth in fruit sprayed to run-off with an inoculum concentration higher than 10⁴ conidia ml⁻¹ of M. laxa for brown rot and latent infections to develop. The fitted model obtained from the field data was able to predict the observed data obtained under controlled environmental conditions.     

Temporal dynamics of brown rot in different apple management systems and importance of dropped fruit for disease development

ABSTRACT Epidemic development of brown rot, caused by Monilinia fructigena, was monitored in integrated and organic apple orchards at two locations in eastern Hungary between 2002 and 2005 on three cultivars with early, midseason, and late ripening periods. Disease incidence and severity measures were affected significantly (P < 0.05) by management system (organic versus integrated) and cultivar, but there was no significant management system-cultivar interaction. Epidemics started 2 to 4 weeks earlier in organic orchards and on the early cv. Prima compared with integrated orchards and the late cv. Mutsu. Disease intensity increased markedly in the final 3 to 5 weeks before harvest and was considerably lower in integrated than in organic orchards. Final brown rot incidence on fruit in the tree was correlated with incidence on dropped fruit on the orchard floor (r > 0.75, P < 0.05), whereby the lag period from the appearance of the first symptomatic fruit on the ground to the occurrence of the first symptomatic fruit in the tree ranged from 2 weeks to 2 months, depending on the cultivar. The inflection point of the disease progress curve was attained first by fruit on the ground, followed successively by fruit in the lower, middle, and upper thirds of the tree canopy. This may indicate that dropped fruit that became infected early provided a source of inoculum for subsequent epidemics by serving as a bridge between sporulation from overwintered fruit mummies in the spring and the first fruit with sporulating lesions in the tree in midsummer. Removal of dropped fruit from the orchard floor resulted in a significantly lower disease incidence on fruit in the tree on all cultivars; thus, drop-removal may be useful as a brown rot management practice in apple orchards.     

梨小食心虫在桃树和核桃间转移规律初步研究

为了掌握梨小食心虫Grapholita molesta在新疆和田县桃园和核桃园间的转移为害和种群动态变化规律, 以期确定核桃园内梨小食心虫的最佳防治时间, 同时在桃园和核桃园设立监测点, 通过对梨小食心虫在桃园和核桃园间的发生动态监测以及在核桃园内产卵情况和蛀果率调查, 明确了梨小食心虫在桃园和核桃园间的转移规律。研究发现梨小食心虫在和田县桃园1年发生5代, 越冬代成虫于3月下旬开始出现, 各代高峰期分别在4月上旬、5月中旬、6月下旬至7月上旬、7月下旬至8月上旬、9月上旬, 以第1代和第2代发生为害严重, 具有世代重叠现象。梨小食心虫在核桃园1年发生2代, 成虫产卵于核桃果实和叶片, 主要以幼虫为害果实。于6月下旬开始从桃园向核桃园转移, 8月下旬又从核桃园转移至桃园, 具有明显的寄主转移规律。7月初为核桃园内梨小食心虫的防治关键期。     

Monitoring of plant and airborne inoculum of Sclerotinia sclerotiorum in spring oilseed rape using real‐time PCR

Sclerotinia stem rot of spring oilseed rape (Brassica napus) is caused by Sclerotinia sclerotiorum. In Sweden, the disease leads to severe crop damage that varies from year to year. A real‐time PCR assay was developed and used to determine the incidence of S. sclerotiorum DNA on petals and leaves of spring oilseed rape as well as in air samples, with the aim of finding tools to improve precision in disease risk assessment. Five field experiments were conducted from 2008 to 2010 to detect and study pathogen development. Assessments of stem rot showed significant differences between experimental sites. The real‐time PCR assay proved fast and sensitive and the relationship between percentage of infected petals determined using a conventional agar test and the PCR assay was linear (R² > 0·76). There were significant differences in S. sclerotiorum incidence at different stages of flowering. The incidence of S. sclerotiorum DNA on the leaves varied (0–100%), with significantly higher incidence on leaves at lower levels. In one field experiment, S. sclerotiorum DNA was not detected on petals during flowering, whereas the pathogen was detected on leaves, with a corresponding stem rot incidence of 7%. The amount of S. sclerotiorum DNA in sampled air revealed that spore release did not coincide with flowering on that experimental site. Thus, using a real‐time PCR assay to determine the incidence of S. sclerotiorum on oilseed rape leaves, rather than on petals, could potentially improve disease risk assessment.     

冬枣园绿盲蝽绿色防控技术体系构建与示范

在山西临猗进行了枣园绿盲蝽Apolygus lucorum(Meyer-Dür)绿色防控技术的研究和示范。组建"冬剪残桩、寄生蜂释放、性诱剂诱捕、生物制剂喷施"为主要措施的枣园绿盲蝽绿色防控技术体系。结果表明,人工大量释放红颈常室茧蜂Peristenus spretus Chen et van Achterberg、绿盲蝽性诱剂等技术后,冬枣幼果(疏果前)和果实(疏果后)受害率在绿色防控园分别为14.4%和4.2%,与农户常规防治园的差异不显著;红颈常室茧蜂对绿盲蝽若虫的平均寄生率为37.5%,显著高于农户常规防治园的6.2%;每公顷枣园总计诱集到30 749头绿盲蝽成虫,平均每个诱捕器能诱捕到绿盲蝽成虫(683.3±23.1)头。6-8月绿色防控园绿盲蝽的数量(5.05±0.86)头/百枝,显著低于农户常规防治园(12.71±2.22)头/百枝。绿色防控技术完全替代化学防治,有效控制了枣园绿盲蝽的种群发生与为害。     

Spatial and temporal increase of eastern filbert blight in European hazelnut orchards in the pacific northwest

ABSTRACT Since its first detection in southwest Washington state 30 years ago, eastern filbert blight, caused by Anisogramma anomala, has spread slowly southward ( approximately 2 km/year) into the Willamette Valley of Oregon, an important hazelnut production region. Experiments were conducted to measure gradients of disease spread, rates of disease increase as affected by distance from an inoculum source and variation in host plant resistance, and dispersal of ascospores of A. anomala from diseased orchards. In each of 3 years, 1-year-old hazelnut trees placed from 0 to 150 m north of diseased orchards were infected uniformly and slopes of disease gradients were not significantly different from zero. In 1 year when trees also were placed south of an orchard, the disease gradient was significant (P < 0.05), with disease incidence high at the edge of the orchard and few trees infected at 10 m south of the orchard. Disease gradients were shallower and the magnitude of the area under the disease progress curve (AUDPC) greater in 0.1-ha mini-orchards of highly susceptible cv. Ennis than in mini-orchards of moderately susceptible cvs. Barcelona or Casina. Lower AUDPC values were observed in mini-orchards of Barcelona interplanted with a moderately resistant pollenizer Hall's Giant compared with the highly susceptible pollenizer Daviana. Fungicides applied biweekly starting at bud break reduced AUDPC values in Ennis mini-orchards to values observed in Barcelona and Casina mini-orchards. Data from aspirated spore samplers placed on towers adjacent to severely diseased hazelnut orchards indicated that spores of A. anomala dispersed horizontally and vertically away from the canopy during periods of extended branch wetness and, thus, show potential to be transported long distances in wind currents. Weather patterns in the Pacific Northwest may account for the relatively slow, southward spread of eastern filbert blight within Oregon's Willamette Valley. Of 196 precipitation events greater than 10 h in duration recorded from 1974 to 1995, conditions most favorable for ascospores discharge, periods with wind from the north were rare, representing <6% of total hours.     

桃小食心虫成虫种群动态监测与防治指标

为明确桃小食心虫Carposina sasakii Matsumura成虫的种群动态变化,2002—2014年在陕西省礼泉县当地具有代表性的苹果园中,采用性诱剂诱捕器对桃小食心虫成虫的种群动态进行系统监测,并于2010年和2011年的7—8月桃小食心虫成虫盛发期,系统调查了成虫发生量与苹果着卵量的关系,建立基于性诱剂监测的桃小食心虫成虫防治指标。结果显示,苹果园桃小食心虫成虫的种群动态、始见期和终见期在年度之间差异很大,每年主要集中在6—8月发生;桃小食心虫成虫每年出现多次无规律的高峰,但第1代成虫高峰期发生的早晚与越冬代成虫高峰期出现的早晚有密切联系,即越冬代成虫高峰期出现早,则第1代成虫高峰期出现也就相对较早,且越冬代成虫发生量明显多于第1代成虫。性诱剂诱捕的成虫与卵果率之间呈极显著的对数关系,当以卵果率1%或2%为防治指标时,性诱剂诱捕器诱蛾量为8.3头/诱捕器·日或30.0头/诱捕器·日。