Monitoring the appearance and possibility for prevention of the apple sawfly in Croatia

The apple sawfly Hoplocampa testudinea Klug has recently become a widespread pest in Croatian apple orchards. It causes severe damage in the blooming period due to the fact that infested fruit fall off.This article shows results collected over three years of field research on trap catches of sawflies, the period of laying eggs, the appearance of larvae and detection of damage. In the climate of northwestern Croatia, adult sawfly appear in April during the blooming period of the early apple variety of Idared.By monitoring temperatures from January 1, adults were detected when the thermal constant reached 210 day-degrees. Our observations showed that the larvae emerged when the sum of thermal constants reached ca. 110 day-degrees.The investigation of effective control strategies with insecticides showed high efficacy of thiametoxam (Actara), imidacloprid (Confidor), thiacloprid (Calypso) and betacyfluthrin + oxydemeton-methyl (Enduro) and lower efficacy of phosalone (Zolone), chlorpyrifos-methyl (Reldan), and lambda cyhalothrin (Karate).     

Een interessante waarneming over het schadelijk optreden van de zuringbladwesp (Ametastegia glabrata Fall.)

Summary The apple-crop from one part of a bush-orchard with a cover crop of vetch was seriously damaged by the larvae ofAmetastegia glabrata Fall. In the other part of the same orchard planted with an under-crop of potatoes there was no damage at all. The difference was attributed to the presence in the vetch of the weedPolygonum Convolvulus L., a known host-plant of the sawfly larvae. This weed, which climbed into the trees, was absent from that part of the orchard where the potatoes were grown. An experiment is planned with different greenmanuring plants in the infested orchard to investigate their effects on the development of the weed and consequently on the damage by the sawfly larvae.     

A new scab‐like disease on apple caused by the formerly saprotrophic fungus Venturia asperata

Atypical scab‐like symptoms were reported for the first time in 2007 in the south of France on fruits of apple cultivars carrying the Rvi6 (=Vf) major resistance gene to Venturia inaequalis. With microscopic observations, nucleotide sequence data and pathological tests, it was shown that the causal agent was Venturia asperata. Scanning electron microscopy was used to compare its infection process and conidiogenesis to those of Venturia inaequalis on apple and Venturia pirina on pear. Venturia asperata produced fewer hyphae and fewer spores than the two other Venturia species, and resulted in weaker symptoms. This fungal species was previously described as a saprotroph on apple leaf litter. This is the first report of damage on apple fruits caused by V. asperata. Changes in host and cultural practices may have created a new context favourable for the emergence of this pathogen. It was also detected on symptomless leaves and on overwintered leaves on the ground. Pseudothecia developed on overwintered leaves and released ascospores over a 2‐month period from the end of March until the end of May, suggesting that the fungus is able to survive from season to season. However, it is not yet known if this new disease will establish over coming years and become an emergent disease.     

Studies on the apple fruit moth,Argyresthia conjugella Zeller (Yponomeutidae: Lepidoptera): Identification,distribution and extent of damage in India

Abstract

A fruit‐damaging insect on apple in the Kinnaur district of Himachal Pradesh has been identified as the apple fruit moth/miner, Argyresthia conjugella Zeller, a common pest of apple in Asian, European and American countries. It seems to be native to India, where its primary host, the sorb tree, Sorbus aucuparis Linn. is present. Studies on the distribution and extent of damage during 1983 and 1984 revealed that the pest was distributed in the Kinnaur district at altitude between 2445 to 2900 m and in yearly isotherms of 0 to 10° C. The damage varied from zero to above 50%. Its spread to other apple growing areas of the state is unlikely due to unsuitable agroclimatic conditions.     

Alternative inoculum sources for fire blight: the potential role of fruit mummies and non‐host plants

Fire blight is the most damaging bacterial disease in apple production worldwide. Cankers and symptomless infected shoots are known as sites for the overwintering of Erwinia amylovora, subsequently providing primary inoculum for infection in the spring. In the present work, further potential sources of inoculum were investigated. Real‐time PCR assays covering a 3‐year‐period classified 19·9% of samples taken from fruit mummies as positive. Bacterial abundance in fruit mummies during autumn, winter and spring was up to 10⁹ cells per gram of tissue and correlated well with later infection rates of blossoms. Blossoms of non‐host plants growing close to infected trees were also shown to be colonized by E. amylovora and to enable epiphytic survival and propagation of bacteria. The results indicate a potential role of fruit mummies and buds in overwintering and as a source of primary inoculum for dissemination of the pathogen early in the growing season. Non‐host blossoms may also serve as an inoculum source in the build‐up of the pathogen population. Both aspects may contribute significantly to the epidemiology of E. amylovora. The significance of infected rootstocks as an inoculum source is also discussed. Fruit mummies might be used to determine pathogen pressure in an orchard before the beginning of the blooming period.     

Effect of composted manure plus chemical fertilizer application on aridity response and productivity of apple trees on the loess plateau,China

Soil degradation and aridity due to long-term unbalanced fertilization and scarce precipitation limit the productivity of apple trees in the Loess Plateau of China. The aim of the present study was to investigate the effects of composted manure (CM) plus chemical fertilizer (CF) applications on the aridity response and yield of apple trees. Five treatments [CF (C), CF plus 5/10?kg?CM I per tree (CM₁-L/H), and CF plus 5/10?kg?CM II per tree (CM₂-L/H)] were applied in a 10-year-old Red Fuji apple (Malus domestica Borkh.) orchard over a 4-year study period. The application of CM plus CF increased soil organic carbon, decreased soil bulk density, and optimized porosity. Low (5?kg per tree; CM_L) and high (10?kg per tree; CM_H) CM application rates respectively increased soil water storage in the 20–60?cm layer by 1.4% and 4.8%, increased available soil water content in the 0–100?cm soil layer by 4.1%–44.8% and 10.4%–60.2%, elevated the water content of apple leaves (w%) by 1.3% and 3.7%, improved leaf potential by 15.9% and 30.0%, and decreased proline content by 16.1% and 28.5%. Thus, CM application decreased damage due to aridity and enhanced the photosynthetic capacity of apple trees, ultimately elevating apple yield by 8.8% and 13.3% under CM_L and CM_H. The application of CM plus CF is an effective fertilization strategy for mitigating aridity stress and improving apple yield in the Loess Plateau.     

干旱胁迫对3种苹果砧木叶片光合、叶绿体超微结构和抗氧化系统的影响

以新疆野苹果（Malus sieversii Roem.（XJ））、垂丝海棠（Malus halliana Koehne（CS））和山定子（Malus baccata Borkh.（SDZ））3种一年生苹果砧木实生苗为材料,采用盆栽控水的方法设置正常供水（75%~80% RWC）和干旱胁迫（45%~50% RWC）2种水分处理,研究干旱胁迫下叶片光合特性、叶绿体超微结构、丙二醛（MDA）含量、超氧阴离子（O^—[KG-1][JX*3]·[JX-*3]₂）产生速率以及抗氧化酶活性的变化规律,并利用主成分分析（PCA）对3种砧木进行抗旱性综合评价。结果表明：干旱胁迫抑制了3种苹果砧木的光合作用,但干旱胁迫下CS的净光合速率（Pn）、气孔导度（Gs）、蒸腾速率（Tr）、PSII最大光能转化效率（Fv/Fm）、潜在光化学活性（Fv/Fo）及光化学猝灭系数（qP）的降幅均显著小于其他两种砧木,胞间CO₂浓度（Ci）和非光化学猝灭系数（NPQ）的增幅显著高于其他两种砧木;干旱胁迫下,3种砧木超微结构受到不同程度的伤害,其中CS叶片的超微结构损伤较小,能较好地保持细胞结构的完整性;干旱胁迫下3种砧木的SOD和CAT活性先升高后降低,POD活性逐渐增加至21 d趋于稳定,MDA含量和O^—[KG-1][JX*3]·[JX-*3]₂产生速率持续升高。PCA结果显示：2个主成分的方差贡献率达到98.502%,干旱胁迫下CS的综合得分最高。因此,干旱胁迫下,垂丝海棠能保持叶绿体结构的完整性,激活抗氧化酶系统,清除氧化产物而保持较高的光合能力。     

Toxicity of the herbicide glufosinate-ammonium to Tetranychus urticae (Acari: Tetranychidae) under laboratory and field conditions

The toxicity of herbicides widely used in apple orchards to the two-spotted spider mite (Tetranychus urticae) was evaluated in laboratory and field studies. In a laboratory study with susceptible T. urticae, glufosinate-ammonium was highly effective against larvae, protonymphs and adults, but non-toxic to eggs. Its efficacy was much greater than that of the commonly used acaricide azocyclotin. The immatures died within 24 h after treatment, suggesting that the nymphicidal action may be attributable to a direct effect rather than an inhibitory action of chitin synthesis. Glufosinate-ammonium showed a positive temperature coefficient of toxicity against T. urticae adults at six temperatures from 10 to 32°C, being more toxic at higher temperatures. Very low levels of resistance to the herbicide were observed in the seven field-collected T. urticae populations resistant to various acaricides. Treatment with glufosinate-ammonium did not cause a repellent response from either adults or immature stages of T. urticae. Paraquat dichloride and glyphosate were ineffective against all stages of T. urticae. In a field study of a population of T. urticae, glufosinate-ammonium when sprayed to weeds caused significant decrease in T. urticae population densities in apple trees for nine weeks after treatment, as compared with the control. Thereafter, a single application of standard acaricides to apple foliage greatly reduced population densities, although there was no difference in the densities between the glufosinate-ammonium-treated and control plots. Based upon laboratory and field data, two single treatments with glufosinate-ammonium to weeds in May and a selective acaricide to apple trees in July may be used to prevent damage by T. urticae. ©1997 SCI     

绿柳突瓣叶蜂生物学及防治

绿柳突瓣叶蜂(Nematus ruyanus Wei)是发生在甘肃天水柳树上的一种新害虫。严重危害旱柳、垂柳、金丝柳等多种柳树,1年发生6代,非越冬茧结于叶背,越冬茧结于1-5 cm表土中,以预蛹在越冬茧内越冬。幼虫食叶危害,每年3月下旬至10月下旬是该虫的猖獗危害期。用25%灭幼脲,1.8%阿维菌素乳油,40%氧乐果乳油2000倍液防治3龄前幼虫防效达95%以上;用2.5%溴氰菊酯乳油,3%高渗苯氧威乳油4000倍液喷冠防治3龄后大幼虫防效可达90%以上。     

Protective Effects Against Erwinia amylovora Induced by hrp Mutants in the Whole Plant are Only Partially Mimicked in Cultivated Cells

A virulent strain of Erwinia amylovora, the causal agent of fire blight of Maloideae, and two of its non-virulent hrp mutants (a secretory and a regulatory mutant) were inoculated into apple cell suspensions either alone or in mixed inoculations. In single inoculations, death of 4- to 5-day-old apple cells occurred only when the concentration of the virulent strain of E. amylovora reached a threshold inoculum concentration of 10⁴CFUml^–1, while high concentrations of the hrp mutants were unable to kill apple cells. When mixed inoculated with the virulent parental strain, both hrp mutants protected apple cells from death caused by the virulent strain. The protective effect was associated with a decrease in the population level of the virulent strain and it was dependent on the non-virulent to virulent inoculum concentration suggesting a competition between the non-virulent mutant and the virulent strain. However, no differential protective ability between the two types of mutants could be noticed, contrary to previous results obtained with apple seedlings or apple flowers in which the regulatory mutant was significantly more effective than the secretory mutant. In conclusion, inoculation of apple cell cultures with E. amylovora does not seem to be a model suitable for investigating mechanisms leading to protection.     

Some studies on the systemic activity of the thiophanate fungicides in plants

Three closely related fungicides, thiophanate (NF 35), thiophanate methyl (NF 44) and NF 48 have been found to be active against a wide range of diseases including the powdery mildews of apple, cucumber and barley; apple and pear scab and grey mould of soft fruit. This paper deals with the preliminary experiments to compare their relative mobilities and biological persistence in crop plants, using the powdery mildews as indicator infections. NF 44 and NF 48 in particular showed a high degree of systemic activity by root uptake and persistence of action against barley and cucumber mildew but very little systemic activity against apple mildew on potted rootstocks. They have also displayed trans-laminar and localised movement towards the leaf apex in sprayed cucumber and barley leaves but movement was not so marked in sprayed apple leaves. NF 48 was also active as a seed dressing against loose smut of barley.     

Pesticide use,arthropod fauna and fruit damage in apple orchards in a Nordic climate

BACKGROUND

Integrated pest management (IPM) has a long history in fruit production and has become even more important with the implementation of the EU directive 2009/128/EC making IPM mandatory. In this study, we surveyed 30 apple orchards in Norway for 3 years (2016–2018) monitoring pest- and beneficial arthropods as well as evaluating fruit damage. We obtained growers’ diaries of pest management and used these data to study positive and negative correlations of pesticides with the different arthropod groups and damage due to pests.

RESULTS

IPM level had no significant effects on damage of harvested apples by arthropod pests. Furthermore, damage by arthropods was mainly caused by lepidopteran larvae, tortricids being especially important. The number of insecticide applications varied between 0 and 3 per year (mean 0.8), while acaricide applications varied between 0 and 1 per year (mean 0.06). Applications were often based on forecasts of important pest species such as the apple fruit moth (Argyresthia conjugella). Narrow-spectrum insecticides were commonly used against aphids and lepidopteran larvae, although broad-spectrum neonicotinoid (thiacloprid) insecticides were also applied. Anthocorid bugs and phytoseiid mites were the most abundant natural enemies in the studied orchards. However, we found large differences in abundance of various “beneficials” (e.g., lacewings, anthocorids, parasitic wasps) between eastern and western Norway. A low level of IPM negatively affected the abundance of spiders.

CONCLUSION

Lepidoptera was found to be the most important pest group in apple orchards. Insecticide use was overall low, but number of spray applications and use of broad-spectrum insecticides varied between growers and regions. IPM level did not predict the level of fruit damage by insects nor the abundance of important pests or most beneficial groups in an apple orchard. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.     

Role of Cylindrosporium-type conidia of Mycosphaerella pomi (Pass.) Lindau: cause of Brooks fruit spot of apple, as an infection source in apple orchards

Ascospores of Mycosphaerella pomi, the pathogen of Brooks fruit spot of apple, were produced in pseudothecia on previously infected and overwintered apple leaves from late April through early August in Aomori Prefecture, Japan. In June 2003, the ascospores were germinating and producing Cylindrosporium-type conidia on apple fruit and leaf surfaces in an orchard. After ascospores were sprayed on apple leaves, Cylindrosporium-type conidia developed on the leaf surfaces. Such Cylindrosporium-type conidia caused typical symptoms of Brooks fruit spot on apple trees after inoculations. These results suggested that the Cylindrosporium-type conidia also serve as an infection source, in addition to the ascospores, for Brooks fruit spot in apple orchards.     

Dynamics of post‐harvest pathogens Neofabraea spp. and Cadophora spp. in plant residues in Dutch apple and pear orchards

Post‐harvest diseases of apple and pear cause significant losses. Neofabraea spp. and Cadophora spp. infect fruits during the growing season and remain quiescent until disease symptoms occur after several months in storage. Epidemiological knowledge of these diseases is limited. TaqMan PCR assays were developed for quantification of N. alba, N. perennans, C. malorum and C. luteo‐olivacea in environmental samples. Various host tissues, dead weeds and grasses, soil and applied composts were collected in 10 apple and 10 pear orchards in May 2012. Neofabraea alba was detected in 73% of samples from apple orchards and 48% from pear orchards. Neofabraea perennans was present in a few samples. Cadophora luteo‐olivacea was detected in 99% of samples from apple orchards and 93% from pear orchards, whilst C. malorum was not detected in any sample. In apple orchards, highest concentrations of N. alba were found in apple leaf litter, cankers and mummies, and of C. luteo‐olivacea in apple leaf litter, mummies and dead weeds. In pear orchards, N. alba and C. luteo‐olivacea were found in highest concentrations in pear leaf litter and in dead weeds. Substrate colonization varied considerably between orchards. The temporal dynamics of pathogens was followed in four apple orchards and four pear orchards. In apple orchards the colonization by pathogens decreased from April until August and increased from September until December. This pattern was less pronounced in pear. Knowledge on population dynamics is essential for the development of preventative measures to reduce risks of fruit infections during the growing season.     

Outbreaks and Damage by the Field Vole,Microtus agrestis (L.), since World War II in Europe1

The field vole, Microtus agrestis (L.), is a major pest in horticulture and forestry in all Scandinavian countries, and an important forestry pest in certain regions in central Europe. The most common type of damage is girdling trunks of cultivated trees, usually under the snow cover. In horticulture, the apple tree is the commonest subject of injury, while, in forestry, several deciduous and conifer species are attacked. In Finland and Norway, the garden industry has suffered most, while, in Sweden, the problems are predominantly in forestry. In central Europe, M. agrestis is a forestry pest only. Summation of all losses due to the field vole since World War II amounted to somewhere between 50 and 100 million US Populations of M. agrestis normally undergo cyclic fluctuations. However, comparison of the periodicity of outbreaks in different areas reveals variations, 3 to 4-year intervals dominating in the Scandinavian countries, while the interval in central Europe is generally somewhat shorter. No overall synchrony exists over the geographical range of the species. Present knowledge concerning the demography and habitat dynamics of M. agrestis is briefly reviewed. Current possibilities for preventing damage by M. agrestis are much dependent on the individual value of the potential subjects of injury. High value stands, like apple gardens or seed orchards of forest trees, can be protected by means of mechanical guards. However, current means of combating damage in forest plantations are badly limited. Surface spraying with toxaphene and poison baits is practised in central Europe, while, in the Scandinavian countries (except Denmark), no chemical means are used today. Development of new compounds to be used as surface sprays, or specific baits for M. agrestis, is urgently needed. Research on bio-control methods should also be intensified.     

Attacks of Neodiprion sertifer on Pinus contorta1

Neodiprion sertifer, the European pine sawfly, has in the past attacked mainly Pinus sylvestris. Afforestation of areas in northern Scotland with P. contorta in the early 1960s and subsequently has led to widespread outbreaks of N. sertifer on this species, attacks being most severe on trees 5 to 12 years old. The most serious damage is removal of the 1-year and older needles. Complete loss of this foliage often occurs at the peak of an outbreak. Also, at high population densities, larvae may consume patches of bark, leading to weakening and stem breakage in high winds. Field studies comparing protected (undefoliated) randomized plots of P. contorta with defoliated plots in Shin Forest (Sutherland) were carried out over the 1982–1983 growing seasons. Comparison of leaf/sapwood basal areas in undefoliated and defoliated plots indicated losses of up to 27% of total leaf area, both removal of old foliage by larvae and a reduction in current-year foliage being involved. Further, there were significant reductions in sapwood basal area and height increment between control plots and some of the defoliated plots. The impact of such defoliation is to prolong the rotation by approximately 2 years.     

Implementing wood ants in biocontrol: Suppression of apple scab and reduced aphid tending

BACKGROUND

Ants can become efficient biocontrol agents in plantation crops as they prey on pest insects and may inhibit plant pathogens by excreting broad-spectrum antibiotics. However, ants also provide a disservice by augmenting attended honeydew producing homopterans. This disservice may be avoided by offering ants artificial sugar as an alternative to honeydew. Here we tested the effect of artificial sugar feeding on aphid abundance in an apple plot with wood ants (Formica polyctena, Förster), and tested the effect of ant presence on apple scab (Venturia inaequalis, Cooke) disease incidence.

RESULTS

Over a 2-year period, sugar feeding eliminated ant-attended aphid populations on the apple trees. Furthermore, scab symptoms on both leaves and apples were reduced considerably on ant trees compared to control trees without ants. The presence of ants on the trees reduced leaf scab infections by 34%, whereas spot numbers on fruits were reduced by between 53 and 81%, depending on apple variety. In addition, the spots were 56% smaller.

CONCLUSION

This shows that problems with wood ant-attended homopterans can be solved and that ants can control both insect pests and plant pathogens. We therefore propose wood ants as a new effective biocontrol agent suitable for implementation in apple orchards and possibly other plantation crops. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.     

Multiple copies of <Emphasis Type="Italic">AMT2</Emphasis> are prerequisite for the apple pathotype of <Emphasis Type="Italic">Alternaria alternata</Emphasis> to produce enough AM-toxin for expressing pathogenicity

The apple pathotype of Alternaria alternata produces the cyclic depsipeptide AM-toxin and causes Alternaria blotch of apple. Previously, we cloned AMT2 from the apple pathotype as an orthologue of AFTS1, which is required for biosynthesis of the decatrienoic acid ester AF-toxin I of the strawberry pathotype. These genes were predicted to encode aldo-keto reductases involved in biosynthesis of a common precursor, 2-hydroxy-isovaleric acid, of AF-toxin I and AM-toxin. In this study, we analyzed the function of AMT2 in AM-toxin biosynthesis in the apple pathotype. DNA gel blot analysis of the apple pathotype strain IFO8984 with five restriction enzymes suggested that this strain has a single copy of AMT2 in the genome. However, gene disruption experiments showed that IFO8984 probably has three copies of AMT2. We made mutants having one or two copies of AMT2 disrupted. The single-copy mutants produced less AM-toxin than did the wild type and were still as pathogenic as the wild type. The two-copy mutants produced trace or undetectable amounts of AM-toxin and were markedly reduced in pathogenicity. Thus, AMT2 was verified to be required for AM-toxin biosynthesis and hence pathogenicity. The fact that the two-copy mutants have a remaining copy of AMT2 suggests that multiple copies of AMT2 are prerequisite for the pathogen to produce enough AM-toxin for full pathogenicity.