Adult behaviour and oviposition of five noctuid and tortricid moth pests and their control in glasshouses

1976 ◽  
Vol 66 (3) ◽  
pp. 501-510 ◽  
Author(s):  
H. D. Burges ◽  
P. Jarrett
Keyword(s):  
Biological Control ◽  
Second Generation ◽  
Control Measures ◽  
Oviposition Site ◽  
Flight Period ◽  
Mamestra Brassicae ◽  
Basic Pattern ◽  
Autographa Gamma ◽  
Important Pest ◽  
Tomato Pests

AbstractAdult behaviour and oviposition patterns of Cacoecimorpha pronubana (Hb.), Phlogophora meticulosa (L.), Autographa gamma (L.), Mamestra brassicae (L.) and Lacanobia oleracea (L.) were studied by introducing laboratory reared pupae into glasshouses. Adults emerging from these pupae were located by direct visual searching of chrysanthemum plants and of the greenhouse structures for up to three weeks after emergence.In small houses (2·9×3·3×2·5 m), 49 adults of C. pronubana emerged. At least 15 stayed inside the house and laid 1 750 eggs. With P. meticulosa, A. gamma and L. oleracea, 262 adults emerged and escaped from the houses without laying eggs inside.In a large glasshouse (9·8×13·1×5·1 m) with automatic ventilators, 840 adults of P. meticulosa, A. gamma and M. brassicae emerged and many were prevented from escaping when the ventilators were closed during the moths' flight period. Moths were inactive in daytime and most were found on the highest parts of the aluminium framework, mainly on the sides which received most external light overnight. None were found on the glass. Only 27·3% of the P. meticulosa were found on the plants. Moth distributions probably result from moths flying until they reach a barrier, which they then tend to follow, with directional responses to gravity, light, settling site, food plant and oviposition site superimposed in varying degrees on this basic pattern. About 30 470 eggs were laid, more in outer than in inner beds and more in the outer than in the inner rows of a bed. P. meticulosa and A. gamma laid eggs only on plants. M. brassicae laid about 1 854 eggs on the undersides of leaves and 2 972 on glass and framework, mainly in the direction of external light.All five species can cause serious damage to crops. Initial infestations can be controlled by sprays of chemical insecticides or Bacillus thurin-giensis. Usually a few larvae survive a single spray and, in the absence of further control measures, they may produce a troublesome second generation, although in certain circumstances further control measures may not be required. If biological control of other tomato pests becomes widespread, steps should be taken to prevent L. oleracea again becoming an important pest.

scholarly journals Biological Control of a Phytosanitary Pest (Thaumatotibia leucotreta): A Case Study

2021 ◽  
Vol 18 (3) ◽  
pp. 1198
Author(s):  
Sean D. Moore
Keyword(s):  
Biological Control ◽  
Systems Approach ◽  
Microbial Control ◽  
Codling Moth ◽  
Environmental Safety ◽  
Control Measures ◽  
Sub Saharan Africa ◽  
The European Union ◽  
Thaumatotibia Leucotreta ◽  
Sub Saharan

Thaumatotibia leucotreta, known as the false codling moth, is a pest of citrus and other crops in sub-Saharan Africa. As it is endemic to this region and as South Africa exports most of its citrus around the world, T. leucotreta has phytosanitary status for most markets. This means that there is zero tolerance for any infestation with live larvae in the market. Consequently, control measures prior to exporting must be exemplary. Certain markets require a standalone postharvest disinfestation treatment for T. leucotreta. However, the European Union accepts a systems approach, consisting of three measures and numerous components within these measures. Although effective preharvest control measures are important under all circumstances, they are most critical where a standalone postharvest disinfestation treatment is not applied, such as within a systems approach. Conventional wisdom may lead a belief that effective chemical control tools are imperative to achieve this end. However, we demonstrate that it is possible to effectively control T. leucotreta to a level acceptable for a phytosanitary market, using only biological control tools. This includes parasitoids, predators, microbial control, semiochemicals, and sterile insects. Simultaneously, on-farm and environmental safety is improved and compliance with the increasing stringency of chemical residue requirements imposed by markets is achieved.

scholarly journals Microbial antagonists against plant pathogens in Iran: A review

2020 ◽  
Vol 5 (1) ◽  
pp. 404-440 ◽  
Author(s):  
Mehrdad Alizadeh ◽  
Yalda Vasebi ◽  
Naser Safaie
Keyword(s):  
Biological Control ◽  
Chemical Control ◽  
Plant Disease ◽  
Plant Pathogens ◽  
Plant Diseases ◽  
Agricultural Products ◽  
Control Measures ◽  
Wide Range ◽  
Plant Disease Management ◽  
Published Research

AbstractThe purpose of this article was to give a comprehensive review of the published research works on biological control of different fungal, bacterial, and nematode plant diseases in Iran from 1992 to 2018. Plant pathogens cause economical loss in many agricultural products in Iran. In an attempt to prevent these serious losses, chemical control measures have usually been applied to reduce diseases in farms, gardens, and greenhouses. In recent decades, using the biological control against plant diseases has been considered as a beneficial and alternative method to chemical control due to its potential in integrated plant disease management as well as the increasing yield in an eco-friendly manner. Based on the reported studies, various species of Trichoderma, Pseudomonas, and Bacillus were the most common biocontrol agents with the ability to control the wide range of plant pathogens in Iran from lab to the greenhouse and field conditions.

Lantana camara (lantana).

2021 ◽  
Author(s):  
Sarah E. Thomas ◽  
Julissa Rojas-Sandoval ◽  
Pedro Acevedo-Rodríguez
Keyword(s):  
South Africa ◽  
Biological Control ◽  
Control Measures ◽  
Economic Losses ◽  
Pests And Diseases ◽  
Control Programmes ◽  
Agricultural Weed ◽  
Successful Control ◽  
The Tropics ◽  
Ornamental Shrub

Abstract L. camara is a highly variable ornamental shrub, native of the neotropics. It has been introduced to most of the tropics and subtropics as a hedge plant and has since been reported as extremely weedy and invasive in many countries. It is generally deleterious to biodiversity and has been reported as an agricultural weed resulting in large economic losses in a number of countries. In addition to this, it increases the risk of fire, is poisonous to livestock and is a host for numerous pests and diseases. L. camara is difficult to control. In Australia, India and South Africa aggressive measures to eradicate L. camara over the last two centuries have been largely unsuccessful, and the invasion trajectory has continued upwards despite control measures. This species has been the target of biological control programmes for over a century, with successful control only being reported in a few instances.

scholarly journals Tea saponin reduces the damage of Ectropis obliqua to tea crops, and exerts reduced effects on the spiders Ebrechtella tricuspidata and Evarcha albaria compared to chemical insecticides

PeerJ ◽  
2018 ◽  
Vol 6 ◽  
pp. e4534 ◽  
Author(s):  
Chi Zeng ◽  
Lingbing Wu ◽  
Yao Zhao ◽  
Yueli Yun ◽  
Yu Peng
Keyword(s):  
Biological Control ◽  
Field Trials ◽  
Control Measures ◽  
Dependent Manner ◽  
Glutathione S Transferase ◽  
Tea Plantation ◽  
Tea Saponin ◽  
Yield And Quality ◽  
Significant Damage ◽  
Dose Dependent

Background Tea is one of the most economically important crops in China. However, the tea geometrid (Ectropis obliqua), a serious leaf-feeding pest, causes significant damage to tea crops and reduces tea yield and quality. Spiders are the most dominant predatory enemies in the tea plantation ecosystem, which makes them potentially useful biological control agents of E. obliqua. These highlight the need for alternative pest control measures. Our previous studies have shown that tea saponin (TS) exerts insecticidal activity against lepidopteran pests. Here, we investigate whether TS represents a potentially new alternative insecticide with no harm to spiders. Methods We investigated laboratory bioactivities and the field control properties of TS solution against E. obliqua. (i) A leaf-dip bioassay was used to evaluate the toxicity of TS to 3rd-instar E. obliqua larvae and effects of TS on the activities of enzymes glutathione-S-transferase (GST), acetylcholinesterase (AChE), carboxylesterase (CES) and peroxidase (POD) of 3rd-instar E. obliqua larvae in the laboratory. (ii) Topical application was used to measure the toxicity of 30% TS (w/v) and two chemical insecticides (10% bifenthrin EC and 50% diafenthiuron SC) to two species of spider, Ebrechtella tricuspidata and Evarcha albaria. (iii) Field trials were used to investigate the controlling efficacy of 30% TS against E. obliqua larvae and to classify the effect of TS to spiders in the tea plantation. Results The toxicity of TS to 3rd-instar E. obliqua larvae occurred in a dose-dependent manner and the LC50 was 164.32 mg/mL. Activities of the detoxifying-related enzymes, GST and POD, increased in 3rd-instar E. obliqua larvae, whereas AChE and CES were inhibited with time by treatment with TS. Mortalities of E. tricuspidata and E. albaria after 48 h with 30% TS treatment (16.67% and 20%, respectively) were significantly lower than those with 10% bifenthrin EC (80% and 73.33%, respectively) and 50% diafenthiuron EC (43.33% and 36.67%, respectively). The highest controlling efficacy of 30% TS was 77.02% at 5 d after treatment, which showed no difference to 10% bifenthrin EC or 50% diafenthiuron SC. 30% TS was placed in the class N (harmless or slightly harmful) of IOBC (International Organization of Biological Control) categories for natural enemies, namely spiders. Conclusions Our results indicate that TS is a botanical insecticide that has a good controlling efficacy in E. obliqua larvae, which suggests it has promise as application in the integrated pest management (IPM) envisaged for tea crops.

scholarly journals Salvage felling in the Slovak forests in the period 2004–2013

2015 ◽  
Vol 61 (3) ◽  
pp. 188-195 ◽  
Author(s):  
Andrej Kunca ◽  
Milan Zúbrik ◽  
Juraj Galko ◽  
Jozef Vakula ◽  
Roman Leontovyč ◽  
...  
Keyword(s):  
Norway Spruce ◽  
Forest Health ◽  
Control Measures ◽  
Climate Change Scenarios ◽  
The European Union ◽  
Spruce Bark ◽  
Important Pest ◽  
Health Quality ◽  
And Control

Abstract Salvage felling is one of the indicators of the forest health quality and stability. Most of the European Union countries monitor forest harmful agents, which account for salvage felling, in order to see trends or functionality between factors and to be able to predict their development. The systematic evidence of forest harmful agents and volume of salvage felling in Slovakia started at the Forest Research Institute in Zvolen in 1960. The paper focuses on the occurrence of the most relevant harmful agents and volume of salvage felling in the Slovak forests over the last decade. Within the 10 years period (2004–2013) salvage felling in Slovakia reached 42.31 mil. m3 of wood, which was 53.2% of the total felling. Wind and European spruce bark beetle Ips typographus damaged 78.4% of salvage wood, i.e. they were the most important pest agents. Norway spruce (Picea abies) was the most frequently damaged tree species that represented the amount of 35.6 mil. m3 of wood (81.2% of total volume of salvage felling). As Norway spruce grows mostly in mountains, these regions of Central and Northern Slovakia were most affected. At the damaged localities new forests were prevailingly established with regard to suitable ecological conditions for trees, climate change scenarios and if possible, natural regeneration has been preferred. These approaches in forest stand regeneration together with silvicultural and control measures are assumed to gradually decrease the amount of salvage felling over long term perspective.

The Ecology of the Garden Chafer, Phyllopertha horticola (L.) with preliminary Observations on Control Measures

1951 ◽  
Vol 42 (3) ◽  
pp. 605-646 ◽  
Author(s):  
F. Raw
Keyword(s):  
Food Supply ◽  
Root Zone ◽  
Soil Aggregates ◽  
Natural Habitat ◽  
Poor Quality ◽  
Control Measures ◽  
Flight Period ◽  
Larval Population ◽  
Infested Field ◽  
Benzene Hexachloride

The garden chafer, P. horticola (L.) is widely distributed in England and Wales but is more abundant in the western half of the country. Its natural habitat is poor quality permanent grassland characterised by a diversity of species of flowering plants and a high proportion of weeds. The soil of the infested areas is invariably light, the land is usually hilly and the rainfall relatively high.Adults emerge suddenly in May or June according to the weather. Males emerge some days before females. Daily activity increases during the flight period which lasts 3–4 weeks. Beetles only fly in warm sunny weather.The females lay an average of 14 eggs each. Fecundity is correlated with weight and is related to the food supply of the larvae. In nature, the weight of the adults may be limited through the exhaustion of the food supply of the larvae. Females will mate and lay fertile eggs without feeding. In general, feeding by the adult does not affect fecundity but in one experiment beetles fed on salad burnet produced and laid more eggs than beetles fed on bracken, blackberry, grass or kept without food. Over 90 per cent. of the eggs are fertile ; fertility decreases with the age of the adult. The incubation period of the eggs is about 22 days in the laboratory but about 28 days in the field.The spatial distribution and seasonal changes in population of P. horticola have been studied within an infested field on the Tickenham Ridge, Somerset. The eggs are laid in groups from which the larvae disperse. At the end of the feeding period the larvae may be distributed at random but there is some evidence that regrouping at feeding sites occurs. Most of the eggs are laid in the top 3 ins. of soil. The larvae feed in the root zone but go deeper in the soil in winter to hibernate. The population fell in successive years within the area studied. Initially there was a higher infestation in part of the field where the turf was damaged by the larvae but the relative intensity of infestation changed and subsequently more eggs and larvae were found in part of the field where the turf was undamaged. There was a higher mortality among larvae in the damaged part of the field. These population changes have been related to a number of environmental factors which may account for them, in particular to dispersal of the adults, density of the vegetation, consolidation, soil moisture and predators. In a field at Alton Pancras, Dorset, predation by birds reduced the larval population by 50 per cent. between 1st September and 1st November.A study of the effect of infestation upon the vegetation showed that damage was largely due to the destruction of the grasses. Weeds were unaffected and there was no evidence of an increase of weed area by colonisation of bare patches resulting from damage. Brachypodium pinnatum resisted attack owing to its tough rootstock. Dactylis glomerata and Lolium perenne were relatively resistant, Poa spp. and Festuca spp. were damaged but regenerated when feeding stopped and the population declined. Salad burnet, a favoured food plant, was more abundant in damaged areas and its distribution may influence the distribution of P. horticola.When infestation is severe and the grass roots are destroyed, the soil aggregates are broken down. The soil structure was restored when the grasses regenerated, and by consolidation.Field populations were reduced by ploughing and by reseeding. Dusting with 3·5 per cent. benzene hexachloride at 70 lb. per acre during the flight period gave promising results when applied in favourable weather.

The Sudan Millet Bug, Agonoscelis versicolor, F.

1929 ◽  
Vol 20 (2) ◽  
pp. 209-224 ◽  
Author(s):  
F. G. Sarel-Whitfield
Keyword(s):  
Rainy Season ◽  
Scientific Journal ◽  
Control Measures ◽  
Food Crop ◽  
Sorghum Vulgare ◽  
Main Food ◽  
Morphological Studies ◽  
The Family ◽  
Important Pest

The Sudan dura (millet) bug, Agonoscelis versicolor, F., a member of the family Pentatomidae, Hemiptera Heteroptera (Rhynchota), is an important pest of millet. Its depredations vary from year to year, depending chiefly upon the rainy season, but every few years it causes serious losses of millet (Sorghum vulġare and Sorghum sp.), which is the main food crop of the Northern Sudan.This bug is widely distributed in Africa, but so far as the writer is aware, it is only in the Sudan that it occurs as a serious pest of grain, or, indeed, as a serious pest at all. In view of this, and the little work that has been done upon it, it was felt advisable, when a severe outbreak took place in 1927, not only to concentrate upon the control but also to effect as complete a study as possible of the bionomics and essential morphology of the bug.Upon completion of the work it was found better to publish the results as two separate papers : (1) A Sudan Government Entomological Bulletin, giving an account of the bug as a pest in the Sudan, the control measures carried out, the bionomics and parasites ; and (2) a paper for publication in a scientific journal giving the results of the morphological studies, and their relation and application to the bionomics of the insect. The present paper is the result of the latter study.

Commercial application of biological control: status and prospects

1988 ◽  
Vol 318 (1189) ◽  
pp. 357-373 ◽  
Keyword(s):  
Biological Control ◽  
Integrated Control ◽  
Crop Protection ◽  
Global Market ◽  
Genetically Engineered ◽  
Control Measures ◽  
Commercial Application ◽  
Specific Chemical ◽  
Advantages And Disadvantages ◽  
Bacteria And Fungi

The global market value of control agents used in crop protection and public health is approaching $16 000 million annually, but less than 1% of this market is penetrated by biological control agents (BCAs). This paper examines the suitability of different types of BCA to research and commercialization, bearing in mind the sharply targeted approach employed by much of the industry. Advantages and disadvantages are discussed along with examples of failures and successes with BCAs. Commercialized products described range from specific chemical control agents which have no adverse effects on beneficial organisms to true BCAs such as pheromones, mass-produced bacteria, and predatory mites. From a commercial viewpoint, greatest potential resides with the utilization of bacteria and fungi, particularly for insect control, but registerability (particularly for genetically engineered agents) patentability, reliability and cost-effectiveness must be achieved. Industry believes that biotechnology will increase the usefulness of BCAs and is therefore encouraging cooperation with academic researchers and performing in-house research to advance the technology. Even so, BCAs will not replace chemicals in the foreseeable future, but will complement them and allow the development of improved integrated control measures.

Experiments on the Needle Shortening Pine Gall Midge

1974 ◽  
Vol 4 (3) ◽  
pp. 233-236 ◽  
Author(s):  
TH. THYGESEN
Keyword(s):  
Scots Pine ◽  
Gall Midge ◽  
Control Measures ◽  
Reliable Information ◽  
National Committee ◽  
Flight Period ◽  
Time Control ◽  
Highly Effective ◽  
Nursery Trees ◽  
Horticultural Plants

Abstract Data are given on the biology of this gall midge, which has proved harmful to young trees of Mountain and Scots Pine. Special attention has been paid to the flight period as reliable information on this is essential in order to time control measures. These can be carried out as sprays with parathion, diazinon or malathion, which all proved highly effective when applied twice during the flight period. As young nursery trees are most vulnerable, a warning for nurseries is issued by the National Committee for Propagation and Sanitary Inspection for Horticultural Plants every spring, when the first hatchings are noted.

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