Your search keyword '"James T S Walker"' showing total 65 results

1. Comparing Deliveries of Sterile Codling Moth (Lepidoptera: Tortricidae) by Two Types of Unmanned Aerial Systems and from the Ground

Author

Timothy F. Vandervoet, Peter L. Lo, Bruce H Abbott, Rachael M. Horner, D. J. Rogers, D. Maxwell Suckling, Anna Kokeny, and James T S Walker

Subjects

0106 biological sciences, Tortricidae, Mating disruption, Codling moth, Moths, medicine.disease_cause, Insect Control, 01 natural sciences, Pheromones, Toxicology, Lepidoptera genitalia, 03 medical and health sciences, Sterile insect technique, Infestation, medicine, Animals, Sex Attractants, 030304 developmental biology, 0303 health sciences, Ecology, biology, fungi, General Medicine, biology.organism_classification, Pheromone trap, 010602 entomology, Malus, Insect Science, Orchard

Abstract

New Zealand apple exports must meet strict phytosanitary measures to eliminate codling moth (Cydia pomonella Linnaeus) (Lepidoptera: Tortricidae) larval infestation. This study was part of a program attempting the localized eradication of codling moth within an isolated cluster of seven orchards (391 ha). A conventional management program of insecticide sprays and pheromone mating disruption was supplemented with weekly releases of sterile moths for 1–6 yr. Our objective was to compare the recapture rate of sterile moths following their release by four methods, and the efficiency of each system. The methods were the following: a fixed-wing unmanned plane flying ~40–45 m high at 70 km/h, an unmanned hexacopter travelling 20 m high at 25 km/h, and manually from the ground via bicycles or motor vehicles. The different release methods were used in different years or weeks. Sterile male moths were recaptured in grids of pheromone traps positioned throughout each orchard. The highest recapture rate followed delivery by hexacopter, then bicycle, vehicle, and plane. There was a 17-fold difference in catches between releases by hexacopter and plane, and sixfold between vehicle and plane in the same season. Bicycle delivery had a 3.5-fold higher recapture rate than the plane in different years. The wind-borne horizontal drift of moths was investigated as a possible explanation for the disparity of recaptures between the two aircraft delivery systems. The methods in ascending order of time per hectare for delivery were the following: plane and vehicle, hexacopter, then bicycle. The advantages and disadvantages of each moth delivery method are discussed.

Published

2021

2. Establishment and seasonal activity in New Zealand of Mastrus ridens, a gregarious ectoparasitoid of codling moth Cydia pomonella

Author

W. R. Manoharie Sandanayaka, V.A. Davis, James T S Walker, J. G. Charles, L.M. Cole, P. W. Shaw, K. Colhoun, D. Roger Wallis, and A. Chhagan

Subjects

0106 biological sciences, Larva, biology, Codling moth, Zoology, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Parasitoid, Ridens, Pupa, 010602 entomology, Ichneumonidae, Animal ecology, Insect Science, Mastrus ridens, Agronomy and Crop Science

Abstract

The establishment of Mastrus ridens Horstmann (Hym: Ichneumonidae) in New Zealand, from introductions in 2012–2015, was assessed in 2016. Two assessment techniques were used: (1) 10-cm wide corrugated cardboard trunk bands deployed throughout the summer and winter periods to catch wild codling moth larvae and their parasitoids; and (2) sentinel, laboratory reared, codling moth larvae, cocooned within narrow, 2-cm wide corrugated cardboard bands, deployed on a monthly rotation throughout the spring and summer. Trunk band recoveries showed at least a low rate of establishment of Mastrus ridens across the country. Mastrus ridens females attacked sentinel hosts from early spring (prior to pupation of wild hosts) until late autumn. This evidence for multi-voltinism (compared with one or two generations of their host) signals a potentially effective parasitoid. Four other codling moth parasitoids were also recovered frequently from either wild or sentinel codling moth larvae, with differences between regions. The extent to which they may disrupt or enhance biocontrol by M. ridens remains to be investigated.

Published

2019

3. Combined Effects of Mating Disruption, Insecticides, and the Sterile Insect Technique on

Author

Rachael M, Horner, Peter L, Lo, David J, Rogers, James T S, Walker, and David Maxwell, Suckling

Subjects

fungi, market access, synergistic, sterile insect technique, Unmanned Aerial Vehicle, suppression, Article, orchard, Lepidoptera, Cydia pomonella, eradication, Tortricidae, mating disruption, biosecurity

Abstract

Simple Summary Codling moth is a major pest of apples, and was accidentally introduced into New Zealand over 150 years ago. Many countries that New Zealand exports apples to do not have codling moth present and they want to keep it out. Therefore, apple growers must heavily control codling moth populations on their orchards. Currently, the main control tactics are insecticide applications and mating disruption, which uses the moth’s own sex pheromone to make the males unable to find females to mate. We aimed to supplement these tactics with the sterile insect technique (SIT) to further suppress the codling moth on orchards. SIT involves mass rearing and sterilizing codling moth and then releasing them onto orchards where they mate with wild insects resulting in no offspring. We released sterile insects onto seven orchards using unmanned aerial vehicles and ground releases. Six years of the program saw significant drops (90–99%) in wild moth populations. The SIT is an excellent tactic for reducing moth populations in export apple orchards. Abstract Codling moth was introduced into New Zealand, and remains a critical pest for the apple industry. Apples exported to some markets require strict phytosanitary measures to eliminate the risk of larval infestation. Mating disruption and insecticide applications are the principal means of suppression in New Zealand. We tested the potential for the sterile insect technique (SIT) to supplement these measures to achieve local eradication or suppression of this pest. SIT was trialed in an isolated group of six integrated fruit production (IFP) orchards and one organic orchard (total 391 ha), using sterilized insects imported from Canada, with release by unmanned aerial vehicle and from the ground. Eradication was not achieved across the region, but a very high level of codling moth suppression was achieved at individual orchards after the introduction of sterile moths in combination with mating disruption and larvicides. After six years of releases, catches of wild codling moths at three IFP orchards (224 ha) were 90–99% lower than in 2013–2014, the year before releases began. Catches at three other IFP orchards (129 ha) decreased by 67–97% from the year before releases began (2015–2016), from lower initial levels. At a certified organic orchard with a higher initial population under only organic larvicides and mating disruption, by 2019–2020, there was an 81% reduction in wild moths capture from 2016–2017, the year before releases began.

Published

2020

4. Reduction in leafroller (Lepidoptera: Tortricidae) abundance in orchards and vineyards 1976-2016, in Hawke's Bay, New Zealand

Author

L.M. Cole, Duncan Hedderley, Peter L. Lo, and James T S Walker

Subjects

0106 biological sciences, Tortricidae, Ctenopseustis obliquana, biology, Forestry, Introduced species, Planotortrix octo, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Lepidoptera genitalia, 010602 entomology, Agronomy, Abundance (ecology), Insect Science, Orchard, Agronomy and Crop Science, Bay

Published

2018

5. Development of a ‘lure and kill’ technique for apple leafcurling midge, Dasineura mali

Author

L.M. Cole, D.J. Rogers, J.C. Devitt, Peter L. Lo, and James T S Walker

Subjects

0106 biological sciences, biology, Horticulture, biology.organism_classification, 01 natural sciences, law.invention, Toxicology, 010602 entomology, law, Insect Science, Sex pheromone, Dasineura mali, Quarantine, Midge, medicine, Pheromone, PEST analysis, Agronomy and Crop Science, 010606 plant biology & botany, Permethrin, medicine.drug, Phytosanitary certification

Abstract

Apple leafcurling midge (ALCM) is an important quarantine pest of New Zealand apples. Current methods for ALCM control have difficulty meeting the strict phytosanitary standards of some export markets. ‘Lure and kill’ is a new strategy against this pest, in which males are attracted to an insecticide-treated substrate where they collect a lethal dose. Trials were conducted using a gel matrix “Specialized Pheromone & Lure Application Technology” (SPLATâ„¢) to dispense and release the ALCM sex pheromone and the insecticide permethrin. Lures using SPLATâ„¢ were placed within plastic cylinder traps that collected the dead midges so they could be counted to determine treatment efficacy. The size, shape and age of SPLATâ„¢ spots influenced midge catches. Higher catches occurred with spots having a larger quantity of pheromone, greater surface area of SPLATâ„¢, or with fresh material. The implications for the development of a lure and kill strategy for ALCM are discussed.

Published

2017

6. Annual and regional variability in adult Dasineura mali (apple leafcurling midge) emergence in New Zealand

Author

Peter L. Lo and James T S Walker

Subjects

Larva, biology, Ecology, Phenology, Horticulture, biology.organism_classification, law.invention, Cecidomyiidae, law, Insect Science, Dasineura mali, Midge, Quarantine, PEST analysis, Agronomy and Crop Science, Bay

Abstract

Apple leafcurling midge is an important quarantine pest for New Zealand apple exports. Season-long pheromone trapping was conducted in Hawke’s Bay and Nelson from 2004—2017, and from 2012—2017 in Central Otago. Four generations occurred annually in Hawke’s Bay and Nelson and 3—4 in Central Otago. In Hawke’s Bay and Nelson, the timing of each peak varied by about 3—4 weeks between years, while the difference was ~2—3 weeks in Central Otago during fewer years of monitoring. Hawke’s Bay was up to a month earlier than Central Otago for the same peak within individual years. The major factor behind this variability was the accumulated number of growing degree-days. Insecticide sprays target midge larvae, but are timed against the second and third peaks of adult emergence. Variations in the timing of these peaks annually and across the main pipfruit growing regions, mean that specific insecticide timing recommendations are necessary each year for each region.

Published

2017

7. Regulatory Innovation, Mating Disruption and 4-PlayTM in New Zealand

Author

James T S Walker, David M. Suckling, and Ashraf M. El-Sayed

Subjects

0106 biological sciences, Mating disruption, Codling moth, Planotortrix octo, Moths, Insect Control, 01 natural sciences, Biochemistry, Sexual Behavior, Animal, Animals, Sex Attractants, Ecology, Evolution, Behavior and Systematics, Ctenopseustis obliquana, biology, business.industry, Ecology, Pest control, General Medicine, biology.organism_classification, Social Control, Formal, Biotechnology, Chemical ecology, 010602 entomology, Sex pheromone, Pheromone, business, New Zealand, 010606 plant biology & botany

Abstract

Straight-chained lepidopteran pheromones are now regulated under a group standard in New Zealand, which is generic for moth pheromone products of similar low risk, under the Hazardous Substances and New Organisms Act (1996). This means that compliant new pheromone products can be developed and commercialized with low regulatory requirements. This encourages innovation and supports fruit industries interested in meeting export phytosanitary standards, while targeting low or nil residues of pesticides. Changes to pheromone blends for reasons such as technical improvements or variations in pest species composition in different crops can be made with minimal regulatory involvement. We illustrate how this system now operates with a four species mating disruption product commercialized in 2012. The odors involved in "4-Play™" consist of a range of components used by codling moth (Cydia pomonella), lightbrown apple moth (Epiphyas postvittana), green-headed leafroller (Planotortrix octo), and brown-headed leafroller (Ctenopseustis obliquana). The development of 4-Play™ illustrates how mating disruption of insects can support industry goals.

Published

2016

8. Combined Effects of Mating Disruption, Insecticides, and the Sterile Insect Technique on Cydia pomonella in New Zealand

Author

James T S Walker, Rachael M. Horner, D. J. Rogers, Peter L. Lo, and David M. Suckling

Subjects

0106 biological sciences, Tortricidae, Mating disruption, Codling moth, market access, Population, synergistic, sterile insect technique, Biology, Cydia pomonella, 010603 evolutionary biology, 01 natural sciences, Toxicology, Sterile insect technique, eradication, lcsh:Science, education, Phytosanitary certification, education.field_of_study, fungi, Unmanned Aerial Vehicle, suppression, biology.organism_classification, Lepidoptera, orchard, 010602 entomology, Insect Science, mating disruption, lcsh:Q, PEST analysis, Orchard, biosecurity

Abstract

Codling moth was introduced into New Zealand, and remains a critical pest for the apple industry. Apples exported to some markets require strict phytosanitary measures to eliminate the risk of larval infestation. Mating disruption and insecticide applications are the principal means of suppression in New Zealand. We tested the potential for the sterile insect technique (SIT) to supplement these measures to achieve local eradication or suppression of this pest. SIT was trialed in an isolated group of six integrated fruit production (IFP) orchards and one organic orchard (total 391 ha), using sterilized insects imported from Canada, with release by unmanned aerial vehicle and from the ground. Eradication was not achieved across the region, but a very high level of codling moth suppression was achieved at individual orchards after the introduction of sterile moths in combination with mating disruption and larvicides. After six years of releases, catches of wild codling moths at three IFP orchards (224 ha) were 90&ndash, 99% lower than in 2013&ndash, 2014, the year before releases began. Catches at three other IFP orchards (129 ha) decreased by 67&ndash, 97% from the year before releases began (2015&ndash, 2016), from lower initial levels. At a certified organic orchard with a higher initial population under only organic larvicides and mating disruption, by 2019&ndash, 2020, there was an 81% reduction in wild moths capture from 2016&ndash, 2017, the year before releases began.

Published

2020

9. Will Peri-Urban Cydia pomonella (Lepidoptera: Tortricidae) Challenge Local Eradication?

Author

Georgia Paterson, James T S Walker, Rachael M. Horner, Rodelyn Jaksons, George L. W. Perry, and David M. Suckling

Subjects

0106 biological sciences, Tortricidae, Codling moth, market access, apple, sterile insect technique, Cydia pomonella, 01 natural sciences, Article, Lepidoptera genitalia, Sterile insect technique, pheromone trap, eradication, lcsh:Science, Phytosanitary certification, biology, Host (biology), public, fungi, suppression, biology.organism_classification, Pheromone trap, 010602 entomology, Malus domestica, Agronomy, Insect Science, lcsh:Q, PEST analysis, peri-urban, biosecurity, 010606 plant biology & botany

Abstract

Codling moth, Cydia pomonella (Lepidoptera: Tortricidae), is a phytosanitary pest of New Zealand&rsquo, s export apples. The sterile insect technique supplements other controls in an eradication attempt at an isolated group of orchards in Hawke&rsquo, s Bay, New Zealand. There has been no attempt in New Zealand to characterize potential sources of uncontrolled peri-urban populations, which we predicted to be larger than in managed orchards. We installed 200 pheromone traps across Hastings city, which averaged 0.32 moths/trap/week. We also mapped host trees around the pilot eradication orchards and installed 28 traps in rural Ongaonga, which averaged 0.59 moths/trap/week. In Hastings, traps in host trees caught significantly more males than traps in non-host trees, and spatial interpolation showed evidence of spatial clustering. Traps in orchards operating the most stringent codling moth management averaged half the catch rate of Hastings peri-urban traps. Orchards with less rigorous moth control had a 5-fold higher trap catch rate. We conclude that peri-urban populations are significant and ubiquitous, and that special measures to reduce pest prevalence are needed to achieve area-wide suppression and reduce the risk of immigration into export orchards. Because the location of all host trees in Hastings is not known, it could be more cost-effectively assumed that hosts are ubiquitous across the city and the area treated accordingly.

Published

2020

10. Apple washers removal of insect pests and contaminants from export apples

Author

R.M. McDonald, James T S Walker, D.J. Rogers, L.M. Cole, S. McLeod, P. Brookfield, J. Robertson, and Allan B. Woolf

Subjects

Agronomy, Insect Science, media_common.quotation_subject, Insect, Horticulture, Biology, Contamination, Agronomy and Crop Science, media_common

Abstract

Export markets require highquality fruit free from insects and mites of quarantine significance and with minimal or no agrichemical residues This presents a challenge for New Zealands pipfruit sector when developing novel pest management systems to meet these market requirements Brushbed apple washers are an important component of a systems approach to remove insects and mites in packhouses before fruit are exported A new apple washer using multinozzle rotors significantly reduced the incidence of insects and mites on apples Weathered residues of kaolin and hydrated lime were similarly reduced by this apple washer Assessment of fruit quality after apple washing and cool storage did not identify any commercially significant quality issues on the three apple cultivars examined Apple washer design to optimise pest removal from all locations on the fruit is discussed

Published

2016

11. Use of the sterile insect technique in New Zealand Benefits and constraints

Author

David M. Suckling, Rachael M. Horner, Peter L. Lo, D. J. Rogers, and James T S Walker

Subjects

0106 biological sciences, Integrated pest management, biology, Ecology, Codling moth, Stakeholder, Horticulture, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Supply and demand, 010602 entomology, Sterile insect technique, Insect Science, Community commitment, Agronomy and Crop Science, Environmental planning

Abstract

The sterile insect technique (SIT) is increasingly being evaluated as a potential complementary strategy for pest suppression or elimination New Zealands export fruit sector has an imperative to meet strict international phytosanitary requirements together with increasing market demand for residuefree produce SIT is a pestspecific method of insect control that can complement current Integrated Pest Management (IPM) strategies Successful SIT presents significant challenges the target pest must be a good candidate for suppression and strong stakeholder and community commitment is required to achieve and maintain suppression until areawide elimination is achieved Emerging sterilisation technologies and refinement of existing methods are making this technology progressively more efficient and costeffective This study reviewed the advantages of including SIT in an IPM programme and described the first use of codling moth SIT in New Zealand A pilot programme is currently underway to evaluate its potential to achieve local elimination of codling moth in Central Hawkes Bay apple orchards

Published

2016

12. Advances in application of high pressure washing to enhance market access

Author

Lisa E. Jamieson, Erin M. O'Donoghue, M.J. Griffin, L. Cate, R.M. McDonald, A. Chhagan, Anne White, V. Kagy, S.P. Redpath, C. Mille, D. Rogers, Allan B. Woolf, N.E.M. Page-Weir, Shane Olsson, and James T S Walker

Subjects

High pressure, Market access, Operations management, Business, Horticulture, Environmental economics

Published

2015

13. Evaluation of the synthetic sex pheromone of the obscure mealybug,Pseudococcus viburni, as an attractant to conspecific males, and to females of the parasitoidAcerophagus maculipennis

Author

Jocelyn G. Millar, Alistair J. Hall, P. W. Shaw, James T S Walker, L.M. Cole, D. Roger Wallis, D. Maxwell Suckling, V.A. Bell, and J. G. Charles

Subjects

Hymenoptera, Biology, biology.organism_classification, Pseudococcus viburni, Parasitoid, Toxicology, Encyrtidae, Insect Science, Sex pheromone, Botany, Pheromone, PEST analysis, Mealybug, Ecology, Evolution, Behavior and Systematics

Abstract

The obscure mealybug, Pseudococcus viburni (Signoret) (Hemiptera: Pseudococcidae), is a cosmopolitan pest. In New Zealand, recently introduced management tools include the host-specific parasitoid Acerophagus maculipennis (Mercet) (Hymenoptera: Encyrtidae) established in 2001, and pheromone-baited monitoring traps available since 2005. Red delta traps baited with rubber septum lures impregnated with 4.0 μg of the mealybug synthetic sex pheromone, placed in apple orchards in Hawke's Bay and Nelson, trapped both male P. viburni and female A. maculipennis. Two generations of both species per year were discernible, but numbers were low in spring and parasitoids were not trapped during winter (June to September). Male P. viburni catches reached a plateau at a pheromone dose of ca. 1.0 μg per lure but numbers of A. maculipennis per trap increased up to 100 μg per lure, the maximum dose tested. A mathematical model showed that the lures had a half-life of about 7.4 days and were most attractive to P. viburni with a dose of 0.19 μg, and that the trap effectiveness decreased rapidly once the release rate dropped below the optimum. The model also predicted that the initial pheromone dose should be increased from 0.19 to 5.41 μg per lure as the desired period of deployment increased from 0 to 9 weeks. A dose of 4.0 μg had an initial relative effectiveness of about 55%, reached peak effectiveness after about 5 weeks, and fell to 55% relative effectiveness again after about 8.3 weeks. We conclude that an initial pheromone load of 4.0 μg is appropriate for practical monitoring of P. viburni during the New Zealand summer. Future applications of the sex pheromone for managing the pest and parasitoid are discussed.

Published

2015

14. Risks to pest management in New Zealands pipfruit Integrated Fruit Production programme

Author

D.J. Rogers, Peter L. Lo, and James T S Walker

Subjects

Integrated pest management, Aphid, San Jose scale, biology, Mating disruption, business.industry, Biological pest control, Pest control, Horticulture, Pesticide, biology.organism_classification, Agronomy, Insect Science, PEST analysis, business, Agronomy and Crop Science

Abstract

Pest management in New Zealand's pipfruit Integrated Fruit Production (IFP) programme relies on selective pesticides, biological control and pheromone mating disruption. The current situation is potentially precarious and one concern, the impact of less selective pesticides, was tested. Apple trees received synthetic pyrethroid (deltamethrin) sprays during the first half of two growing seasons. Beneficial and pest species were monitored monthly from November to April. Treated trees had fewer predatory bugs (91- 100% reduction), lacewings (64-100%), earwigs (80-100%), predatory mites (67-100%), spiders (20-64%) and Hymenoptera (16-49%) than untreated trees. Ladybird numbers varied depending on the assessment method. Outbreaks of phytophagous mites and woolly apple aphid occurred on treated trees, but there were fewer apple leafcurling midge, San Jose scale and Froggatt's apple leafhopper on untreated trees. Factors that make pest management under IFP vulnerable in the future, include a loss of biological control and the consequences of new pests establishing.

Published

2015

15. Spatial analysis of mass trapping: how close is close enough?

Author

James T S Walker, V.A. Bell, David M. Suckling, Peter L. Lo, John M. Kean, Lloyd D. Stringer, Alfredo Jiménez-Pérez, Andrew M. Twidle, and Ashraf M. El-Sayed

Subjects

education.field_of_study, Thrips, biology, Ecology, Population, General Medicine, Trapping, Pheromone trap, biology.organism_classification, Light brown apple moth, Horticulture, Insect Science, Kairomone, Sex pheromone, Semiochemical, education, Agronomy and Crop Science

Abstract

BACKGROUND The identification of new attractants can present opportunities for developing mass trapping, but standard screening methods are needed to expedite this. We have developed a simple approach based on quantifying trap interference in 4 × 4 trap arrays with different spacings. We discuss results from sex pheromones in Lepidoptera (light brown apple moth, Epiphyas postvittana), Diptera (apple leaf curling midge, Dasineura mali) and Homoptera (citrophilous mealybug, Pseudococcus calceolariae), compared with a kairomone for New Zealand flower thrips (Thrips obscuratus). RESULTS The ratio of catch in corner traps to catch in centre traps was 25:1 at 750 D. mali traps ha−1, and was still ∼5:1 at 16 traps ha−1, suggesting trap interference even at such low trap densities. Trap competition for sex pheromone lures at close spacing (

Published

2014

16. Prospects for the control of apple leaf midgeDasineura mali(Diptera: Cecidomyiidae) by mass trapping with pheromone lures

Author

Peter L. Lo, D. Max Suckling, and James T S Walker

Subjects

biology, General Medicine, medicine.disease_cause, biology.organism_classification, Pheromone trap, Pupa, Horticulture, Cecidomyiidae, Insect Science, Sex pheromone, Infestation, Botany, Midge, medicine, Habit (biology), Orchard, Agronomy and Crop Science

Abstract

BACKGROUND Apple leaf midge, Dasineura mali (Kieffer), poses quarantine issues for some apple export markets because larvae occasionally pupate in the stem end and calyx of fruit. Pheromone-baited oil-filled containers were used in 1 ha orchard plots to trap adult male D. mali in order to test the potential for mass trapping to reduce populations. RESULTS Mass-trapped plots had 97% fewer adult males in pheromone traps and 48% fewer larvae per shoot in the second D. mali generation compared with untreated areas. Oil traps caught on average 900 000 D. mali per plot over 11 weeks during the second and third generations. Catches averaged 9200 per trap at plot corners. By comparison, catches were 51% lower 10–25 m away along borders, 80% lower at the midpoint of borders and 95% lower >7 m from plot edges. Fruit infestation was low (four out of 8000 apples). CONCLUSION The attractiveness of the pheromone, monophagous habit and low mobility of D. mali enhance the prospects for successful mass trapping. Countering this are high populations, multivoltinism and aspects of mating behaviour. Mass trapping would probably have been more effective had it been in place season long and conducted over successive years. It needs refinements and more study before becoming a feasible control option for D. mali. © 2014 Society of Chemical Industry

Published

2014

17. Codling moth (Cydia pomonella) mating disruption outcomes in apple orchards

Author

Rachael M. Horner, T.M. Fraser, J.G. Hughes, N.M. Park, James T S Walker, and Peter L. Lo

Subjects

biology, business.industry, Mating disruption, Codling moth, fungi, Biological pest control, Pest control, Horticulture, Pesticide, biology.organism_classification, Pheromone trap, Toxicology, Agronomy, Insect Science, Pheromone, Mating, business, Agronomy and Crop Science

Abstract

New Zealand apple growers need to produce crops that satisfy conlicting export market requirements. Some markets want pest-free fruit, while others demand residue-free fruit. Pheromone mating disruption combined with the judicious use of insecticides enables crops to meet both demands. This study in 14 Hawke's Bay apple orchards showed that seasonal pheromone trap catch was reduced by 70%, from 40.1 codling moths/trap in the season before mating disruption was introduced to 11.7 moths/trap over the subsequent ive seasons. In the same period, insecticide use reduced from 5.9 applications/season in 2006- 07 to 2.3 in 2007-08 and 3.7 since 2008-09. The incidence of larvae in fruit where mating disruption operated averaged 0.01%, which was lower than in orchards using insecticides only. Damage increased from 2008-09 with greater reliance on codling moth granulosis virus over residual insecticides. Nevertheless, mating disruption with 3-4 insecticide sprays controlled codling moth to the high standard needed.

Published

2013

18. Development of multiple species mating disruption to control codling moth and leafrollers (Lepidoptera Tortricidae)

Author

Rachael M. Horner, James T S Walker, Duncan Hedderley, and Peter L. Lo

Subjects

Tortricidae, Mating disruption, business.industry, Codling moth, Pest control, Horticulture, Biology, biology.organism_classification, Pheromone trap, Agronomy, Insect Science, Sex pheromone, Pheromone, Mating, business, Agronomy and Crop Science

Abstract

Codling moth ( Cydia pomonella) and leafrollers, principally lightbrown apple moth (Epiphyas postvittana), are key pests of apples. Pheromone mating disruption has until now required separate dispensers to be deployed for each pest group. With 600-1000 dispensers per ha for each species, application costs are a signiicant factor limiting the wider adoption of multi-species mating disruption in New Zealand apple orchards. The aim was to integrate the two disruption systems into a single dispenser, and evaluate its performance against that of separate dispensers, in paired block comparisons on four apple orchards. The three measures of effectiveness , pheromone trap catch, suppression of moth mating and fruit damage at harvest, all showed no statistical differences between the two treatments. The performance of the new combination pheromone dispenser was equivalent to that when the two dispensers were deployed separately.

Published

2013

19. Development and commercialisation of pheromone products in New Zealand

Author

K.S.H. Boyd Wilson, James T S Walker, Ashraf M. El-Sayed, P.S. Stevens, Graeme K. Clare, C. Hall, and David M. Suckling

Subjects

Integrated pest management, Mating disruption, Agroforestry, Ecology, Codling moth, Biosecurity, Horticulture, Biology, Pheromone trap, biology.organism_classification, Insect Science, Sex pheromone, Pheromone, Food research, Agronomy and Crop Science

Abstract

The sale of pheromone traps lures and mating disruption products for horticultural insect pest species has grown steadily since the late 1980s with expanding sales to New Zealand growers from Plant Food Research (PFR) and its predecessors New biosecurity incursions led to pheromone identifications for delimitation and pest management of other species Mating disruption products were developed to target leafrollers currant clearwing codling moth and oriental fruit moth In 201011 the activity involved with production of > 30 pheromone products was sold as a business unit by PFR to a New Zealand company In addition the first legislative group standard for plant protection products was drawn up to enable future development of straightchained lepidopteran sex pheromones under New Zealands Environmental Protection Authority The availability of pheromone products to assist with decision support and pest management is now subject to market forces

Published

2012

20. Improving the management of mealybugs (Pseudococcidae) in apple orchards

Author

T.M. Fraser, Peter L. Lo, James T S Walker, and D. W. Manktelow

Subjects

biology, business.industry, Pest control, Horticulture, biology.organism_classification, Toxicology, Key factors, Agronomy, Insect Science, Mealybug, Orchard, business, Chemical control, Agronomy and Crop Science

Abstract

Mealybug infestations in New Zealand apples declined when integrated fruit production was implemented in the late 1990s. In Hawke's Bay, however, mealybugs have recently become an increasing problem. The mean incidence of mealybugs at harvest increased from 1.7% in 2008 to 2.2% in 2010. In 2009 and 2010, almost 50% of blocks had a higher incidence than the previous year. Analysis of spray diaries suggested that spray programmes up to 2009-10 were inadequate to maintain long-term suppression of mealybugs. Key factors were the number of insecticide sprays, their time of application, and the choice of product, but not spray coverage. Consequently, in spring 2010, orchard managers were encouraged to follow a 'best practice' spray programme against mealybugs, which led to markedly improved mealybug control. At harvest in 2011, the mean incidence was 0.7% and just 14% of blocks had more mealybugs than the previous year while almost 60% had fewer.

Published

2012

21. Toxicity of pesticides to Aphelinus mali the parasitoid of woolly apple aphid

Author

D. J. Rogers, James T S Walker, D. C. Stretton, and N. Sharma

Subjects

Aphid, Diazinon, biology, Indoxacarb, fungi, Spinosad, Horticulture, Eriosoma lanigerum, Pesticide, biology.organism_classification, Toxicology, chemistry.chemical_compound, chemistry, Agronomy, Insect Science, Carbaryl, parasitic diseases, medicine, Agronomy and Crop Science, Aphelinus mali, medicine.drug

Abstract

The parasitoid Aphelinus mali controls woolly apple aphid (WAA; Eriosoma lanigerum) in New Zealand apple orchards. The effects of seven pesticides on A. mali exposed to residues on filter paper were assessed in a laboratory bioassay immediately post- application. Spinosad at label rate was moderately to highly toxic, but other compounds and lower rates of spinosad had no detrimental effects on A. mali. Another bioassay incorporating field application and exposure to aged residues on leaves determined the toxicity of carbaryl, diazinon, indoxacarb and lime sulphur. Carbaryl had the greatest residual toxicity to A. mali on harvested leaves, causing 85% mortality 21 days after application, declining to 40% by 28 days. In contrast, diazinon initially caused high mortality but residues were not toxic 15 days after application, while indoxyacarb and lime sulphur were not toxic. Minimising the use of pesticides toxic to A. mali should benefit the sustainable management of WAA in apple orchards.

Published

2011

22. Soil applications of two neonicotinoid insecticides to control mealybugs (Pseudococcidae) in vineyards

Author

Peter L. Lo and James T S Walker

Subjects

Vine, business.industry, Pest control, Neonicotinoid, Horticulture, Biology, biology.organism_classification, Equivalent control, chemistry.chemical_compound, Pseudococcus, Agronomy, chemistry, Imidacloprid, Insect Science, Mealybug, business, Agronomy and Crop Science, Disease transmission

Abstract

Grapevine leafroll-associated Virus 3 debilitates grapevines, reducing yields and juice quality, and eventually makes vineyards uneconomic. Mealybugs (Pseudococcus spp.) are the key insect pests of grapes in New Zealand because they are the principal vectors of this virus. Until recently, all insecticides registered for their control depended on direct contact, but mealybugs live in hard-to-treat parts of vines. This research tested the efficacy of two neonicotinoid insecticides, imidacloprid and SCAL 5085, that have translaminar and systemic activity. Two field trials were conducted on commercial vineyards with the insecticides applied as soil drenches. In the first trial, imidacloprid applied at 0.525 g ai/vine reduced mealybug abundance by >99% compared with untreated vines, and autumn and spring applications were equally effective. Half this rate was less effective, although drenching in autumn was better than in spring. In the second trial, treatments were applied in winter, and SCAL 5085 at 0.263 g ai/vine provided equivalent control to imidacloprid at 0.525 g ai/vine.

Published

2011

23. Use of mating disruption for control of New Zealand leafrollers in apple orchards

Author

Peter L. Lo, Ashraf M. El-Sayed, James T S Walker, D. J. Rogers, T.M. Fraser, Rachael M. Horner, and David M. Suckling

Subjects

Larva, Mating disruption, business.industry, Pest control, food and beverages, Horticulture, Biology, Pheromone trap, Agronomy, Insect Science, Sex pheromone, Pheromone, Mating, business, Agronomy and Crop Science, Phytosanitary certification

Abstract

Leafrollers are important pests of apples and infested fruit can result in rejection of export consignments. Leafroller mating disruption using a pheromone blend with activity against three species was examined in 12 Hawke's Bay orchards over two seasons (2009- 10 and 2010-11). Pheromone dispensers (600/ha) and a single insecticide were applied to trees in early November, and subsequent insecticide use was based on leafroller pheromone trapping and thresholds. The pheromone blend substantially suppressed mating of virgin female lightbrown apple moth in treated orchards and reduced male catch in pheromone traps by up to 98% compared with the season prior to implementation. Insecticide use for leafroller control decreased accordingly, from 2.1-2.7 insecticides per block in 2008/09 to 1.0-1.8 in 2010/11. Leafroller control using mating disruption was acceptable, fruit damage varied from 0.3% to 0.16% and no leafroller larvae were found on fruit in both field assessments and phytosanitary inspections of packed cartons.

Published

2011

24. LATEST TRENDS IN INSECT AND DISEASE MANAGEMENT IN ORGANIC APPLE SYSTEMS IN THE MIDWESTERN USA AND NEW ZEALAND

Author

Sarah Guernsey, Vincent G. M. Bus, Andrea McKern, Allan G. White, N. How, D.J. Rogers, L.M. Cole, Jason W. Johnston, James T S Walker, Richard K. Volz, Kathleen Delate, and Robert Turnbull

Subjects

Integrated pest management, biology, Mating disruption, Codling moth, Venturia inaequalis, Horticulture, biology.organism_classification, law.invention, Conotrachelus nenuphar, Agronomy, law, Quarantine, Organic farming, Orchard

Abstract

In the USA in 2005, organic apples were produced on 2788 ha in the drier climates of Colorado and eastern Washington State, but significant production also occurred in the Midwestern USA. In Midwestern organic markets, scab (Venturia inaequalis)-resistant cultivars have gained increased acceptance as the most environmentally acceptable method of organic apple production, due to concerns about copper and sulfur applications in susceptible cultivars. Typically, key pests, such as codling moth (Cydia pomonella), have been managed to damage levels below 5% through the use of codling moth granulosis virus (CMGV), mating disruption, kaolin clay, and spinosad-based insecticides. In an experimental organic apple orchard in Iowa, killing frosts in 2007 destroyed up to 80% of fruit production, leading to a resurgence of codling moth and plum curculio (Conotrachelus nenuphar) under a no-spray program. This resurgence emphasizes the need to manage pests even in low crop years. Similar pest management systems have been developed by apple-exporting countries like New Zealand in order to comply with export standards and quarantine requirements. In New Zealand, significant progress has been made in achieving greater fruit firmness after 3-month storage in advanced scab-resistant selections with 'Pinkie' background compared to 'Pinkie' or 'Liberty' apples. Future pest management strategies in organic apple production will continue to focus on the development of scab-resistant cultivars with enhanced storage capability, and the use of controlled atmosphere (CA) treatments to reduce inputs associated with negative environmental and health effects.

Published

2010

25. A sophisticated life history strategy in a parasitoid wasp: Producing univoltine and multivoltine phenotypes in a local population

Author

Qiao Wang, Xiong Zhao He, Peter L. Lo, James T S Walker, and D.J. Rogers

Subjects

Phenotypic plasticity, education.field_of_study, biology, Ecology, fungi, Voltinism, Population, Diapause, biology.organism_classification, Parasitoid, Parasitoid wasp, Insect Science, Aestivation, education, Agronomy and Crop Science, Overwintering

Abstract

Insects may adopt a range of strategies such as diapause, migration and phenotypic plasticity to achieve maximal survival and reproduction in response to the environment. However, the phenotypic plasticity of voltinism in local populations of biological control agents is still poorly understood, making evaluation of biological control efficiency difficult. Here we report our two years’ work on a parasitic wasp, Platygaster demades Walker (Hymenoptera: Platygasteridae), a parasitoid of apple leaf-curling midge, Dasineura mali Kieffer (Diptera: Cecidomyiidae). P. demades produces aestivating and non-aestivating phenotypes at the embryonic stage over the season. It regulates the frequency and duration of aestivating phenotypes from the late spring to mid autumn and adjusts the embryonic developmental rate of non-aestivating phenotypes from the early to late autumn, producing univoltine, bivoltine, trivoltine and quadrivoltine phenotypes over the season. The regulation of aestivation frequency and duration is a temporal risk-spreading strategy for maximal survival, i.e., when the future food source is expected to be short the wasp regulates its population by entering aestivation in a frequency and duration concordant with the expected scale and duration of food shortage to avoid massive mortality. This strategy helps maintain a large overwintering population size for the next season. The adjustment of the embryonic developmental rate for the non-aestivating phenotype from the early to late autumn is an adaptive developmental strategy for maximal synchronization with the host, D. mali, i.e., the later the D. mali larvae become mature, the faster the parasitoid embryos develop. This strategy ensures that both aestivated and non-aestivated individuals reach a complete synchronization with the emergence of their hosts in the next spring.

Published

2010

26. Managing bronze beetle (Eucolaspsis sp) in Hawkes Bay organic apple orchards using soil cultivation

Author

T.M. Fraser, L.M. Cole, James T S Walker, and D.J. Rogers

Subjects

business.industry, Pest control, Horticulture, engineering.material, Biology, Cultural control, Pupa, Tillage, Agronomy, Economic viability, Insect Science, engineering, Bronze, business, Agronomy and Crop Science, Bay

Abstract

Bronze beetle (Eucolaspsis sp Coleoptera Chrysomelidae) threatens the economic viability of New Zealands organic pipfruit industry Small plot cultivation trials were conducted during spring to target immature beetles in the soil under apple trees These treatments did not appear to be as effective in the second year as in the previous year although two cultivations significantly reduced beetle emergence at all orchards compared with the control In largescale cultivation trials two cultivations reduced damage to apples by 4661 Sampling immature development stages of the beetles in the soil indicated that cultivation should commence during mid October to target pupae in the top 70 mm of the soil The application of cultivation treatments for controlling bronze beetle on commercial orchards is discussed

Published

2009

27. Progress in pesticide risk reduction in New Zealand horticulture

Author

M.J. Barley, James T S Walker, C. van den Dijssel, Brent Clothier, D.W.L. Manktelow, N.M. Park, A.J. Hodson, and L.R. Hodson-Kersey

Subjects

Human toxicity, Agrochemical, business.industry, Aquatic ecosystem, Horticulture, Biology, Pesticide, Fungicide, Pesticide use, Agronomy, Hazardous waste, Insect Science, Organic farming, business, Agronomy and Crop Science

Abstract

The New Zealand horticultural sector has made substantial progress in pesticide risk reduction by implementing sustainability programmes. Apple and winegrape pesticide use was analysed to measure changes in human and aquatic eco-toxicity arising from these initiatives using the Hazardous Substances and New Organism 1996 Act (HSNO) classification system. In 1995 insecticide use on apples and winegrapes was 11.6 and 0.31 kg ai/ha respectively, while fungicide loadings were similar, about 30 kg ai/ha. Since then insecticide loading on apples has decreased by 80% with much lower potential human toxicity. Growers following Integrated Fruit Production guidelines reduced fungicide loadings by 45% but expansion of organic apple production increased the sector’s total fungicide use. The wine sector has reduced their total agrichemical loading of insecticides by 72% and fungicides by 62%, mostly through lower use of sulphur fungicides. Both sectors have reduced their use of agrichemicals that are potentially toxic to aquatic ecosystems.

Published

2009

28. Maximising the effectiveness of insecticides to control mealybugs in vineyards

Author

Peter L. Lo, V.A. Bell, and James T S Walker

Subjects

biology, business.industry, Pest control, Horticulture, biology.organism_classification, Vineyard, Toxicology, Prothiofos, Buprofezin, Agronomy, Insect Science, Mealybug, business, Chemical control, Agronomy and Crop Science

Abstract

Mealybugs (Hemiptera Pseudococcidae) are the most important insect pests in New Zealand vineyards because they vector grapevine leafroll virus which seriously debilitates vines and reduces wine quality A field trial was conducted on a commercial vineyard using the insecticides prothiofos (Tokuthion) and buprofezin (Applaudtrade;) Factors tested were the timing and number of applications water rate (250 500 or 1000 litres/ha) and inclusion of an alkylsilicone or organosilicone spreadertype adjuvant Prothiofos was applied in late September (late dormant) while buprofezin was sprayed at late dormant mid October and late November (preflowering) The best treatments for reducing mealybug numbers and proportion of infested leaves were prothiofos at late dormant and two later applications of buprofezin Two applications of buprofezin were more effective than one more than halving the number of mealybugs A water rate of 500 litres/ha was equally as effective as 1000 litres/ha None of the three adjuvants improved the efficacy of prothiofos or buprofezin

Published

2009

29. Potential strategies to manage bronze beetle (Eucolaspsis sp) in organic apple orchards

Author

T.M. Fraser, James T S Walker, L.M. Cole, and D.J. Rogers

Subjects

Agronomy, Agroforestry, Insect Science, engineering, Horticulture, Biology, Bronze, engineering.material, Agronomy and Crop Science

Abstract

Bronze beetle (Eucolaspsis sp Coleoptera Chrysomelidae) threatens the viability of New Zealands organic pipfruit industry Small plot cultivation trials were conducted during spring to target immature beetles in the soil in a 25 m strip under apple trees A single cultivation treatment in October prevented 56 to 81 of the beetle population from emerging When plots were tilled every second week from October to December 79 to 95 failed to emerge The pattern and timing of bronze beetle emergence during 2006 was consistent between the four trial orchards and with the 2005 season A survey of 20 orchards during November 2006 was unable to link beetle damage levels with management practices and the physical environment New strategies to manage bronze beetle larvae are discussed

Published

2007

30. Trapping Dasinuera mali (Diptera: Cecidomyiidae) in Apples

Author

David Maxwell Suckling, James T. S. Walker, Peter W. Shaw, Lee-Anne Manning, Peter Lo, Roger Wallis, Vaughn Bell, W. R. Manoharie Sandanayaka, David R. Hall, Jerry V. Cross, and Ashraf M. El-Sayed

Subjects

Ecology, Insect Science, General Medicine

Published

2007

31. Trapping Dasinuera mali (Diptera: Cecidomyiidae) in Apples

Author

L. M. Manning, W. R. Manoharie Sandanayaka, Ashraf M. El-Sayed, Roger Wallis, James T S Walker, Jerry V. Cross, P. W. Shaw, Peter L. Lo, David Hall, V.A. Bell, and David M. Suckling

Subjects

Malus, education.field_of_study, Ecology, biology, Population, General Medicine, medicine.disease_cause, biology.organism_classification, Horticulture, Cecidomyiidae, Insect Science, Infestation, Midge, Botany, medicine, Pheromone, PEST analysis, Orchard, education

Abstract

The midge Dasineura mali (Kieffer) (Diptera: Cecidomyiidae) is a significant pest of apples (Malus spp.), and the recent identification of the female sex pheromone is enabling new direct control tactics to be considered. Direct control using male suppression will require knowledge of the frequency of multiple mating, dispersal and colonization rates, and the efficiency of male removal. Males were able to mate up to five times, with a mean of 2.7 times when presented in a 10 female-to-1 male group, designed to simulate male suppression. Male catch in response to the pheromone loading was curvilinear over 4 orders of magnitude from 3 microg to 30 mg on rubber septa. Trapping using a high-dose pheromone lure was combined with oil-based traps similar to the inexpensive New Zealand "Lynfield trap" used for tephritid surveillance, to test male suppression in young orchard blocks at 500 traps per ha. Monitoring traps indicated 96% lower catch in the treated plots compared with control plots, over 137 d. However, a lack of shoot tip infestation in both treated and untreated plots indicated limited colonization and prevented an assessment of potential population suppression. Furthermore, a contribution to these results from communication disruption cannot be ruled out. Replicated transects of frequency of infested shoots from a mature orchard across the adjacent young block confirmed that colonization by ovipositing females was essentially limited to the first 30 m.

Published

2007

32. Monitoring leafrollers (Lepidoptera Tortricidae) in vineyards

Author

James T S Walker and Peter L. Lo

Subjects

Lepidoptera genitalia, Tortricidae, Horticulture, biology, Insect Science, fungi, parasitic diseases, biology.organism_classification, Agronomy and Crop Science

Abstract

Leafroller larvae especially Epiphyas postvittana damage grape bunches and more importantly promote spread of the disease botrytis (Botrytis cinerea) Three methods of monitoring leafrollers were compared on 10 Hawkes Bay vineyard blocks The methods were timed searches of leaves for larvae inspection of bunches for larvae and pheromone trapping of adult males Seasonal changes in leafroller abundance were similar on all vineyards Usually few larvae were found until February but infestations increased greatly between then and March In other respects leafroller infestations were variable between and sometimes within blocks None of the monitoring methods was completely successful The most useful method was bunch inspection primarily because of the close correlation between bunch infestations in January and at harvest However this method is relatively laborious and did not give enough warning to enable use of some insecticides Leafroller infestations on leaves in all months and pheromone trap data were poor predictors of harvest bunch damage

Published

2006

33. A review of the ecology of grapevine leafroll associated virus type 3 (GLRaV3)

Author

K.C. Breen, James T S Walker, J. G. Charles, V.A. Bell, S.A. Forgie, and D. Cohen

Subjects

Vine, food.ingredient, biology, Transmission (medicine), Ecology, food and beverages, Plant pathology, Disease, Horticulture, biology.organism_classification, Vineyard, Pseudococcus, food, Insect Science, Plant virus, Agronomy and Crop Science, Ampelovirus

Abstract

Grapevine leafroll disease in New Zealand is predominantly caused by the ampelovirus GLRaV3 which is vectored between vines by up to three species of mealybugs (Pseudococcus spp) However global understanding of the transmission and spread of GLRaV3 remains limited and does not definitively show how to successfully manage the disease in New Zealand The disease is a manifestation of a complex relationship between the virus vine and vectors each component of which is interdependent on the other two The review suggests that a full understanding of the disease will require research and operational input from plant virologists entomologists vine physiologists pest controllers vineyard managers grapevine breeders/improvers and winemakers Such a wide range of expertise should ensure that the factors behind the spread of the disease over time (its epidemiology) are accurately determined and that effective management solutions are delivered over the course of decades

Published

2006

34. Mortality of the leafroller parasitoid Dolichogenidea tasmanica (Hym Braconidae) exposed to orchard pesticide residues

Author

James T S Walker, I. C. Newman, and D. J. Rogers

Subjects

Tebufenozide, biology, Indoxacarb, Spinosad, Horticulture, Pesticide, Thiacloprid, biology.organism_classification, Toxicology, chemistry.chemical_compound, chemistry, Insect Science, medicine, Lufenuron, Agronomy and Crop Science, Braconidae, Emamectin, medicine.drug

Abstract

A laboratory bioassay was used to evaluate the effect of residues from 10 orchard pesticides on mortality of Dolichogenidea tasmanica a parasitoid of leafrollers Adult parasitoids were caged in Petri dishes that had been sprayed with the field rate of the pesticides Mortality was assessed over 7 days and classified using the laboratory criteria defined by the International Organization for Biological and Integrated Control of Noxious Animals and Plants Residues of buprofezin emamectin benzoate lufenuron tebufenozide and thiacloprid were harmless (lt;30 mortality) to D tasmanica adults in the 7 days after treatment Indoxacarb and lime sulphur residues were moderately harmful (8099 mortality) while carbaryl diazinon and spinosad residues were harmful (>99 mortality) The implications for leafroller control in pipfruit production programmes are discussed

Published

2004

35. CURRENT SITUATION AND FUTURE CHALLENGES FACING THE PRODUCTION AND MARKETING OF ORGANIC FRUIT IN OCEANIA

Author

S.J. McArtney and James T S Walker

Subjects

Geography, Production (economics), Horticulture, Current (fluid), Agricultural economics

Published

2004

36. Understorey influence on leafroller populations in Hawkes Bay organic apple orchards

Author

F. Weibel, L.M. Cole, I.C. Moen, Peter L. Lo, James T S Walker, and D.J. Rogers

Subjects

Tortricidae, biology, Parasitism, Understory, Horticulture, biology.organism_classification, Population density, Parasitoid, Glyptapanteles, Insect Science, Botany, Orchard, Agronomy and Crop Science, Bay

Abstract

Leafrollers (Tortricidae) were collected from apple foliage and understorey vegetation in six commercial organic apple orchards in Hawke’s Bay over one season. Assessments were made of plant species present in the understorey at the time of collection. All leafroller larvae were reared to adults on artificial diet to identify leafroller species and parasitoids. Nearly half (47%) of all leafrollers collected in these orchards were located in the understorey, highlighting the importance of understorey and its management for the control of leafroller. Dock, clover and dandeliontype plants contributed 25% to the overall understorey, yet hosted 75% of the leafrollers collected from the understorey. Dolichogenidea sp. was the most abundant parasitoid (79%) attacking leafrollers found amongst the apple foliage, whereas Glyptapanteles demeter was dominant in the understorey (61%). Generally the number of leafrollers in an orchard was proportional to the abundance of broadleaf weeds and inversely proportional to parasitism.

Published

2003

37. Prospects for the control of apple leaf midge Dasineura mali (Diptera: Cecidomyiidae) by mass trapping with pheromone lures

Author

Peter L, Lo, James T S, Walker, and D Max, Suckling

Subjects

Male, Diptera, Larva, Malus, Animals, Insect Control, Pheromones, New Zealand

Abstract

Apple leaf midge, Dasineura mali (Kieffer), poses quarantine issues for some apple export markets because larvae occasionally pupate in the stem end and calyx of fruit. Pheromone-baited oil-filled containers were used in 1 ha orchard plots to trap adult male D. mali in order to test the potential for mass trapping to reduce populations.Mass-trapped plots had 97% fewer adult males in pheromone traps and 48% fewer larvae per shoot in the second D. mali generation compared with untreated areas. Oil traps caught on average 900 000 D. mali per plot over 11 weeks during the second and third generations. Catches averaged 9200 per trap at plot corners. By comparison, catches were 51% lower 10-25 m away along borders, 80% lower at the midpoint of borders and 95% lower7 m from plot edges. Fruit infestation was low (four out of 8000 apples).The attractiveness of the pheromone, monophagous habit and low mobility of D. mali enhance the prospects for successful mass trapping. Countering this are high populations, multivoltinism and aspects of mating behaviour. Mass trapping would probably have been more effective had it been in place season long and conducted over successive years. It needs refinements and more study before becoming a feasible control option for D. mali.

Published

2014

38. Factors affecting feeding site preferences of lightbrown apple moth,epiphyas postvittana(lepidoptera: Tortricidae), on apple trees in New Zealand

Author

G. M. Burnip, James T S Walker, P. W. Shaw, Peter L. Lo, David M. Suckling, and S. J. Bradley

Subjects

Tortricidae, Malus, Larva, biology, Field experiment, fungi, food and beverages, Ripening, Horticulture, biology.organism_classification, medicine.disease_cause, Lepidoptera genitalia, Botany, Infestation, Shoot, medicine, Agronomy and Crop Science

Abstract

The infestation of apple (Malus domestica) trees by Epiphyas postvittana (Walker) larvae was studied over 3 years. Fresh damage to leaves increased progressively during the season, although in Nelson it declined in April. Fruit damage was first detected in December and increased throughout the season. The incidence of fruit damage was most strongly correlated with the surface area of fruit. Single leaves were the preferred feeding site for larvae on terminal shoots, although when whole branches were examined, most shelters occurred between two leaves. Feeding sites on fruit predominantly involved contact with a leaf or another apple. A field experiment examined the influence of physical contact and fruit maturation on leafroller damage. E. postvittana larvae were offered a choice of feeding sites involving leaves and three types of “apple” namely untreated apples, apples treated with chlorethephon to promote ripening, and plastic balls. There was 16% more damage on treated compared with untreated...

Published

2000

39. Pheromone trap colour determines catch of nontarget insects

Author

C. H. Wearing, S. J. Bradley, David M. Suckling, James T S Walker, J.M. Daly, P.W. Shaw, G. F. McLaren, and Graeme K. Clare

Subjects

biology, Cydia pomonella, Zoology, Horticulture, biology.organism_classification, Pheromone trap, Lasioglossum, Hylaeus, Honey Bees, Non target, Insect Science, Sex pheromone, Botany, Pheromone, Agronomy and Crop Science

Abstract

Pheromone traps were operated in five regions to determine the impact of trap colour on catch of target and nontarget insects Red or green coloured pheromone sticky traps caught fewer native and introduced bees compared to the standard white traps and yellow or blue traps Honey bees (Apis mellifera) were caught mainly in white followed by blue traps while bumble bees (Bombus spp) were most attracted to blue traps with most of the remainder caught in white traps Native bee (Lasioglossum and Hylaeus spp) catches were greatest in white traps followed by yellow traps with a few in green traps There was no significant difference in catch of the target species Cydia pomonella or Epiphyas postvittana with trap colour Replacement of the white traps with green or red traps is recommended to reduce nontarget impacts on bees

Published

2000

40. Ecological impact of three pest management systems in New Zealand apple orchards

Author

C. H. Wearing, James T S Walker, and David M. Suckling

Subjects

Integrated pest management, Ecology, Mating disruption, Codling moth, fungi, Biology, Pesticide, Weed control, biology.organism_classification, Sustainability, Animal Science and Zoology, Orchard, Agronomy and Crop Science, Fruit tree

Abstract

Three apple pest-management regimes are being compared for their ecological impacts, and their ability to ensure the economic production of high-quality apples. Species diversity, pest status and fruit quality are being evaluated under: (i) conventional, (ii) integrated, and (iii) biological fruit production systems. The conventional system follows current export orchard practices with broad-spectrum pesticides, and the integrated system uses a wider range of control methods, including minimal spray applications, preferably of selective pesticides. The biological system uses mating disruption for codling moth (at one site), Bacillus thuringiensis for leafrollers, copper/slaked lime for diseases, and matting or mulches for weed control. Conventional production results in few insects being present during the season and little damage at harvest, but increasing insecticide resistance problems and changing market requirements put the sustainability of this system in doubt. In the integrated system, excellent control of Lepidoptera has been achieved using tebufenozide, with little effect on natural enemies. Further development of the system is needed, but the economics appear favourable for producing export-quality fruit in future. In the biological system, the lack of effective controls for key quarantine pests limits economic sustainability and largely restricts production to the local market. The future of this system for export production depends on innovative technology to overcome these problems.

Published

1999

41. Abundance of leafrollers and their parasitoids on selected host plants in New Zealand

Author

Peter L. Lo, G. F. McLaren, J. A. Fraser, C. R. Howard, P. W. Shaw, G.M. Burnip, David M. Suckling, V. White, and James T S Walker

Subjects

Tortricidae, Ctenopseustis obliquana, Horticulture, biology, Planotortrix excessana, Planotortrix octo, PEST analysis, Orchard, biology.organism_classification, Agronomy and Crop Science, Cnephasia, Alder

Abstract

The comparative abundance of orchard pest leafroller larvae was determined on eight host plants in the vicinity of pipfruit orchards. The greatest numbers occurred in Canterbury, followed by Nelson, Hawke's Bay, and Central Otago. In Hawke's Bay, leafroller larvae were Ctenopseustis obliquana (41%), Planotortrix octo (15%), Epiphyas postvittana (16%), and Cnephasia jactatana (9%), and were most abundant on poplar, willow, and alder. In Nelson, leafrollers were E. postvittana (25%), Planotortrix excessana (23%), C. obliquana (23%), and C. herana (22%), found on willow, alder, clover, poplar, gorse, broom, dock, and plantain. In Canterbury, larvae were C. herana (51%), E. postvittana (34%), and P. octo (15%), mainly on broom, gorse, alder, poplar, dock, and clover. Leafrollers were very rare on host plants sampled in Central Otago, despite their pest status in horticulture. A total of 1460 larvae were reared to adults from the four regions, with 31% parasitism, of which two thirds were Dolichogenid...

Published

1998

42. Integrated fruit production (IFP) for New Zealand pipfruit: evaluation of pest management recommendations

Author

C. H. Wearing, G. M. Burnip, P. W. Shaw, A. J. Hodson, James T S Walker, A. R. Tomkins, S. J. Bradley, and C. Richardson

Subjects

Integrated pest management, General Computer Science, Agroforestry, Production (economics), Biology

Published

1998

43. The use of pheromone traps for leafroller action thresholds in pipfruit

Author

S. J. Bradley, James T S Walker, C. H. Wearing, A. J. Hodson, and P. W. Shaw

Subjects

Tortricidae, Lepidoptera genitalia, Horticulture, General Computer Science, biology, Ecology, Epiphyas postvittana, Pheromone trap, biology.organism_classification

Abstract

In orchards using New Zealand Integrated Fruit Production for pipfruit (NZIFP-P), the decision to treat for leafroller (Lepidoptera: Tortricidae) results from sampling of 200 fruit clusters or 200 shoots. This required a large time commitment by the grower, was subject to misidentification and was a poor predictor of damage at harvest. In 1996-97, cumulative trap catch of Epiphyas postvittana (LBAM) within NZIFP-P research plots was found to be highly correlated with damage at harvest and a cumulative catch of 30 moths after 15 December was established as a tentative threshold. Insecticides were to be applied at least 21 days apart during periods of high trap catches. In 1997-98, this threshold was successfully used by 300 growers and using their trap data, the effect of increasing the threshold to 50 was examined. The 50 moth threshold is not appropriate in Otago, but in northern regions shows some potential and requires further evaluation.

Published

1998

44. New Zealand integrated fruit production for pipfruit - charting a new course

Author

T.A. Batchelor, James T S Walker, D.W.L. Manktelow, S.R. Johnson, and N.M. Park

Subjects

Agricultural science, Geography, General Computer Science, Production (economics), Course (navigation)

Published

1997

45. Resistance of Planotortrix octo (greenheaded leafroller) to azinphos-methyl in Hawke's Bay

Author

James T S Walker, David M. Suckling, and Peter L. Lo

Subjects

Larva, General Computer Science, biology, Mating disruption, fungi, Planotortrix octo, biology.organism_classification, chemistry.chemical_compound, Horticulture, chemistry, Botany, Azinphos-methyl, Pheromone, Instar, PEST analysis, Bay

Abstract

Apple orchardists in Twyford, Hawke’s Bay, have reported increased fruit damage by leafrollers for several years. Of the three pest species present in this area, Planotortrix octo (greenheaded leafroller), is the main species found on fruit. First instar P. octo larvae were screened for resistance by a direct spray test using a Potter tower. Dosage-mortality responses for the offspring of wild-wild pairs from three orchards showed a 7-32 fold resistance to azinphos-methyl compared with larvae from a susceptible laboratory colony. P. octo larvae from one of the above and 16 further orchards were sprayed with a single diagnostic dosage (LD 99 for the susceptible strain). Resistance was found at 17 of 19 sites covering approximately 1000 ha. A resistance management strategy, using pheromone mating disruption, is being implemented.

Published

1997

46. Biological control of woolly apple aphid by Aphelinus mali in an integrated fruit production programme in Nelson

Author

James T S Walker and P. W. Shaw

Subjects

Aphid, education.field_of_study, General Computer Science, Population, Biological pest control, Sturmer Pippin, Eriosoma lanigerum, Biology, medicine.disease_cause, biology.organism_classification, Horticulture, Agronomy, Infestation, medicine, Orchard, education, Aphelinus mali

Abstract

Woolly apple aphid Eriosoma lanigerum (Hausmann) populations were monitored at the Appleby Research Orchard near Nelson (1994/ 1996) in two apple cultivars as part of an experimental Integrated Fruit Production programme which included the insect growth regulator insecticide tebufenozide. The aphid population increased dramatically during the first season in one cultivar (‘Sturmer Pippin’) from mid February and reached 90% shoot infestation by late summer. Parasitism of the aphid by the specific endoparasitoid, Aphelinus mali (Haldeman), was first recorded in late March 1995 and peaked at 13% by the end of April 1995 when monitoring ceased. In the second season the parasitoid was present from early summer and >80% parasitism was recorded by late April 1996. Aphid control was achieved without the need for specific aphicide sprays. The results indicate the potential for biological control of woolly apple aphid by A. mali within a selective insecticide

Published

1996

47. Leafroller phenology and parasitism in Hawkes Bay, New Zealand, canefruit gardens

Author

V. White, James T S Walker, and J.G. Charles

Subjects

Ctenopseustis obliquana, Tortricidae, education.field_of_study, biology, Ecology, Phenology, fungi, Population, food and beverages, Parasitism, Horticulture, biology.organism_classification, Pheromone trap, Beneficial insects, PEST analysis, education, Agronomy and Crop Science

Abstract

Pheromone traps together with leaf and fruit samples were used to measure the seasonal occurrence and relative pest status of three species of leafrollers (Lepidoptera: Tortricidae) in two berryfruit gardens in Hawkes Bay, New Zealand. The pheromone trap data detected slight differences in the seasonal phenology of male flights between the two properties, but reflected the relative pest status of larvae infesting leaves and fruit at only one property. Numbers of larvae of the different species found in leaves, on the other hand, were good predictors of pest status at harvest. Three species of larval parasitoids (all Hymenoptera) were reared, and their seasonal occurrence noted, but the data were inadequate to allow life‐table compilation or measurement of population regulation of their hosts.

Published

1996

48. Monitoring pests of peaches in Hawke's bay to reduce insecticide applications

Author

D. W. Manktelow, James T S Walker, V. F. Bohm, and Peter L. Lo

Subjects

General Computer Science, Agronomy, business.industry, Agroforestry, Pest control, Biology, Pheromone trap, business, Chemical control, Bay

Published

1995

49. Biology and Management of Mealybugs in Vineyards

Author

Marcos Botton, M. Mani, Rodrigo P. P. Almeida, V.A. Bell, Vaughn M. Walton, Majid Fallahzadeh, Jose Luis Miano, Tania Zaviezo, René Sforza, James T S Walker, and Kent M. Daane

Subjects

Horticulture, biology, Grape mealybug, Planococcus citri, Pseudococcus maritimus, Mealybug, biology.organism_classification, Vineyard, Wine grape, Dysmicoccus brevipes, Pseudococcus viburni

Abstract

Economic losses resulting from vineyard mealybug infestations have increased dramatically during the past decade. In response, there has been a cosmopolitan effort to improve control strategies and better understand mealybug biology and ecology, as well as their role as vectors of plant pathogens. Mealybugs are named for the powdery secretions covering their bodies. The most important vineyard mealybugs belong to the subfamily Pseudococcinae (Hardy et al. 2008). Although numerous mealybug species are found in vineyards, this chapter will cover only those that have risen to the level of primary pest. These are the grape mealybug, Pseudococcus maritimus (Ehrhorn), obscure mealybug, Pseudococcus viburni (Signoret), long-tailed mealybug, Pseudococcus longispinus (Targioni Tozzetti), citrophilus mealybug, Pseudococcus calceolariae (Maskell), vine mealybug, Planococcus ficus (Signoret), citrus mealybug, Planococcus citri (Risso), pink hibiscus mealybug, Maconellicoccus hirsutus (Green), and the newly identified Gills mealybug, Ferrisia gilli Gullan. Meanwhile in Brazil and India, Dysmicoccus brevipes (Cockerell) and Xenococcus annandalei Silvestri respectively, feed on vine roots. Collectively, these species will be referred to as the vineyard mealybugs, although their host range is diverse and many are pests of other agricultural crops and ornamental plants (McKenzie 1967; Ben-Dov 1995).

Published

2012

50. Dispersal ofEpiphyas postvittana(Walker) andPlanotortrix octoDugdale (Lepidoptera: Tortricidae) at a Canterbury, New Zealand orchard

Author

David M. Suckling, James T S Walker, G. M. Burnip, and Jay F. Brunner

Subjects

Tortricidae, biology, Ecology, food and beverages, Zoology, Planotortrix octo, Horticulture, biology.organism_classification, Pheromone trap, Lepidoptera genitalia, Epiphyas postvittana, Biological dispersal, PEST analysis, Orchard, Agronomy and Crop Science

Abstract

Mated pairs of Epiphyas postvittana and Planotortrix octo were marked and released at a point source in a young, 40 ha orchard. Port wine bait traps and pheromone traps along eight radiating transects were checked daily. In 1988, recapture of E. postvittana was 0.24% of females in bait traps, 0.23% of males in bait traps, with 3.4% of males in pheromone traps. In 1990, recapture of both male and female E. postvittana was more successful (12.2% of females in bait traps, 4.4% of males in bait traps, and 12.4% of males in pheromone traps). No marked males and only one marked female P. octo were recaptured in bait traps, although 5.1% of males were recaptured in pheromone traps. The maximum dispersal distance recorded for E. postvittana males was 600 m, but 80% of released males were recaptured within 100 m. For female E. postvittana, the maximum distance recorded was 275 m, with 99% dispersing 100 m or less. Male P. octo exhibited similar dispersal capability to male E. postvittana, with a maximum o...

Published

1994