Monteiro L.B.1, Dor C.2, Franck P.2, Lavigne C.2, Sauphanor B.2

Slides:

Advertisements

Similar presentations

Biological Control in Victorian Grape Vines using Trichogramma

Advertisements

DecompositionBiological ControlPollination © wildlife-pictures-online.com© Peter Bryant© Jackie / Bugguide.net.

Optimizing the use of the codling moth granulovirus: Final Report L. Lacey S. Arthurs R. Fritts R. Behle A. Knight.

Susceptibility of the African bollworm, Helicoverpa armigera (Hub.) to endosulfan, chlorpyrifos, carbosulfan and fenpropathrin using different bioassay.

IPM Overview Smart pest control tactics you can use.

Integrated Pest Management.  IPM is an approach on pest management. It is environmentally sensitive and is effective.  IPM has the advantage to most.

Introduction Manduca sexta is a common species of moth whose range stretches from the northern United States to Argentina. Because of their wide dispersal,

© ENDURE, February 2007 FOOD QUALITY AND SAFETY © ENDURE, February 2007 FOOD QUALITY AND SAFETY Codling moth (Cydia pomonella) biology and control Spain.

Non GM Methods of Controlling Aphids in Cereals Lawrence Woodward.

Bailee Slack Camdenton High School. Background Information: Helicoverpa zea - most costly agricultural pest in country -can damage up to 50 % of sweet.

Effects of wheat/oilseed rape and wheat/pea associations on the diversity of aphids and aphidophagous beneficials Thomas Lopes 1*, Emilie Bosquée 1, David.

Integrated Pest Management What is integrated pest management? 1. IPM is most effective and environmentally friendly method approach to control. 2. IPM.

Developing Sustainable Pest Control Practices Against Major Pests in Papaya in Hawaii Leyla V. Kaufman and Mark G. Wright Department of Plant and Environmental.

Clermont College Ecology Michelle Beebe Ashley Callahan Kati O'Rourke Professor Janet Stein-Carter.

Plant diversity and land use under organic and conventional agriculture: a whole- farm approach Paper by: R. H. GIBSON, S. PEARCE, R. J. MORRIS, W. O.

Some Remarks on pest control in Brazil Thanks to Anderson Galvão – Céleres Consultoria and Prof. Marcelo Gravina de Moraes -UFRGS.

Integrated Pest Management

Review of the Systems Approach Work Plan for the Exportation of Apples from the United States into Taiwan Presented by APHIS July 26 and 27, 2005.

Mating disruption trials for control of Bonagota cranaodes (Lepidoptera: Tortricidae) in apple in Brazil Miryan D.A. Coracini 1, Evaldo F. Vilela 2, Paulo.

Rick Weinzierl, University of Illinois. Know:  Insect growth and development are temperature-dependent.  The developmental threshold for a phenology.

Species Diversity of Beneficial and Pest Insects in Home Gardens Cameron, Rachael, Barney, Puja, Nathaniel James Johnson, Crystal, Christie, John, and.

© ENDURE, February 2007 FOOD QUALITY AND SAFETY © ENDURE, February 2007 FOOD QUALITY AND SAFETY Integrated Pest Management for WESTERN CORN ROOTWORM -WCR.

Plant tissue analysis for testing nutrients deficiency in Mango

 DIVERSITY  RELATIONSHIP OF DIVERSITY & STABILITY  DIVERSITY INDEX  MICROCLIMATES  USING QUADRANTS.

Pseudoscymnus tsugae (Coleoptera: Coccinellidae), a predator of Adelges tsugae (Homoptera: Adelgidae) on Tsuga canadensis in the landscape. M. A. DeSanto.

Agriculture Notes IPM – Integrated Pest Management IPM involves the use of not one but several different methods of pest control.

Tuesday 11:00 – 1:50 Thursday 11:00 – 1:50 Instructor: Nancy Wheat Ecology Bio 47 Spring 2015.

Integrated Pest Management. PEST MANAGEMENT Cultural (Prevention)  Modification of normal plant care  Proper plant selection  Resistant species  Proper.

Mass Rearing and Augmentative Releases of Bracon hebetor to Suppress Indianmeal Moth, Plodia interpunctella Populations in Stored Wheat Mukti N. Ghimire.

Use of Phenology Models for Insect Management in Southeastern Tree Fruits Jim Walgenbach Department of Entomology NC State University MHCREC, Mills River,

Fruit & Vegetable Production Unit for Plant Science Core Curriculum Lesson 4: Integrated Pest Management Fruit & Vegetable Production Unit for Plant Science.

Entomopathogenic nematodes for control of overwintering codling moth in orchards L. A. Lacey, H. L. Headrick, S. P. Arthurs and T. R. Unruh USDA-ARS, Yakima.

Integrated Pest Management. Learning Objectives 1.Define IPM (Integrated or Insect Pest Management). 2.Describe why IPM is important. 3.Describe what.

High codling moth pressure and small plots (cv. Bartlett) Treatment Rate (form/ac) % Stings% Entries Check Carpo- virusine 400 ml

Funding: This project supported by the Northeast Sustainable Agriculture Research and Education (SARE) program. SARE is a program of the National Institute.

Cultural Practices and Resistant Varieties in Mango

Integrated Pest Management Lesson 5.3. Theme Outline Lesson 5.3 Effects of IPM on the Environment and Society Benefits of IPM Drawbacks of IPM.

Seasonal Emissions of N 2 O, NO, CO and CO 2 in Brazilian Savannas Subjected to Prescribed Fires Alexandre Pinto, Mercedes Bustamante, Laura Viana, Universidade.

Integrated Pest Management Essential Standard Explain Integrated Pest Management (IPM) and pesticides.

Impacts of Forest Types on Formicadae Biodiversity: Native vs Alien Species A Comparison of Secondary Forest versus Eucalyptus Forest in Southern Brazil.

MSU Extension Pesticide Education Ornamental Pest Management (Category 3B) Pest Management Techniques Chapter 2.

History of Pest Management Pre-Insecticide Insecticide Emergence of Pest Management.

Pesticides and Pest Control. Types of Pesticides and Their Uses  Pests: Any species that competes with us for food, invades lawns and gardens, destroys.

Case Study Learning in the Parasitoid Wasp (Hyssopus pallidus)

Fighting Nature with Nature – a case study of biological warfare Jeanne Y. de Waal, A. P. Malan, M. F. Addison & P. Addison University of Stellenbosch.

Use of Slow Release Nitrogen Fertilizer and its effect on soil quality. Soil bacterial population Hernandez, Jorge D., Garcia, Rosalia. and Lightfoot,

C ONTRIBUTION TO A BETTER UNDERSTANDING OF FLIGHT PATTERN AND EGG - LAYING DURATION OF THE P ISTACHIO SEED WASP Mohamed BRAHAM University of Sousse. Laboratory.

Fungal volatiles mediate the orientation response of eusocial wasps

GMO and agriculture: pest management and how the landscape has changed Midwest and MidContinental Chapter of the Medical Library Association Micheal D.K.

NDVI Active Sensors in Sugarbeet Production for In-Season and Whole Rotation Nitrogen Management.

Preliminary study of Forficula sp

II. Abundance is highest in the wildflower treatment.

Fungal and Bacterial Dynamics in the Lettuce Rhizosphere Responding to Successive Additions of Cd and Zn. A. M. I. D. Amarakoon * and R. M. C. P. Rajapaksha.

Development and reproductive potential of a generalist predator, Podisus maculiventris (Hemiptera: Aspionae) feeding with adult of Angoumois grain moth.

9.01 Discuss integrated pest management strategies

August 2013 Developing Methods to Conserve and Enhance Native Bracon Parasitoids as Wheat Stem Sawfly Biocontrol Agents. B. Tegner Jacobson, Ryan Bixenmann,

IPM and biopesticides use in arable crops

Populations Chapter 26.

Incorporating Weather Information into the Insect Pest Management Decision-making Process Larry Gut.

Exposing the Luxury Effect

Review of Ecology Chap. 2.1 to 2.2.

SUSTAINABLE PEST MANAGEMENT

Biological pest control in orchard

Kristopher Giles Oklahoma State University Sorghum – Sugarcane Aphid

Plant Science AAEC-Paradise Valley Spring 2015

Mark Fermanich, CU-Denver January 3, 2011

Rodrigo Santos, Sarah Santos and Fernando Ascensão

Identification, Symptoms and nature of damage: Leafminer

Presentation transcript:

Pest management practices and environment factors affect the natural regulation of the codling moth Monteiro L.B.1, Dor C.2, Franck P.2, Lavigne C.2, Sauphanor B.2 1 UFPR, Paraná Federal University, DFF/LAMIP, CEP 81831-990, Curitiba, Brazil 2 INRA, URM 1115 Plants and Cropping Systems in Horticulture (PSH), Agroparc, F-84914 Avignon, Cedex 9, France. Sauphano@avignon.inra.fr Introduction: Codling moth, Cydia pomonella L. is a major pest in apple and pear orchards, damaging a large part of the world production. It has been controlled by synthesis insecticides that select resistant populations in both production systems: organic and conventional. New control techniques have been adopted recently, such as mating disruption, but success is subject to biological and environmental factors. Studies on regulating the codling moth by parasitoids and predators are of economic and ecological interest, and are influenced by the type of production system and the plant species diversity that make up the plant strata and the surrounding hedges. Objective: To assess how the environment and the production system (organic and conventional) affect the parasitism of diapausing larvae and the predation / parasitism of codling moth eggs the low valley of Durance, France. Material and Methods: Parasitism of diapausing larvae was studied in 79 apple and pear orchards in southeastern France. Bands of geo-referenced corrugated cardboard were placed on tree trunks in August 2006 and 2007 and collected in October. After weighing, the larvae were placed in closed recipients (15x15 cm) and kept under outdoor shelters. The organisms started to emerge in April 2008. The predation and the parasitism of codling moth eggs were assessed in a sub sample of 13 orchards. Codling moth egg batches obtained from a laboratory rearing were set on 2x1 cm cards containing on average fifteen 12 hour-old eggs. The cards were exposed for three days close to fruits. The number of parasited and predated eggs was assessed seven days after placing in the orchards, in early July and August. The orchards were divided according to production system: organic and conventional. In the conventional system, the orchards that controlled the codling moth exclusively with insecticides were differentiated from those that used mating disruption (integrated). Results (diapausing larvae): The parasitism of diapausing larvae occurred in 21% and 16.4% of the sampled orchards in 2007 and 2008, respectively. The mean of parasitism in these two years, between the production systems, was 3.7, 2.3 and 0.8%. The percentage of parasitism was significantly higher (P=0.00051) in the biological system than in the conventional one (integrated + conventional) when considering the total number of orchards (Figure 1), while no difference was observed when considering only the orchards hosting parasitoids (Figure 2). Figure 1. Parasitism (%) of C. pomonella in Figure 2. Parasitism (%) of Cydia The whole orchard sample. pomonella in orchards hosting parasitism. Figure 3. Cydia pomonella parasitoids Figure 4. Emergence of Cydia in years 2006 and 200 pomonella and its parasitoids, in day degrees. Ascogaster Pristomerus Perilampus Elodia Results (eggs): The predation of Cydia pomonella eggs was significantly greater in organic orchards than in conventional orchards (Figure 5). The percentage of cards with predated eggs per orchard (n=30) was 65% in the organic orchards and the mean in the conventional orchards was 45% (Figure 6). Predation in the month of August was significant compared to July. Figure 5. Predation (%) of Cydia pomonella Figure 6. Predation (%) of Eggs in 13 orchards. Cydia pomonella egg cards It was verified that Trichogramma cacoeciae parasited card eggs, but this occurred only in August in a single orchard under conventional system (3.8%) Figure 6. Codling moth eggs parasited by T. cacoeciae. Discussion: The presence of parasitoids of several species was detected in the two years of study. The low rate of parasitism indicated that the regulation Cydia pomonella was not strongly under the dependence of these organisms. The highest egg predation occurred in the organic orchards (p<0.0001). However, the percentage of parasitism in the ten orchards where diapausing larvae were parasited were quite similar in the three different production systems. Furthermore, both predation and parasitism rates were significantly lower in the orchards surrounding by high surfaces of conventional orchards in the 100 m around. This suggests than the insecticide practices in the landscape may also affected the immigration of the natural enemies within the orchard.