Effects of Bulb Degradation on Fly Attraction to Insect Light Traps

Similar documents
FACTORS AFFECTING LABORATORY PROCEDURES for EVALUATING EFFICACY of INSECT LIGHT TRAPS for HOUSE FLIES

FLUORESCENCE DETERMINATION OF OXYGEN

Advancements in Pest Management Monitoring for Food Processors

Chapter 2: Light as a Wave

Project No: R Visual Lures for Possums. Malcolm Thomas and Fraser Maddigan. Pest Control Research Ltd PO Box 7223 Christchurch New Zealand

1. Photosynthesis and Light. See real-time evidence that light causes photosynthesis to occur!

Lab 4: Pressure Gradients over a Wing

Vertical in situ profiles of nitrate and oxygen in the northern Japan Sea

Test Plans & Test Results

Safety Tips for Using Germicidal Lamps

A NOVEL SENSOR USING REMOTE PLASMA EMISSION SPECTROSCOPY FOR MONITORING AND CONTROL OF VACUUM WEB COATING PROCESSES

FOURIER TRANSFORM INFRARED SPECTROSCOPY

Any laboratory is equipped with specific tools, equipment,

Agilent Auxiliary Gas Module AGM 2. User s Guide

Address: 5230 Konnowac Pass Rd Address: Dept. Entomology, Barton Lab City: Wapato City: Geneva

Statistical Process Control Lab

Plasma Sources and Feedback Control in Pretreatment Web Coating Applications

XSL-360-5E. UV LED 5 mm TECHNICAL DATA. Absolute Maximum Ratings (T a =25 C) Specifications (If=20mA, T a =25 C) Drawing

Wind tunnel acoustic testing of wind generated noise on building facade elements

EXPERIMENT 12 GAS LAWS ( BOYLE S AND GAY-LUSSAC S LAW)

ver #. (Indicate version number) (Current Date of Version)

Developing an Easily Used Bait Monitoring Method for Oriental Fruit Moth in Mating Disruption Orchards

Purpose and Scope: Responsibilities: Warnings and precautions: Background Beers law

TUV Low Pressure Mercury

GEOG112 - Assignment 2. Site A Site B Site C Temp ( C) Altitude (km) Temp ( C)

RM-80 respiration monitor

Exploring the Properties of Gases. Evaluation copy. 10 cm in diameter and 25 cm high)

ENTOMOLOGY ENTOMOLOGY MUST Curriculum EXHIBIT GUIDELINES MUST COLLECTION Youth in Grades 3-5

Heat-Trapping Gases Lab

Exploring the Properties of Gases

It is often said in sports that records are made to be

AN EXPERIMENTAL AND ANALYTICAL STUDY OF PLASMA CLOSING SWITCHES FILLED WITH ENVIRONMENTALLY FRIENDLY GASES

Simultane Druck- und Geschwindigkeitsmessungen mittels lumineszierender Polystyren Mikrosphären

DEVIL PHYSICS THE BADDEST CLASS ON CAMPUS IB PHYSICS

Comparison of Two Yellow Sticky Traps for Capture of Western Cherry Fruit Fly (Rhagoletis indifferens) in Tart Cherry in Northern Utah 2015

EXPERIMENT XI. Careful!! Improper handling of the vacuum line may result in the release of SO 2 which is an irritating and suffocating gas.

Figure 1. A) Sam Malan watches wasp choice test. B) Y-tube apparatus example.

INTRODUCTION TO THE SPECTROPHOTOMETER AND PIPETTING SKILLS

Optical measurement in carbon nanotubes formation by pulsed laser ablation

User s Booklet for the Wyatt minidawn Light Scattering Instrumentation

Sticky Traps for Large Scale House Fly (Diptera: Muscidae) Trapping in New York Poultry Facilities1

Measuring mass flows in hermetically sealed MEMs & MOEMs to ensure device reliability

UNIT 2 Chapter 3. Elodea and Photosynthesis. The Origins of Life. Learning Outcomes: Chapter 3 Lab/Activity #2. Introduction: Safety Issues:

Angled yellow taps for carrot fly warning

Experimental Procedure

Laser-Induced Bubbles in Glycerol-Water Mixtures

e d u c a t i o n NXT Solar Station

Exploring the Properties of Gases

Students measure the change in pressure by varying the volume of trapped air in a syringe while:

Clean toilet plunger Sensor extension cable. Add this important safety precaution to your normal laboratory procedures:

CFD AND EXPERIMENTAL STUDY OF AERODYNAMIC DEGRADATION OF ICED AIRFOILS

As the Rotor Turns: Wind Power & You (Student Handout) (An Investigation of Wind Power as an Energy Resource in Pennsylvania)

A Comparative Study on Different Baits Used to Attract House Fly in Malaysia

A NOx and SO 2 gas analyzer using deep-uv and violet light-emitting diodes for continuous emissions monitoring systems

What environmental factors trigger a fruit fly response?

Lab 5: Ocean Waves and Tides

Our Approach. Build a barrier of protection. Outside-in to prevent entry. Rodents. Cockroaches. Small Flies. Ants. Large Flies.

Mid-IR Lasers Market Review and Forecast 2010

The Tekran Series 2600-IVS Difference!

Waves. Unit 9 - Light & Sound

Light in the Deep Sea Teacher Materials

Heating of Land and Water

Underwater measurement of photosynthetically active radiation

Making pest control smarter.

Unit 3 Lesson 2 Properties of Waves. Copyright Houghton Mifflin Harcourt Publishing Company

Annual Measurement of Solar UVB at a Reef Site Using a Polyphenylene Oxide Dosimeter

Atmospheric & Ocean Circulation- I

FISH 415 LIMNOLOGY UI Moscow

CALIBRATION. empanelled laboratories following standard procedures and using certified reference standards.

Which factor: temperature or salinity do you think will play a bigger role in determining the speed of the solution?

UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS General Certificate of Education Ordinary Level

The FLUX-METER: implementation of a portable integrated instrumentation for the measurement of CO 2 and CH 4 diffuse flux from landfill soil cover.

ENVIRONMENTAL LABORATORY APPROVAL PROGRAM CERTIFICATION MANUAL

Prerequisite skills: The students need have a basic understanding of scatter plots.

AP Biology. Investigation 6: Cellular Respiration. Investigation 6: Cellular Respiration. Investigation 6: Cellular Respiration

MiSP Photosynthesis Lab L3

A It is halved. B It is doubled. C It is quadrupled. D It remains the same.

SOP 02: Museum Pest Management

LAMP 336SURSYGWS530-A3

Boyle s Law: Pressure-Volume Relationship in Gases

Microfluidic Demonstration

Choosing a Gravid Water Recipe and CO2 Formulation for Mosquito Surveillance. Presented by Jay Kiser

L-708 / L-708LD Bore Alignment System

Comparison of Different Light Spectra in Fishing Lamps

WORKING WITH WEEDGUARDS

An experimental study of internal wave generation through evanescent regions

SEDAR31-DW21. Examining delayed mortality in barotrauma afflicted red snapper using acoustic telemetry and hyperbaric experimentation

Real-time Analysis of Industrial Gases with Online Near- Infrared Spectroscopy

Biological Safety Cabinet Guidelines

Boyle s Law: Pressure-Volume Relationship in Gases

Where did the ideas for our government come from?...26

Standard Operating Procedure Inductively Coupled Plasma Optical Emission Spectrometer (ICP-OES) - Thermo Scientific icap 6300

SINK vs. FLOAT THE CASE OF THE CARTESIAN DIVER

Evaluation copy. Wind Chill. computer OBJECTIVES MATERIALS

333-2SURC/H3/S530-A4 LAMP. Features. Description. Applications. 1 Ver.:2 Release Date:12/13/2016 狀態 :Approved( 正式發行 )

Lab #12:Boyle s Law, Dec. 20, 2016 Pressure-Volume Relationship in Gases

sensors ISSN

Energy, Temperature and Heat

Experiment 8 GAS LAWS

Boyle s Law. Pressure-Volume Relationship in Gases. Figure 1

Transcription:

Effects of Bulb Degradation on Fly Attraction to Insect Light Traps Final Report to the Pest Management Foundation John Cooksey Roberto M. Pereira Philip G. Koehler 2/10/14

Table of Contents Table of Contents... 2 Introduction... 3 Procedures... 3 Conclusions... 9 Insect Light Trap Degradation Page 2 of 9

Introduction Insect Light Traps have been a critical part of fly control programs for many years. They rely on a light source to generate light at a wavelength that is attractive to flies (Graph 1). This light draws the flies in and catches them on a sticky trap housed behind the light source. Insect light traps must be checked frequently (monthly) to ensure the sticky trap is still functional for fly control. The manufacturers of the lights themselves recommend that the bulbs be changed on an annual basis to ensure the correct wavelength and output from the bulbs is maintained for greatest fly catch. One major question about bulb replacement that has not been answered is how does the age of the bulb effect fly catch? We investigated the response of flies to Insect Light Traps with new bulbs vs. those with bulbs that were aged. Graph 1. Flies are attracted to two specific ranges of light UV (340-370 nm) and Blue-Green (480-510). Agee and Patterson (1983) Procedures 6 test facilities have been up and running since October 2012. These facilities include 3 Bar/Grills, 2 Restaurants and 1 Brewery. One of the facilities elected to have the ILT s removed in September of 2013 leaving 5 currently in place. Each facility has 4 Insect Light Traps strategically placed inside. Each location was checked approximately once per month. Insect Light Trap Degradation Page 3 of 9

Figure 1. Setup showing Mantis 1x2 on wall in restaurant. Spectrometer is being used to analyze light source. Data on light emission from the Insect Light Traps was collected monthly. The light was measured using an Ocean Optics USB 2000 Spectrometer (Figure 1). Graph 2. Graph showing Wavelength and Intensity of Insect Light Trap Output. The Light emitted from the ILT is quantified using the Ocean Optics Spectra Suite software. The wavelength is measured in nanometers and plotted against the corresponding intensity measured in counts (Graph 2). Glue boards from the Insect Light Traps were also collected on each visit. These glue boards were used to determine the number of flies captured in specific time periods throughout a fly season (Figure 2). Insect Light Trap Degradation Page 4 of 9

Figure 2. Glue Boards from field sites. To do a direct comparison of aged bulbs to new bulbs, bulbs with a known age of 13 months were taken from the field to use in the lab. In the lab comparisons were made of the 13 month old UV bulbs, new UV bulbs and Day light bulbs. When spectrometer readings of each of these bulbs were taken the following was found(graph 3): 1. 13 month old bulbs had 63% of the UV intensity of new UV bulbs. 2. Daylight bulbs were 20 times brighter in the blue-green spectrum than new UV bulbs. Insect Light Trap Degradation Page 5 of 9

Graph 3. Graph showing Wavelength and Intensity of New UV, Old UV and Day light bulbs. Testing was also done using a cage to determine the attractance of flies to the day light bulb, 13 month old UV bulb and new UV bulb. The cage measured 30 wide x 30 deep x 36 high (Figure 3). An ILT was placed in the cage and fitted with the specific bulb being tested. 100 flies were released in the cage and a count of flies captured was taken after 1 hour. Insect Light Trap Degradation Page 6 of 9

Figure 3. Cage Test When compared against each other the following was found: 1. New UV bulbs caught 62% when compared to no bulbs caught 1% 2. New UV bulbs caught 54% when compared to Daylight bulbs 58% 3. New UV bulbs caught 66% when compared to Old UV bulbs caught 72% These cage tests only allowed the flies one option in the cage. In order to test a true preference for each of the different light sources a Two Sided Light Tunnel Test was used (Figure 4). In this test, white styrofoam coolers were used to hold an Insect Light Trap. Two coolers were connected by a black tube. Flies were released into the center of the tube and had the option to go right or left based on their preference for the light source. Insect Light Trap Degradation Page 7 of 9

Figure 4. Two Sided Light Tunnel Test. In this test, the effect of white vs. black glue boards and the effect of a black box interior vs. white box interior were also investigated. In each of these tests, 150 flies were released and one hour elapsed before counts were taken. Results from the tests were as follows: 1. When comparing white vs. black glue boards, both fitted with new UV bulbs, 38% were caught in the black glue board and 36% were caught in the white glue board. No significant difference. 2. When comparing a black box to a white box, both fitted with ILT s containing new UV bulbs and black glue boards, 43% were caught in the glue on the black box side and 31% were caught in the glue on the white box side. Significant difference. 3. When comparing black box to black box with new UV bulb to 13 month old UV bulb, 63% were in new UV side vs. 36% in 13month old UV side. From these sides 39% were in the glue on the new UV side vs. 22% in the glue on the 13 month UV side. Significant difference. A room test was also conducted. This test was designed to test the effects of the different bulbs in real world situations. In this test an Insect Light Trap was placed in an empty bedroom (Figure 5). The bedroom had an ILT on one end of the bedroom and two daylight fluorescent lights on the other end. The room also contained water and sugar water sources. 150 flies were released in the room and the count of flies caught by the ILT was Insect Light Trap Degradation Page 8 of 9

taken after two hours. 3 identical rooms were used and different bulbs were rotated through the different rooms as repetitions. In this test, the ILT with new UV bulbs captured 59% of the flies released. The ILT with the 13 month old bulbs captured 50% of the released flies. Figure 5. ILTs in room test. In this test, the ILT with new UV bulbs captured 59% of the flies released. The ILT with the 13 month old bulbs captured 50% of the released flies. Conclusions Flies are attracted to ILT s when the bulbs are activated. When given only one option, day light bulbs are just as attractive to flies as UV bulbs and new UV bulbs are just as attractive to flies as old UV bulbs. When given an option, old UV bulbs are 63% as attractive to flies as new UV bulbs. The color of the box in which an ILT is placed in a choice test effects the preference. Flies had a preference for the ILT in a black box over that of one in a white box at a rate of ~1.8X. Color of the glue boards does not affect fly catch. 13-24% of flies that are attracted to a light in a preference test are not actually caught on the glue boars. In a room test, Old UV bulbs catch 80-90% as many flies as new UV bulbs. Insect Light Trap Degradation Page 9 of 9

2024 © sportdocbox.com Privacy Policy | Terms of Service | Feedback