Data from: Less is more: Fewer attract-and-kill sites improve the male annihilation technique against Bactrocera dorsalis

The Male Annihilation Technique (also termed the Male Attraction Technique; “MAT”) is often used to eradicate pestiferous tephritid fruit flies, such as Bactrocera dorsalis (Hendel). MAT involves the application of male-specific attractants combined with an insecticide in spots or stations across an area to reduce the male population to such a low level that suppression or eradication is achieved. Currently, implementations of MAT in California and Florida targeting B. dorsalis utilize the male attractant methyl eugenol (ME) accompanied with a toxicant, such as spinosad, mixed into a waxy, inert emulsion STATIC ME (termed here “SPLAT-MAT-ME”). While highly effective against ME-responding species, such applications are expensive owing largely to the high cost of the carrier matrix and labor for application. Until recently the accepted protocol called for the application of approximately 230 SPLAT-MAT-ME spots per km2; however, findings from Hawaii suggest a lower density may actually be more effective. The present study adopted the methods of that earlier work and estimated kill rates of released B. dorsalis under varying spot densities in areas of California and Florida that have had recent incursions of this invasive species. Specifically, we directly compared trap captures of sterilized marked B. dorsalis males released in different plots under three experimental SPLAT-MAT-ME densities (50, 110, and 230 per km2) in Huntington Beach, CA; Anaheim, CA; and Sarasota-Bradenton, FL. The plots with a density of 110 sites per km2 had a significantly higher recapture proportion than plots with 50 or 230 sites per km2. This result suggests that large amounts of male attractant may reduce the ability of males to locate the source of the odor, thus lowering kill rates and the effectiveness of eradication efforts. Eradication programs would directly benefit from reduced costs and improved eradication effectiveness by reducing the application density of SPLAT-MAT-ME. Resources in this dataset:

Resource Title: Longitudes and latitudes of experimental plots and release transects File Name: 2023-09_plots-transects-geodata.csv Resource Description: Areas where release recapture experiments were conducted.

Resource Title: Longitudes and latitudes of traps used in experiments (LPDs) File Name: 2023-10_traps-locations.xlsx

Resource Title: Number of flies caught in each trap at each check File Name: 2023-10_trap-catch.xlsx

Resource Title: Locations of traps, release transects, plots File Name: 2023-10_MAT-CA-FL.kml

Resource Title: Numbers of flies left in containers after release File Name: 2023-10_remaining-in-release-containers.xlsx

Resource Title: Quality Control data for each cohort used in releases File Name: 2023-10_quality-control.xlsx

Resource Title: Metadata File Name: metadata.txt

Data and Resources

Field Value
accessLevel public
bureauCode {005:18}
catalog_@context https://project-open-data.cio.gov/v1.1/schema/catalog.jsonld
catalog_conformsTo https://project-open-data.cio.gov/v1.1/schema
catalog_describedBy https://project-open-data.cio.gov/v1.1/schema/catalog.json
identifier 10.15482/USDA.ADC/1529780
license https://www.usa.gov/publicdomain/label/1.0/
modified 2025-05-01
old-spatial {"type": "MultiPoint", "coordinates": [[-118.00483703613, 33.685067856336], [-117.9141998291, 33.822084049907], [-82.551956176758, 27.42739482619]]}
programCode {005:040}
publisher Agricultural Research Service
resource-type Dataset
source_datajson_identifier true
source_hash b98cd6e141c486ade1d79fab9a35041a9d400d6b77a22978a288ffbd6095f2ef
source_schema_version 1.1
spatial {"type": "MultiPoint", "coordinates": [[-118.00483703613, 33.685067856336], [-117.9141998291, 33.822084049907], [-82.551956176758, 27.42739482619]]}
temporal 2021-08-01/2022-11-30
Groups
  • AmeriGEOSS
  • National Provider
  • North America
Tags
  • AmeriGEO
  • AmeriGEOSS
  • CKAN
  • GEO
  • GEOSS
  • National
  • North America
  • United States
  • ars
  • data-gov
  • fruit-fly
  • invasive-species
  • np304
  • tephritidae
isopen False
license_id us-pd
license_title us-pd
maintainer Manoukis, Nicholas
maintainer_email nicholas.manoukis@usda.gov
metadata_created 2025-09-23T15:06:10.855147
metadata_modified 2025-09-23T15:06:10.855154
notes <p>The Male Annihilation Technique (also termed the Male Attraction Technique; “MAT”) is often used to eradicate pestiferous tephritid fruit flies, such as <em>Bactrocera dorsalis</em> (Hendel). MAT involves the application of male-specific attractants combined with an insecticide in spots or stations across an area to reduce the male population to such a low level that suppression or eradication is achieved. Currently, implementations of MAT in California and Florida targeting <em>B. dorsalis</em> utilize the male attractant methyl eugenol (ME) accompanied with a toxicant, such as spinosad, mixed into a waxy, inert emulsion STATIC ME (termed here “SPLAT-MAT-ME”). While highly effective against ME-responding species, such applications are expensive owing largely to the high cost of the carrier matrix and labor for application. Until recently the accepted protocol called for the application of approximately 230 SPLAT-MAT-ME spots per km2; however, findings from Hawaii suggest a lower density may actually be more effective. The present study adopted the methods of that earlier work and estimated kill rates of released <em>B. dorsalis</em> under varying spot densities in areas of California and Florida that have had recent incursions of this invasive species. Specifically, we directly compared trap captures of sterilized marked <em>B. dorsalis</em> males released in different plots under three experimental SPLAT-MAT-ME densities (50, 110, and 230 per km2) in Huntington Beach, CA; Anaheim, CA; and Sarasota-Bradenton, FL. The plots with a density of 110 sites per km2 had a significantly higher recapture proportion than plots with 50 or 230 sites per km2. This result suggests that large amounts of male attractant may reduce the ability of males to locate the source of the odor, thus lowering kill rates and the effectiveness of eradication efforts. Eradication programs would directly benefit from reduced costs and improved eradication effectiveness by reducing the application density of SPLAT-MAT-ME. </p> <p>Resources in this dataset:</p> <ul> <li> <p>Resource Title: Longitudes and latitudes of experimental plots and release transects File Name: 2023-09_plots-transects-geodata.csv Resource Description: Areas where release recapture experiments were conducted.</p> </li> <li> <p>Resource Title: Longitudes and latitudes of traps used in experiments (LPDs) File Name: 2023-10_traps-locations.xlsx</p> </li> <li> <p>Resource Title: Number of flies caught in each trap at each check File Name: 2023-10_trap-catch.xlsx</p> </li> <li> <p>Resource Title: Locations of traps, release transects, plots File Name: 2023-10_MAT-CA-FL.kml</p> </li> <li> <p>Resource Title: Numbers of flies left in containers after release File Name: 2023-10_remaining-in-release-containers.xlsx</p> </li> <li> <p>Resource Title: Quality Control data for each cohort used in releases File Name: 2023-10_quality-control.xlsx</p> </li> <li> <p>Resource Title: Metadata File Name: metadata.txt</p> </li> </ul><p></p>
num_resources 7
num_tags 14
title Data from: Less is more: Fewer attract-and-kill sites improve the male annihilation technique against Bactrocera dorsalis