An integrative phenology and climatic suitability model for emerald ash borer

• Published in: Frontiers in insect science Vol. 3; p. 1239173
• Main Authors: Barker, Brittany S., Coop, Leonard, Duan, Jian J., Petrice, Toby R.
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media S.A 29.08.2023
• Subjects: adults; Agrilus planipennis; China; data collection; decision support systems; Europe; Fraxinus; heat sums; Insect Science; insects; meteorological data; North America; pests; phenology; risk; North America; China; Europe; management; Agrilus planipennis; forecast; thermal stresses; surveillance; Fraxinus; invasive species
• ISSN: 2673-8600; 2673-8600
• DOI: 10.3389/finsc.2023.1239173

Decision support models that predict both when and where to expect emerald ash borer (EAB), Fairmaire (Coleoptera: Buprestidae), are needed for the development and implementation of effective management strategies against this major invasive pest of ash ( species) in North America and other regions such as Europe. We present a spatialized model of phenology and climatic suitability for EAB for use in the Degree-Days, Risk, and Phenological event mapping (DDRP) platform, which is an open-source decision support tool to help detect, monitor, and manage invasive threats. We evaluated the model using presence records from three geographic regions (China, North America, and Europe) and a phenological dataset consisting primarily of observations from the northeastern and midwestern United States. To demonstrate the model, we produced phenological event maps for a recent year and tested for trends in EAB's phenology and potential distribution over a recent 20-year period. Overall, the model exhibited strong performance. Presence was correctly estimated for over 99% of presence records and predicted dates of adult phenological events corresponded closely with observed dates, with a mean absolute error of 7 days and low estimates of bias. Climate stresses were insufficient to exclude EAB from areas with native species in North America and Europe; however, extreme weather events, climate warming, and an inability for EAB to complete its life cycle may reduce suitability for some areas. Significant trends toward earlier adult emergence over 20 years occurred in only some areas. Near real-time model forecasts for the conterminous United States are available at two websites to provide end-users with decision-support for surveillance and management of this invasive pest. Forecasts of adult emergence and egg hatch are particularly relevant for surveillance and for managing existing populations with pesticide treatments and parasitoid introductions.