Type and duration of water stress influence host selection and colonization by exotic ambrosia beetles (Coleoptera: Curculionidae)

Christopher M Ranger; Madhav Parajuli; Sean Gresham; Jenny Barnett; Sara Villani; James Walgenbach; Fulya Baysal-Gurel; James S Owen Jr; Michael E Reding

doi:10.3389/finsc.2023.1219951

Type and duration of water stress influence host selection and colonization by exotic ambrosia beetles (Coleoptera: Curculionidae)

Front Insect Sci. 2023 Jul 7:3:1219951. doi: 10.3389/finsc.2023.1219951. eCollection 2023.

Authors

Christopher M Ranger^{1

2}, Madhav Parajuli³, Sean Gresham⁴, Jenny Barnett¹, Sara Villani⁴, James Walgenbach⁴, Fulya Baysal-Gurel³, James S Owen Jr¹, Michael E Reding¹

Affiliations

¹ Application Technology Research Unit, United States Department of Agriculture (USDA)-Agricultural Research Service, Wooster, OH, United States.
² Department of Entomology, The Ohio State University, Wooster, OH, United States.
³ Department of Agricultural and Environmental Sciences, Otis L. Floyd Nursery Research Center, Tennessee State University, McMinnville, TN, United States.
⁴ Department of Entomology and Plant Pathology, Mountain Horticultural Crops Research and Education Center, North Carolina State University, Mills River, NC, United States.

Abstract

Fungus-farming ambrosia beetles in the tribe Xyleborini tunnel into plants and trees to establish chambers for cultivating their nutritional fungal mutualists and rearing offspring. Some xyleborine ambrosia beetles preferentially infest and perform better in living but weakened trees. Flood stress predisposes horticultural tree crops to infestation, but the impact of drought stress has not been well studied. Our objectives were to compare the effects of flood stress vs. drought stress on host selection and colonization by xyleborine ambrosia beetles and to assess the duration of flooding. Container-grown Cornus florida L. trees were flood stressed using a pot-in-pot system to submerge the roots in water while drought-stressed conditions were imposed by withholding irrigation and precipitation. When experimental trees were held under field conditions for 14 days, 7.5 × more ambrosia beetles landed on stems of the flood-stressed than on the drought-stressed trees. During two additional experiments over 14 and 22 days, ambrosia beetles tunneled into the flood-stressed trees but not the drought-stressed or standard irrigation trees. By simultaneously deploying trees that were flood stressed for varying lengths of time, it was found that more tunnel entrances, and xyleborine adults and offspring were recovered from trees that were flooded for 1-16 days and 7-22 days than from trees that were flooded for 14-29 days and 28-43 days. These results indicate that acute and severe drought stress does not predispose C. florida to infestation, but flood stress and the duration of flooding influence ambrosia beetle host selection and colonization. Understanding the role of host quality on ambrosia beetle preference behavior will assist with predicting the risk of infestation of these opportunistic insects in horticultural tree crops.

Keywords: Anisandrus maiche; Scolytinae; Xyleborini; Xylosandrus germanus; drought stress; flood stress; secondary insects; wood-boring beetles.

Grants and funding

Funding for this research was supported by USDA-AFRI-CARE award #2019-68008-29898, USDA-NIFA-SCRI award #2021-51181-35863, the USDA Floriculture and Nursery Research Initiative, and base funds associated with the USDA-ARS National Program 305 Project #5082-21000-018-00D.