Ovipositional behaviour and larval performance of Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) on cut branches of four North American tree species

A. Grace Haynes; Marissa A. Streifel; Angie K. Ambourn; Brian H. Aukema

doi:10.1111/afe.12560

Ovipositional behaviour and larval performance of Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) on cut branches of four North American tree species

A. Grace Haynes, Marissa A. Streifel, Angie K. Ambourn, Brian H. Aukema

Entomology

Research output: Contribution to journal › Article › peer-review

Abstract

Velvet longhorned beetle Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) is native to Asia. It is reported to be polyphagous in its native range, but hosts have not been screened in its introduced range in the United States. We conducted choice and no-choice host experiments. For choice assays, gravid T. campestris oviposited freely on cut branches of four tree species: Juglans nigra, Malus domestica, Acer saccharum, and Pinus strobus. We investigated oviposition between apple branches with and without cankers. Half of the choice trials underwent winter temperatures. For no-choice assays, eggs were placed on cut branches of these same four species. Half of these branches were later dissected to measure larval development. The rest were exposed to winter temperatures and T. campestris emergence was quantified. Overall, Trichoferus campestris oviposition and development occur more readily on J. nigra and M. domestica than on A. saccharum or P. strobus. The insect oviposited more on cankered than uncankered apple wood. Cold exposure during an overwintering period benefitted insect development in adults. The insect's high degree of polyphagy and ability to reproduce in dry wood has likely facilitated its establishment in multiple locales around the world.

Original language	English (US)
Journal	Agricultural and Forest Entomology
DOIs	https://doi.org/10.1111/afe.12560
State	Accepted/In press - 2023

Bibliographical note

Funding Information:
The authors acknowledge that the University of Minnesota is located on the traditional, ancestral and contemporary lands of the Chippewa and Ojibwe people, and as such, this research took place on lands that hold great historical, spiritual and personal significance for its original stewards. The authors thank Pheylan Anderson, Mark Brenneman, Cole Doolittle, Stephanie Gunter, Kristine Jecha, Alexa Koch, Patrick Perish and Nicole Witt (UMN) for assistance with insect and data collection. Aubree Kees and members of the Aukema Lab (UMN) provided fruitful discussions, advice, support, and comments from three anonymous reviewers and Drs. Robert Venette (US Forest Service) and Marcella Windmuller‐Campione (UMN) improved previous versions of this work. Select translations of non‐English literature were provided by Azura Liu and John Luhman (UMN), Svetlana Kozeretskaya, and Etsuro Takagi (TMU). The Cloquet Forestry Center, the University of Minnesota Landscape Arboretum, Novak's Orchard and Pine Tree Orchard provided trees. The Minnesota Department of Agriculture and Joey Caputo and Kristopher Watson from the Utah Department of Agriculture and Food provided logistical support. This project was funded by a UMN NRSM Fellowship to AGH in 2020 and USDA APHIS Projects 1A.0355.00 and 1A.0456.01.

Funding Information:
The authors acknowledge that the University of Minnesota is located on the traditional, ancestral and contemporary lands of the Chippewa and Ojibwe people, and as such, this research took place on lands that hold great historical, spiritual and personal significance for its original stewards. The authors thank Pheylan Anderson, Mark Brenneman, Cole Doolittle, Stephanie Gunter, Kristine Jecha, Alexa Koch, Patrick Perish and Nicole Witt (UMN) for assistance with insect and data collection. Aubree Kees and members of the Aukema Lab (UMN) provided fruitful discussions, advice, support, and comments from three anonymous reviewers and Drs. Robert Venette (US Forest Service) and Marcella Windmuller-Campione (UMN) improved previous versions of this work. Select translations of non-English literature were provided by Azura Liu and John Luhman (UMN), Svetlana Kozeretskaya, and Etsuro Takagi (TMU). The Cloquet Forestry Center, the University of Minnesota Landscape Arboretum, Novak's Orchard and Pine Tree Orchard provided trees. The Minnesota Department of Agriculture and Joey Caputo and Kristopher Watson from the Utah Department of Agriculture and Food provided logistical support. This project was funded by a UMN NRSM Fellowship to AGH in 2020 and USDA APHIS Projects 1A.0355.00 and 1A.0456.01.

Publisher Copyright:
© 2023 The Authors. Agricultural and Forest Entomology published by John Wiley & Sons Ltd on behalf of Royal Entomological Society.

Keywords

Cerambycidae
choice assay
exotic insects
feeding preferences
host selection
no-choice assay
ovipositional preferences
preference-performance hypothesis
velvet longhorned beetle

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access

10.1111/afe.12560

Cite this

@article{ad17b8723a2f47f4878a35a7cc1efbb5,

title = "Ovipositional behaviour and larval performance of Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) on cut branches of four North American tree species",

abstract = "Velvet longhorned beetle Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) is native to Asia. It is reported to be polyphagous in its native range, but hosts have not been screened in its introduced range in the United States. We conducted choice and no-choice host experiments. For choice assays, gravid T. campestris oviposited freely on cut branches of four tree species: Juglans nigra, Malus domestica, Acer saccharum, and Pinus strobus. We investigated oviposition between apple branches with and without cankers. Half of the choice trials underwent winter temperatures. For no-choice assays, eggs were placed on cut branches of these same four species. Half of these branches were later dissected to measure larval development. The rest were exposed to winter temperatures and T. campestris emergence was quantified. Overall, Trichoferus campestris oviposition and development occur more readily on J. nigra and M. domestica than on A. saccharum or P. strobus. The insect oviposited more on cankered than uncankered apple wood. Cold exposure during an overwintering period benefitted insect development in adults. The insect's high degree of polyphagy and ability to reproduce in dry wood has likely facilitated its establishment in multiple locales around the world.",

keywords = "Cerambycidae, choice assay, exotic insects, feeding preferences, host selection, no-choice assay, ovipositional preferences, preference-performance hypothesis, velvet longhorned beetle",

author = "Haynes, {A. Grace} and Streifel, {Marissa A.} and Ambourn, {Angie K.} and Aukema, {Brian H.}",

note = "Funding Information: The authors acknowledge that the University of Minnesota is located on the traditional, ancestral and contemporary lands of the Chippewa and Ojibwe people, and as such, this research took place on lands that hold great historical, spiritual and personal significance for its original stewards. The authors thank Pheylan Anderson, Mark Brenneman, Cole Doolittle, Stephanie Gunter, Kristine Jecha, Alexa Koch, Patrick Perish and Nicole Witt (UMN) for assistance with insect and data collection. Aubree Kees and members of the Aukema Lab (UMN) provided fruitful discussions, advice, support, and comments from three anonymous reviewers and Drs. Robert Venette (US Forest Service) and Marcella Windmuller‐Campione (UMN) improved previous versions of this work. Select translations of non‐English literature were provided by Azura Liu and John Luhman (UMN), Svetlana Kozeretskaya, and Etsuro Takagi (TMU). The Cloquet Forestry Center, the University of Minnesota Landscape Arboretum, Novak's Orchard and Pine Tree Orchard provided trees. The Minnesota Department of Agriculture and Joey Caputo and Kristopher Watson from the Utah Department of Agriculture and Food provided logistical support. This project was funded by a UMN NRSM Fellowship to AGH in 2020 and USDA APHIS Projects 1A.0355.00 and 1A.0456.01. Funding Information: The authors acknowledge that the University of Minnesota is located on the traditional, ancestral and contemporary lands of the Chippewa and Ojibwe people, and as such, this research took place on lands that hold great historical, spiritual and personal significance for its original stewards. The authors thank Pheylan Anderson, Mark Brenneman, Cole Doolittle, Stephanie Gunter, Kristine Jecha, Alexa Koch, Patrick Perish and Nicole Witt (UMN) for assistance with insect and data collection. Aubree Kees and members of the Aukema Lab (UMN) provided fruitful discussions, advice, support, and comments from three anonymous reviewers and Drs. Robert Venette (US Forest Service) and Marcella Windmuller-Campione (UMN) improved previous versions of this work. Select translations of non-English literature were provided by Azura Liu and John Luhman (UMN), Svetlana Kozeretskaya, and Etsuro Takagi (TMU). The Cloquet Forestry Center, the University of Minnesota Landscape Arboretum, Novak's Orchard and Pine Tree Orchard provided trees. The Minnesota Department of Agriculture and Joey Caputo and Kristopher Watson from the Utah Department of Agriculture and Food provided logistical support. This project was funded by a UMN NRSM Fellowship to AGH in 2020 and USDA APHIS Projects 1A.0355.00 and 1A.0456.01. Publisher Copyright: {\textcopyright} 2023 The Authors. Agricultural and Forest Entomology published by John Wiley & Sons Ltd on behalf of Royal Entomological Society.",

year = "2023",

doi = "10.1111/afe.12560",

language = "English (US)",

journal = "Agricultural and Forest Entomology",

issn = "1461-9555",

publisher = "Wiley-Blackwell",

}

TY - JOUR

T1 - Ovipositional behaviour and larval performance of Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) on cut branches of four North American tree species

AU - Haynes, A. Grace

AU - Streifel, Marissa A.

AU - Ambourn, Angie K.

AU - Aukema, Brian H.

N1 - Funding Information: The authors acknowledge that the University of Minnesota is located on the traditional, ancestral and contemporary lands of the Chippewa and Ojibwe people, and as such, this research took place on lands that hold great historical, spiritual and personal significance for its original stewards. The authors thank Pheylan Anderson, Mark Brenneman, Cole Doolittle, Stephanie Gunter, Kristine Jecha, Alexa Koch, Patrick Perish and Nicole Witt (UMN) for assistance with insect and data collection. Aubree Kees and members of the Aukema Lab (UMN) provided fruitful discussions, advice, support, and comments from three anonymous reviewers and Drs. Robert Venette (US Forest Service) and Marcella Windmuller‐Campione (UMN) improved previous versions of this work. Select translations of non‐English literature were provided by Azura Liu and John Luhman (UMN), Svetlana Kozeretskaya, and Etsuro Takagi (TMU). The Cloquet Forestry Center, the University of Minnesota Landscape Arboretum, Novak's Orchard and Pine Tree Orchard provided trees. The Minnesota Department of Agriculture and Joey Caputo and Kristopher Watson from the Utah Department of Agriculture and Food provided logistical support. This project was funded by a UMN NRSM Fellowship to AGH in 2020 and USDA APHIS Projects 1A.0355.00 and 1A.0456.01. Funding Information: The authors acknowledge that the University of Minnesota is located on the traditional, ancestral and contemporary lands of the Chippewa and Ojibwe people, and as such, this research took place on lands that hold great historical, spiritual and personal significance for its original stewards. The authors thank Pheylan Anderson, Mark Brenneman, Cole Doolittle, Stephanie Gunter, Kristine Jecha, Alexa Koch, Patrick Perish and Nicole Witt (UMN) for assistance with insect and data collection. Aubree Kees and members of the Aukema Lab (UMN) provided fruitful discussions, advice, support, and comments from three anonymous reviewers and Drs. Robert Venette (US Forest Service) and Marcella Windmuller-Campione (UMN) improved previous versions of this work. Select translations of non-English literature were provided by Azura Liu and John Luhman (UMN), Svetlana Kozeretskaya, and Etsuro Takagi (TMU). The Cloquet Forestry Center, the University of Minnesota Landscape Arboretum, Novak's Orchard and Pine Tree Orchard provided trees. The Minnesota Department of Agriculture and Joey Caputo and Kristopher Watson from the Utah Department of Agriculture and Food provided logistical support. This project was funded by a UMN NRSM Fellowship to AGH in 2020 and USDA APHIS Projects 1A.0355.00 and 1A.0456.01. Publisher Copyright: © 2023 The Authors. Agricultural and Forest Entomology published by John Wiley & Sons Ltd on behalf of Royal Entomological Society.

PY - 2023

Y1 - 2023

N2 - Velvet longhorned beetle Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) is native to Asia. It is reported to be polyphagous in its native range, but hosts have not been screened in its introduced range in the United States. We conducted choice and no-choice host experiments. For choice assays, gravid T. campestris oviposited freely on cut branches of four tree species: Juglans nigra, Malus domestica, Acer saccharum, and Pinus strobus. We investigated oviposition between apple branches with and without cankers. Half of the choice trials underwent winter temperatures. For no-choice assays, eggs were placed on cut branches of these same four species. Half of these branches were later dissected to measure larval development. The rest were exposed to winter temperatures and T. campestris emergence was quantified. Overall, Trichoferus campestris oviposition and development occur more readily on J. nigra and M. domestica than on A. saccharum or P. strobus. The insect oviposited more on cankered than uncankered apple wood. Cold exposure during an overwintering period benefitted insect development in adults. The insect's high degree of polyphagy and ability to reproduce in dry wood has likely facilitated its establishment in multiple locales around the world.

AB - Velvet longhorned beetle Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) is native to Asia. It is reported to be polyphagous in its native range, but hosts have not been screened in its introduced range in the United States. We conducted choice and no-choice host experiments. For choice assays, gravid T. campestris oviposited freely on cut branches of four tree species: Juglans nigra, Malus domestica, Acer saccharum, and Pinus strobus. We investigated oviposition between apple branches with and without cankers. Half of the choice trials underwent winter temperatures. For no-choice assays, eggs were placed on cut branches of these same four species. Half of these branches were later dissected to measure larval development. The rest were exposed to winter temperatures and T. campestris emergence was quantified. Overall, Trichoferus campestris oviposition and development occur more readily on J. nigra and M. domestica than on A. saccharum or P. strobus. The insect oviposited more on cankered than uncankered apple wood. Cold exposure during an overwintering period benefitted insect development in adults. The insect's high degree of polyphagy and ability to reproduce in dry wood has likely facilitated its establishment in multiple locales around the world.

KW - Cerambycidae

KW - choice assay

KW - exotic insects

KW - feeding preferences

KW - host selection

KW - no-choice assay

KW - ovipositional preferences

KW - preference-performance hypothesis

KW - velvet longhorned beetle

UR - http://www.scopus.com/inward/record.url?scp=85147350667&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85147350667&partnerID=8YFLogxK

U2 - 10.1111/afe.12560

DO - 10.1111/afe.12560

M3 - Article

AN - SCOPUS:85147350667

SN - 1461-9555

JO - Agricultural and Forest Entomology

JF - Agricultural and Forest Entomology

ER -

Ovipositional behaviour and larval performance of Trichoferus campestris (Faldermann) (Coleoptera: Cerambycidae) on cut branches of four North American tree species

Abstract

Bibliographical note

Keywords

UN SDGs

Access

Other files and links

Fingerprint

Cite this