*denotes graduate student, ^denotes undergraduate student<\/p>\n
Bueno, E. M.<\/strong>* and Y. H. Chen<\/strong>. In Review. Insecticide tolerance shapes performance responses to multiple stressors in an invasive crop pest<\/p>\n Ruiz-Arocho, J.<\/strong>, N. Steinthal, E. J. von Wettberg, and H. Chen<\/strong>. 2025. Direct and interactive effects of crop domestication and nitrogen fertilization over leaf traits: a multispecies assessment. Genetic Resources and Crop Evolution 72:<\/span>7419\u20137435. http:\/\/10.1007\/s10722-025-02390-3<\/a><\/p>\n von Wettberg, E., Robinson-Banks, C., Chakraborty, D., Getahun, Tsegaye, Bakir, M., Sassi, G., Hart, J., Kretzler, B., Layegh-Nikravesh, N., Kantar, M., Chen, Y. H., <\/strong>Tobin, D., Kraft, J. Khoury, C., King, G. 2025, But does it taste good? A plea to consider the importance of flavor in managing plant genetic resources. Plant People Planet. http:\/\/doi.org\/10.1002\/ppp3.70016<\/a><\/p>\n Monroy-Sais, A. S., D. Tobin, M. R. Bellon, M. Astier, A. Cibri\u00e1n-Jaramillo, N. G\u00e1lvez-Reyes, A. Mastretta-Yanes, J. Ruiz-Arocho*<\/strong>, A. Wegier, and Y. H. Chen<\/strong>. 2024. <\/span>Smallholder farmers\u2019 diverse values in maize landrace conservation: a case study from Chiapas, Mexico. Journal of Rural Studies 110:103347. https:\/\/doi.org\/10.1016\/j.jrurstud.2024.103347<\/a><\/p>\n Mastretta-Yanes, A.,\u00a0<\/span><\/span>D. Tobin,\u00a0<\/span><\/span>M. R. Bellon,\u00a0<\/span><\/span>E. von Wettberg, A. <\/span><\/span>Cibri\u00e1n-Jaramillo,\u00a0<\/span><\/span>A. Wegier,\u00a0<\/span><\/span>A. S. Monroy-Sais,\u00a0<\/span><\/span>N. G\u00e1lvez-Reyes,\u00a0<\/span><\/span>J. Ruiz-Arocho*<\/strong>, and Y. <\/strong><\/span><\/span>H. Chen<\/span><\/strong>. 2024. Human management of ongoing evolutionary processes in agroecosystems. Plants, People, Planet 6(6): 1190-1206. https:\/\/doi.org\/10.1002\/ppp3.10521<\/a>.<\/span><\/p>\n Gunn, J. C.<\/strong>, B. M. Christensen*<\/strong>, E. M. Bueno*<\/strong>, Z. P. Cohen, A. S. Kissonergis*<\/strong>, and Y. H. Chen<\/strong>. 2024. Agricultural insect pests as models for studying stress-induced evolutionary processes. Insect Molecular Biology https:\/\/doi.org\/10.1111\/imb.12915<\/a><\/p>\n Hodgdon, E. A., C. A. Stratton, C. A. Hoepting, A. E. M. Campbell*<\/strong>, A. E. Grandish, B. G. Evans, R. H. Hallett, and Y. H. Chen<\/strong>. 2024. Organic management of the invasive swede midge (Diptera: Cecidomyiidae) on Brassica<\/em> vegetables: multiple dead ends necessitate novel approaches. Journal of Integrated Pest Management 15(1): 17. https:\/\/doi.org\/10.1093\/jipm\/pmae010.<\/a><\/p>\n Ruiz-Arocho, J.<\/strong>*, R. Gonz\u00e1lez-Salas<\/strong>, G. LeMay<\/strong>, N. Steinthal<\/strong>^, A. Mastretta-Yanes, A. Wegier, O. Vargas-Ponce, L. Sol\u00eds-Montero, Q. Orozco-Ram\u00edrez, Y. H. Chen<\/strong>. 2024. How is leaf herbivory related to agriculture? Insights from the Mexican center of crop origin. Arthropod-Plant Interactions. https:\/\/doi.org\/10.1007\/s11829-023-10019-4<\/a><\/p>\n Cohen, Z., M. S. Crossley, R. F. Mitchell, P. Engsontia, Y. H. Chen<\/strong>, and S. D. Schoville. 2024. Evolution of chemosensory genes in Colorado potato beetle, Leptinotarsa decemlineata. Journal of Evolutionary Biology :1-14. https:\/\/doi.org\/10.1093\/jeb\/voad004<\/a><\/p>\n Brevik, K.*<\/strong>, S. D. Schoville, A. Muszewska, B. P\u00e9llissi\u00e9, Z. Cohen, V. Izzo, and Y. H. Chen<\/strong>. 2023. Transposable elements differ between geographic populations of the Colorado potato beetle, Lepinotarsa decemlineata<\/em>. Environmental Entomology 52(6): 1162\u20131171. https:\/\/doi.org\/10.1093\/ee\/nvad105<\/a><\/p>\n Chen, Y. H.<\/strong>, Z. P. Cohen, E. M. Bueno<\/strong>*, B. M. Christensen*<\/strong>, and Sean D. Schoville. 2023. Rapid evolution of insecticide resistance in the Colorado potato beetle, Leptinotarsa decemlineata<\/em>. Current Opinion in Insect Science 55: 101000. https:\/\/doi.org\/10.1016\/j.cois.2022.101000 <\/a><\/p>\n Cohen, Z. P., Y. H. Chen<\/strong>, R. Groves, and S. D. Schoville. 2022. Evidence of hard-selective sweeps suggest independent adaptation to insecticides in Colorado potato beetle (Coleoptera: Chrysomelidae<\/em>) populations. Evolutionary Applications 15(10): 1691-1705. https:\/\/onlinelibrary.wiley.com\/doi\/10.1111\/eva.13498<\/a><\/p>\n Bueno, E. M.*<\/strong>, C. McIlhenny<\/strong>^,<\/strong> and Y. H. Chen<\/strong>. 2022. Cross-protection interactions in insect pests: Implications for pest management in a changing climate. Pest Management Science. https:\/\/onlinelibrary.wiley.com\/doi\/abs\/10.1002\/ps.7191<\/a><\/p>\n Hodgdon, E. A., A. M. Campbell*<\/strong>, D. S. Conner, C. A. Hoepting, A. K. Galimberti, and Y. H. Chen<\/strong>. 2022. Farm-level losses and grower willingness to try management strategies for swede midge in vegetable crops. HortTechnology 32(5): 471-478. https:\/\/journals.ashs.org\/horttech\/view\/journals\/horttech\/32\/5\/article-p471.xml<\/a><\/p>\n *Hodgdon, E. A.<\/strong>, R. H. Hallett, J. D. Heal, *C. A. Stratton<\/strong>, C. A. Hoepting, and Y.<\/strong> H. Chen<\/strong>. 2022. Field tests of candidate pheromone blends show promise for mating disruption of the invasive swede midge (Diptera: Cecidomyiidae). The Canadian Entomologist 154(1): e37. https:\/\/doi.org\/10.4039\/tce.2022.20<\/a><\/p>\n P\u00e9lissi\u00e9, B., Y. H. Chen<\/strong>, Z. P. Cohen, M. S. Crossley, D. J. Hawthorne, V. Izzo, and S. D. Schoville. 2022. Genome resequencing reveals rapid, repeated evolution in the Colorado potato beetle. Molecular Biology and Evolution 39(2): msac016. https:\/\/doi.org\/10.1093\/molbev\/msac016<\/a><\/p>\n Shafer, P. J.<\/strong>, T. Reynolds,\u00a0Y. H. Chen<\/strong>, and E. J. B. von Wettberg. 2022. Farm to institution to farm: Circular food systems with native entomoculture. Frontiers in Sustainable Food Systems.5: 10.3389\/fsufs.2021.721985 <\/a><\/p>\n Margus, A., S. Piiroinen, P. Lehmann, A. Grapputo, I. Ovcarenko, L. Gilbert, Y. H. Chen<\/strong>, and L. Lindstr\u00f6m\u00ad<\/sub>. 2021. Qualitative and quantitative differences in the acetylcholinesterase genes can partly explain the resistance differences in Leptinotarsa decemlineata <\/em>populations. Ecology and Evolution 11(22): 15995-16005. http:\/\/doi.org\/10.1002\/ece3.8269<\/a><\/p>\n Mori, B. A., C. Coutu, Y. H. Chen<\/strong>, E. O. Campbell, J. R. Dupuis, M. A. Erlandson, and D. D. Hegedus. 2021. De novo <\/em>whole genome assembly of the swede midge (Contarinia nasturtii<\/em>), a specialist of Brassicaceae, using linked-read sequencing. Genome Biology and Evolution 13(3): evab036. https:\/\/doi.org\/10.1093\/gbe\/evab036<\/a><\/p>\n Brevik, K., E. M. Bueno<\/strong>, S. McKay, S. D. Schoville, and Y. H. Chen<\/strong>. 2021. Insecticide exposure affects intergenerational patterns of DNA methylation in the Colorado potato beetle, <\/a>Leptinotarsa decemlineata. <\/i>Evolutionary Applications<\/p>\n Cohen, Z. P., K. Brevik, Y. H. Chen<\/strong>, D. J. Hawthorne, B. D. Weibel, and S. D. Schoville. 2021. Elevated rates of positive selection drive the evolution of pestiferousness in the Colorado potato beetle (Leptinotarsa decemlineata<\/i>, Say)<\/a>. Molecular Ecology 30(1): 237-254.<\/p>\n Hodgdon, E. A.<\/strong>, R. H. Hallett, J. D. Heal, A. E. M. Swan<\/strong>, and Y. H. Chen<\/strong>. 2020. Synthetic pheromone exposure increases calling and reduces subsequent mating in female Contarinia nasturtii<\/i> (Diptera: Cecidomyiidae)<\/a>. Pest Management Science 77(1): 548-556.<\/p>\n Thomas, G.W.C., et al. 2020. Gene content evolution in the arthropods<\/a>. Genome Biology 21: 15.<\/p>\n Stratton, C. A.<\/strong>, E. Hodgdon<\/strong>, C. Rodriguez-Saona, A. M. Shelton, and Y. H. Chen<\/strong>. 2019. Odors from phylogenetically-distant plants to Brassicaceae repel an herbivorous Brassica specialist<\/a>. Scientific Reports 9:10621.<\/p>\n Hodgdon, E. A.<\/strong>, R. H. Hallett, K. F. Wallin, C. A. Stratton<\/strong>, and Y. H. Chen<\/strong>. 2019. Racemic pheromone blends disrupt mate location in the invasive swede midge, <\/a>Contarinia nasturtii.<\/em> Journal of Chemical Ecology 45(7): 549-558.<\/p>\n Hodgdon, E. A.<\/strong>, R. H. Hallett, C. A. Stratton<\/strong>, and Y. H. Chen<\/strong>. 2019. Diel patterns of emergence and reproductive behaviour in the invasive swede midge (Diptera: Cecidomyiidae)<\/a>. The Canadian Entomologist 151(4): 510-520.<\/p>\n Chen, Y. H.<\/strong>, J. Ruiz-Arocho*<\/strong>, E. J. B. von Wettberg. 2018. Crop domestication: Anthropogenic effects on insect-plant interactions in agroecosystems<\/a>. Current Opinion in Insect Science 29: 56-63. Stratton, C. A.<\/strong>*, E. A. Hodgdon*<\/strong>, S. G. Zuckerman^<\/strong>, A. M. Shelton, and Y. H. Chen<\/strong>. 2018. A single swede midge (Diptera: Cecidomyiidae) can render cauliflower unmarketable<\/a>. Journal of Insect Science 18(3): 1-6.<\/p>\n Chen, Y. H.<\/strong> and S. D. Schoville. 2018. Editorial overview: Ecology: Ecological adaptation in agroecosystems: novel opportunities to integrate evolutionary biology and agricultural entomology<\/a>. Current Opinion in Insect Science. 26:IV-VIII.\u00a0 2018.<\/p>\n Brevik, K.*<\/strong>, L. Lindstr\u00f6m, S. D. McKay, and Y. H. Chen<\/strong>. 2018. Transgenerational effects of insecticides – implications for rapid pest evolution in agroecosystems. Current Opinion in Insect Science<\/a>. Special Issue, “Ecological Adaptation in Agroecosystems”. 26:34-40.<\/p>\n Hernandez-Cumplido, J., M. Giusti, Y. Zhou, V. Kyryczenko-Roth, Y. H. Chen<\/strong> and C. Rodriguez-Saona. 2018. Testing the ‘plant domestication-reduced defense’ hypothesis in blueberries: The role of herbivore identity<\/a>. Arthropod-Plant Interactions.<\/p>\n Brevik, K.<\/strong>*, S. D. Schoville, D. Mota-Sanchez, and Y. H. Chen.<\/strong> 2018. Pesticide durability and the evolution of resistance: A novel application of survival analysis. Pest Management Science 10.1002\/ps.4899. http:\/\/onlinelibrary.wiley.com\/doi\/10.1002\/ps.4899\/abstract<\/a><\/p>\n Schoville, S. D., Y. H.<\/strong> Chen<\/strong>, M. N. Andersson, J. B. Benoit, A. Bhandari, J. H. Bowsher, K. Brevik*<\/strong>, K. Cappelle, M-J. M. Chen, A. K. Childers, C. Childers, O. Christiaens, J. Clements, E. N. Elpidina, P. Engsontia, M. Friedrich, I. Garc\u00eda-Robles, C. Goswami, A. Grapputo, K. Gruden, M. Grynberg, B. Henrissat, E. C. Jennings, J. W. Jones, M. Kalsi, S. A. Khan, A. Kumar, F. Li, V. Lombard, X. Ma, A. Martynov, N. J. Miller, R. F. Mitchell, M. Munoz-Torres, A. Muszewska, Brenda Oppert, S. R. Palli, K. A. Panfilio, Y. Pauchet, L. C. Perkin, M. Petek, M. F. Poelchau, E. Record, J. P. Rinehart, H. M. Robertson, A. J. Rosendale, V. M. Ruiz-Arroyo, G. Smagghe, Z. Szendrei, E. M. Szuter, G. W. C. Thomas, A. S. Torson, I. M. Vargas Jentzsch, M. T. Weirauch, A. D. Yates, G. D. Yocum, J-S Yoon, Stephen Richards. 2018. A model species for agricultural pest genomics: the genome of the Colorado potato beetle, Leptinotarsa decemlineata<\/i> (Coleoptera: Chrysomelidae)<\/a><\/p>\n . Scientific Reports 8: 1931.<\/p>\n Izzo, V. M.*<\/strong>, Y. H. Chen<\/strong>, S. D. Schoville, C. Wang, and D. J. Hawthorne. 2018. Origin of the Colorado potato beetle (Coleoptera: Chrysomelidae)<\/a>. Journal of Economic Entomology.<\/p>\n Bernal, J. S., A. M. D\u00e1vila-Flores, R. F. Medina, Y. H. Chen<\/strong>, K. E. Harrison, and K. A. Berrier. 2018. Did maize domestication and early spread mediate the population genetics of corn leafhopper?<\/a> Insect Science.<\/p>\n Chen, Y. H.<\/strong>, L. R. Shapiro, B. Benrey, A.\u00a0Cibri\u00e1n-Jaramillo. 2017. Back to the origin: in situ<\/em> studies are needed to understand selection during crop diversification. Special Issue: Ecology and Evolution of Plant under Domestication in the Neotropics.\u00a0Frontiers in Ecology and Evolution,\u00a0section Agroecology and Land Use Systems. 18 October. https:\/\/www.frontiersin.org\/articles\/10.3389\/fevo.2017.00125\/full<\/a><\/p>\n Crossley, M. S.,\u00a0 Y. H. Chen<\/strong>, R. L. Groves, and S. D. Schoville. 2017. Landscape genomics of Colorado potato beetle provides evidence of polygenic adaptation to insecticides. Molecular Ecology\u00a026(22): 6284-6300. DOI:\u00a010.1111\/mec.14339<\/a><\/p>\n Alyokhin, A. and Y. H. Chen<\/strong>. 2017. Adaptation to toxic hosts as a factor in the evolution of insecticide resistance. Current Opinion in Insect Science 21:33-38. https:\/\/www.sciencedirect.com\/science\/article\/pii\/S2214574516301110<\/a><\/p>\n Sulovari, A., Y. H. Chen<\/strong>, J. J. Hudziak, D. Li. 2017. Atlas of human diseases influenced by genetic variants with extreme allele frequency differences. Human Genetics 136(1):39-54. DOI: 10.1007\/s00439-016-1734-y<\/a><\/p>\n Cuong, N. L., G. A. Langellotto,<\/sub> T. L. Thuy, V. Quynh, N. T. T. Thuy, A. T. Barrion, <\/sub>and Y. H. Chen. <\/strong>2016. Arthropod diversity and abundance in wild rice, Oryza<\/em> r<\/em>ufipogon<\/em> in the Mekong Delta, Vietnam. Annals of the Entomological Society of America 109 (4): 542\u2013554. http:\/\/dx.doi.org\/10.1093\/aesa\/saw017<\/a><\/p>\n Chen, Y. H.<\/strong> 2016. Crop domestication, global human-mediated migration, and the unresolved role of geography in pest control. Special Forum: New Pathways to Sustainability in Agroecosystems. Elementa: Science of the Anthropocene. 4: 000106. doi: 10.12952\/journal.elementa.000106. https:\/\/www.elementascience.org\/articles\/106<\/a><\/p>\n Chen, Y. H.<\/strong>, R. Gols, *C. A. Stratton<\/strong>, *K. A. Brevik<\/strong>, B. Benrey. 2015. Complex tritrophic interactions in response to crop domestication: predictions from the wild. Entomologia Experimentalis et Applicata 157(1):40-59. http:\/\/onlinelibrary.wiley.com\/doi\/10.1111\/eea.12344\/abstract<\/a><\/p>\n
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