Contact me for PDF of any of the below.
*indicates students or postdocs from the lab
Linder S*, BJM. Jarrett*, M. Szűcs. 2022. Non-target attack of the native stink, Podisus maculiventris by Trissolcus japonicus, comes with fitness costs and trade-offs. Biological Control. doi.org/10.1016/j.biocontrol.2022.105107
Jarrett BJM*, S. Linder*, PD Fanning, R. Isaacs and M. Szűcs. 2022. Limited gains in native parasitoid performance on an invasive host beyond three generations of selection. Evolutionary Applications. doi.org/10.1111/eva.13504. (Open Access)
Jarrett BJM*, M Szűcs. 2022. Traits across trophic levels interact to influence parasitoid establishment in biological control releases. Ecology and Evolution. 2022;12:e8654. doi.org/101002/ece3.8654 (Open access)
Alred B*, RA Hufbauer and M. Szűcs. 2022. Potential impact and phenology of the biological control agent, Hypena opulenta on Vincetoxicum nigrum in Michigan. Biocontrol Science and Technology doi.org/10.1080/09583157.2022.2040950
Jarrett BJM*, S. Linder*, PD Fanning, R. Isaacs and M. Szűcs. 2022. Experimental adaptation of native parasitoids to the invasive pest, Drosophila suzukii. Biological Control. doi.org/10.1016/j.biocontrol.2022.104843 (Open access)
Alred B*, N. Haan, D. A. Landis and M. Szűcs. 2022. Does the presence of the biological control agent, Hypena opulenta (Lepidoptera: Erebidae) on swallow-worts deter monarch oviposition? Environmental Entomology. doit.org/10.1093/ee/nvab121
Simaz O* and M. Szűcs. 2021. Differential effects of heat waves on an invasive herbivore and its parasitoid. Ecosphere doi/10.1002/ecs2.3796 (Open access)
Szűcs, M., E. I. Clark, U. Schaffner, J. L. Littlefield, C. Hoover, and R. A. Hufbauer. 2021. The effects of intraspecific hybridization on the host specificity of a weed biocontrol agent. Biological control:104585. doi.org/10.1016/j.biocontrol.2021.104585
Miller TEX, AL. Angert, CD. Brown, JA. Lee-Yaw, M Lewis, F Lutscher, NG. Marculis, BA. Melbourne, AK. Shaw, M Szűcs, O Tabares, T Usui, C Weiss-Lehman, JL. Williams. 2020. Eco-evolutionary dynamics of range expansion. Ecology. doi.org/10.1002/ecy.3139
Jarrett B. J. M*., J. Pote, E. Talamas, L. Gut and M. Szűcs. 2019. The discovery of Trissolcus japonicus (Hymenoptera: Scelionidae) in Michigan. The Great Lakes Entomologist. 52:6-11
Szűcs M, E. Vercken, E. Bitume and RA Hufbauer. 2019. The implications of rapid eco-evolutionary dynamics for biological control – a review. Entomologia Experimentalis et Applicata. 167:598-615
Szűcs M, P Salerno, B Teller, U Schaffner, J Littlefield and RA Hufbauer. 2019. The effects of agent hybridization on the efficacy of biological control of tansy ragwort at high elevations. Evolutionary Applications 12 (3): 470-481 doi.org/10.1111/eva.12726
Szűcs M†, M Vahsen†, BA Melbourne, C Hoover, C Weiss-Lehman, and RA Hufbauer. 2017. Rapid adaptive evolution in novel environments acts as an architect of population range expansion. PNAS. 114 (51): 13501-13506. †Co-first authors doi.org/10.1073/pnas.1712934114 Recommended by Faculty1000
Stewart GS*, MR Morris*, AB Genis*, M Szűcs, BA Melbourne, SJ Tavener, and RA Hufbauer. 2017. The power of evolutionary rescue is constrained by genetic load. Evolutionary Applications. 10 (7): 731- 741 *Undergraduate co-authors
Szűcs M, BA Melbourne, T Tuff, C Weiss-Lehman, and RA Hufbauer. 2017. Genetic and demographic founder effects have long-term fitness consequences for colonising populations. Ecology Letters. 20 (4):436-444
Hufbauer RA, M Szűcs, E Kasyon*, C Youngberg*, M Koontz, C Richards, T Tuff, BA Melbourne. 2015. Reply to Wootton and Pfister: The search for general context should include synthesis with laboratory model systems. PNAS. 112: E5904 *Undergraduate co-authors
Hufbauer RA, M Szűcs, E Kasyon*, C Youngberg*, M Koontz, C Richards, T Tuff, BA Melbourne. 2015. Three types of rescue can avert extinction in a changing environment. PNAS. 112:10557-10562 *Undergraduate co-authors
Szűcs M, BA Melbourne, T Tuff, and RA Hufbauer. 2014. The roles of demography and genetics in the early stages of colonization. Proceedings of the Royal Society B Biological Sciences. 281. 20141073
Szűcs M, U Schaffner, WJ Price and M Schwarzländer. 2012. Post-introduction evolution in the biological control agent Longitarsus jacobaeae (Coleoptera: Chrysomelidae). Evolutionary Applications 5: 858-868
Szűcs M, SD Eigenbrode, M Schwarzländer, and U Schaffner. 2012. Hybrid vigor in the biological control agent, Longitarsus jacobaeae. Evolutionary Applications 5: 489-497
Szűcs M, M Schwarzländer, and JF Gaskin. 2011. Reevaluating establishment and potential hybridization of different biotypes of the biological control agent Longitarsus jacobaeae using molecular tools. Biological Control 58: 44-52
Marsico TD, JW Burt, EK Espeland, G Gilchrist, MA Jamieson, L Lindström, S Swope, G Roderick, M Szűcs, and N Tsutsui. 2010. Underutilized resources for studying the evolution of invasive species during their introduction, establishment, and lag phases. Evolutionary Applications. 3: 203-219.
*indicates students or postdocs from the lab
Linder S*, BJM. Jarrett*, M. Szűcs. 2022. Non-target attack of the native stink, Podisus maculiventris by Trissolcus japonicus, comes with fitness costs and trade-offs. Biological Control. doi.org/10.1016/j.biocontrol.2022.105107
Jarrett BJM*, S. Linder*, PD Fanning, R. Isaacs and M. Szűcs. 2022. Limited gains in native parasitoid performance on an invasive host beyond three generations of selection. Evolutionary Applications. doi.org/10.1111/eva.13504. (Open Access)
Jarrett BJM*, M Szűcs. 2022. Traits across trophic levels interact to influence parasitoid establishment in biological control releases. Ecology and Evolution. 2022;12:e8654. doi.org/101002/ece3.8654 (Open access)
Alred B*, RA Hufbauer and M. Szűcs. 2022. Potential impact and phenology of the biological control agent, Hypena opulenta on Vincetoxicum nigrum in Michigan. Biocontrol Science and Technology doi.org/10.1080/09583157.2022.2040950
Jarrett BJM*, S. Linder*, PD Fanning, R. Isaacs and M. Szűcs. 2022. Experimental adaptation of native parasitoids to the invasive pest, Drosophila suzukii. Biological Control. doi.org/10.1016/j.biocontrol.2022.104843 (Open access)
Alred B*, N. Haan, D. A. Landis and M. Szűcs. 2022. Does the presence of the biological control agent, Hypena opulenta (Lepidoptera: Erebidae) on swallow-worts deter monarch oviposition? Environmental Entomology. doit.org/10.1093/ee/nvab121
Simaz O* and M. Szűcs. 2021. Differential effects of heat waves on an invasive herbivore and its parasitoid. Ecosphere doi/10.1002/ecs2.3796 (Open access)
Szűcs, M., E. I. Clark, U. Schaffner, J. L. Littlefield, C. Hoover, and R. A. Hufbauer. 2021. The effects of intraspecific hybridization on the host specificity of a weed biocontrol agent. Biological control:104585. doi.org/10.1016/j.biocontrol.2021.104585
Miller TEX, AL. Angert, CD. Brown, JA. Lee-Yaw, M Lewis, F Lutscher, NG. Marculis, BA. Melbourne, AK. Shaw, M Szűcs, O Tabares, T Usui, C Weiss-Lehman, JL. Williams. 2020. Eco-evolutionary dynamics of range expansion. Ecology. doi.org/10.1002/ecy.3139
Jarrett B. J. M*., J. Pote, E. Talamas, L. Gut and M. Szűcs. 2019. The discovery of Trissolcus japonicus (Hymenoptera: Scelionidae) in Michigan. The Great Lakes Entomologist. 52:6-11
Szűcs M, E. Vercken, E. Bitume and RA Hufbauer. 2019. The implications of rapid eco-evolutionary dynamics for biological control – a review. Entomologia Experimentalis et Applicata. 167:598-615
Szűcs M, P Salerno, B Teller, U Schaffner, J Littlefield and RA Hufbauer. 2019. The effects of agent hybridization on the efficacy of biological control of tansy ragwort at high elevations. Evolutionary Applications 12 (3): 470-481 doi.org/10.1111/eva.12726
Szűcs M†, M Vahsen†, BA Melbourne, C Hoover, C Weiss-Lehman, and RA Hufbauer. 2017. Rapid adaptive evolution in novel environments acts as an architect of population range expansion. PNAS. 114 (51): 13501-13506. †Co-first authors doi.org/10.1073/pnas.1712934114 Recommended by Faculty1000
Stewart GS*, MR Morris*, AB Genis*, M Szűcs, BA Melbourne, SJ Tavener, and RA Hufbauer. 2017. The power of evolutionary rescue is constrained by genetic load. Evolutionary Applications. 10 (7): 731- 741 *Undergraduate co-authors
Szűcs M, BA Melbourne, T Tuff, C Weiss-Lehman, and RA Hufbauer. 2017. Genetic and demographic founder effects have long-term fitness consequences for colonising populations. Ecology Letters. 20 (4):436-444
Hufbauer RA, M Szűcs, E Kasyon*, C Youngberg*, M Koontz, C Richards, T Tuff, BA Melbourne. 2015. Reply to Wootton and Pfister: The search for general context should include synthesis with laboratory model systems. PNAS. 112: E5904 *Undergraduate co-authors
Hufbauer RA, M Szűcs, E Kasyon*, C Youngberg*, M Koontz, C Richards, T Tuff, BA Melbourne. 2015. Three types of rescue can avert extinction in a changing environment. PNAS. 112:10557-10562 *Undergraduate co-authors
Szűcs M, BA Melbourne, T Tuff, and RA Hufbauer. 2014. The roles of demography and genetics in the early stages of colonization. Proceedings of the Royal Society B Biological Sciences. 281. 20141073
Szűcs M, U Schaffner, WJ Price and M Schwarzländer. 2012. Post-introduction evolution in the biological control agent Longitarsus jacobaeae (Coleoptera: Chrysomelidae). Evolutionary Applications 5: 858-868
Szűcs M, SD Eigenbrode, M Schwarzländer, and U Schaffner. 2012. Hybrid vigor in the biological control agent, Longitarsus jacobaeae. Evolutionary Applications 5: 489-497
Szűcs M, M Schwarzländer, and JF Gaskin. 2011. Reevaluating establishment and potential hybridization of different biotypes of the biological control agent Longitarsus jacobaeae using molecular tools. Biological Control 58: 44-52
Marsico TD, JW Burt, EK Espeland, G Gilchrist, MA Jamieson, L Lindström, S Swope, G Roderick, M Szűcs, and N Tsutsui. 2010. Underutilized resources for studying the evolution of invasive species during their introduction, establishment, and lag phases. Evolutionary Applications. 3: 203-219.