| Pea aphid promotes amino acid metabolism both in Medicago truncatula and bacteriocytes to favor aphid population growth under elevated CO2 H Guo, Y Sun, Y Li, B Tong, M Harris, K Zhu‐Salzman, F Ge Global Change Biology 19 (10), 3210-3223, 2013 | 107 | 2013 |
| Interactive Effects of Elevated Co2 and Cotton Cultivar on Tri-Trophic Interaction of Gossypium hirsutum, Aphis gossyppii, and Propylaea japonica F Gao, SR Zhu, YC Sun, L Du, M Parajulee, L Kang, F Ge Environmental entomology 37 (1), 29-37, 2014 | 105 | 2014 |
| A simple model for describing the effect of temperature on insect developmental rate P Shi, F Ge, Y Sun, C Chen Journal of Asia-Pacific Entomology 14 (1), 15-20, 2011 | 101 | 2011 |
| Elevated CO2 decreases the response of the ethylene signaling pathway in Medicago truncatula and increases the abundance of the pea aphid H Guo, Y Sun, Y Li, X Liu, W Zhang, F Ge New Phytologist 201 (1), 279-291, 2014 | 91 | 2014 |
| Effects of elevated CO2 associated with maize on multiple generations of the cotton bollworm, Helicoverpa armigera J Yin, Y Sun, G Wu, F Ge Entomologia Experimentalis et Applicata 136 (1), 12-20, 2010 | 91 | 2010 |
| Plant–Aphid Interactions Under Elevated CO2: Some Cues from Aphid Feeding Behavior Y Sun, H Guo, F Ge Frontiers in plant science 7, 502, 2016 | 84 | 2016 |
| Up-regulation of abscisic acid signaling pathway facilitates aphid xylem absorption and osmoregulation under drought stress H Guo, Y Sun, X Peng, Q Wang, M Harris, F Ge Journal of experimental botany 67 (3), 681-693, 2016 | 84 | 2016 |
| Lower incidence and severity of tomato virus in elevated CO2 is accompanied by modulated plant induced defence in tomato L Huang, Q Ren, Y Sun, L Ye, H Cao, F Ge Plant Biology 14 (6), 905-913, 2012 | 79 | 2012 |
| Elevated CO2 Reduces the Resistance and Tolerance of Tomato Plants to Helicoverpa armigera by Suppressing the JA Signaling Pathway H Guo, Y Sun, Q Ren, K Zhu-Salzman, LE Kang, C Wang, C Li, F Ge PLoS One 7 (7), e41426, 2012 | 79 | 2012 |
| Elevated CO2 increases the abundance of the peach aphid on Arabidopsis by reducing jasmonic acid defenses Y Sun, H Guo, K Zhu-Salzman, F Ge Plant Science 210, 128-140, 2013 | 77 | 2013 |
| Response of amino acid changes in Aphis gossypii (Glover) to elevated CO2 levels YC Sun, BB Jing, F Ge Journal of Applied Entomology 133 (3), 189-197, 2009 | 69 | 2009 |
| Elevated CO2 changes the interactions between nematode and tomato genotypes differing in the JA pathway Y Sun, H Cao, JIN Yin, LE Kang, F Ge Plant, cell & environment 33 (5), 729-739, 2010 | 67 | 2010 |
| An aphid-secreted salivary protease activates plant defense in phloem H Guo, Y Zhang, J Tong, P Ge, Q Wang, Z Zhao, K Zhu-Salzman, ... Current Biology 30 (24), 4826-4836. e7, 2020 | 66 | 2020 |
| A modified program for estimating the parameters of the SSI model P Shi, T Ikemoto, C Egami, Y Sun, F Ge Environmental Entomology 40 (2), 462-469, 2011 | 62 | 2011 |
| How do aphids respond to elevated CO2? Y Sun, F Ge Journal of Asia-Pacific Entomology 14 (2), 217-220, 2011 | 61 | 2011 |
| No effects of elevated CO2 on the population relationship between cotton bollworm, Helicoverpa armigera Hübner (Lepidoptera: Noctuidae), and its parasitoid, Microplitis … J Yin, Y Sun, G Wu, MN Parajulee, F Ge Agriculture, ecosystems & environment 132 (3-4), 267-275, 2009 | 61 | 2009 |
| Elevated CO2 Influences Nematode-Induced Defense Responses of Tomato Genotypes Differing in the JA Pathway Y Sun, J Yin, H Cao, C Li, LE Kang, F Ge PLoS One 6 (5), e19751, 2011 | 60 | 2011 |
| The different role of each head of the triceps brachii muscle in elbow extension E Kholinne, RF Zulkarnain, YC Sun, SJ Lim, JM Chun, IH Jeon Acta orthopaedica et traumatologica turcica 52 (3), 201-205, 2018 | 58 | 2018 |
| Plant stomatal closure improves aphid feeding under elevated CO2 Y Sun, H Guo, L Yuan, J Wei, W Zhang, F Ge Global Change Biology 21 (7), 2739-2748, 2015 | 58 | 2015 |
| Elevated CO2 alters the feeding behaviour of the pea aphid by modifying the physical and chemical resistance of Medicago truncatula H Guo, Y Sun, Y Li, X Liu, P Wang, K ZHU‐SALZMAN, F Ge Plant, cell & environment 37 (9), 2158-2168, 2014 | 56 | 2014 |
