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马罡

文章来源:研究生工作处       

一、个人简介

马罡,男,现任亚搏app副研究员,硕士生导师。

2003年7月毕业于东北农业大学获农学学士学位;2006年7月毕业于亚搏app研究生院获农学硕士学位;2009年至2012年在亚搏app研究生院攻读博士学位;2012年至2014年在亚搏app从事博士后研究工作。2014年7月至今在亚搏app工作。

长期从事气候变化对昆虫的影响及昆虫对气候变化的适应机制研究,主持和参加国家自然基金、农业行业专项、转基因重大专项、国家科技基础条件平台建设项目、北京市自然基金、中国博士后基金等项目;在Annual Review of Entomology、Global Change Biology、Functional Ecology、Journal of Experimental Biology、Animal Behaviour等杂志发表论文40余篇,参编著作5部。

二、主要论著(*通讯作者)

  1. Ma G, Bai CM, Rudolf V, Ma CS*. 2021. Night warming alters mean warming effects on predator-prey interactions by modifying predator demographics and interaction strengths. Functional Ecology, (5-year IF = 5.5) https://doi.org/10.1111/1365-2435.13833
  2. Ma G, Hoffmann A, Ma CS*. 2021. Are extreme high temperatures at low or high latitudes likely to inhibit population growth of a global aphid? Journal of Thermal Biology, 98: 102936. (5-year IF = 2.4) https://doi.org/10.1016/j.jtherbio.2021.102936
  3. Ma CS*, Ma G, Pincebourde S. 2021. Survive a Warming Climate: Insect Responses to Extreme High Temperatures. Annual Review of Entomology, 66: 163–184. (5-year IF = 16.6) https://doi.org/10.1146/annurev-ento-041520-074454
  4. Ma G, Le Lann C, van Baaren J, Ma CS*. 2020. Night Warming Affecting Interspecific Interactions: Implications for Biological Control. In: Gao Y., Hokkanen H., Menzler-Hokkanen I. (eds) Integrative Biological Control. Progress in Biological Control, vol 20. Springer, Cham. https://doi.org/10.1007/978-3-030-44838-7_3
  5. Chen YY, Zhang W, Ma G, Ma CS*. 2019. More stressful event does not always depress subsequent life performance. Journal of Integrative Agriculture, 18(10): 2321–2329. (5-year IF = 1.9) https://doi.org/10.1016/S2095-3119(18)62145-8
  6. Bai CM, Ma G*, Cai WZ, Ma CS*. 2019. Independent and combined effects of daytime heat stress and nighttime recovery determine thermal performance. Biology Open, 8 (3), bio038141. (5-year IF = 2.3) https://doi.org/10.1242/bio.038141
  7. Ma G, Bai CM, Wang XJ, Ma CS*. 2018. Behavioural thermoregulation alters microhabitat utilization and demographic rates in ectothermic invertebrates. Animal Behaviour, 142: 49-57. (5-year IF = 2.9) https://doi.org/10.1016/j.anbehav.2018.06.003
  8. Ma G, Tian BL, Zhao F, Wei GS, Hoffmann A, Ma CS*. 2017. Soil moisture conditions determine phenology and success of larval escape in the peach fruit moth, Carposina sasakii: Implications for predicting drought effects on a diapausing insect. Applied Soil Ecology, 110: 65–72. (5-year IF = 3.7) https://doi.org/10.1016/j.apsoil.2016.10.013
  9. Zhang B, Zhao F, Hoffmann A, Ma G, Ding HM, Ma CS*. 2016. Warming accelerates carbohydrate consumption in the diapausing overwintering peach fruit moth Carposina sasakii (Lepidoptera: Carposinidae). Environmental Entomology, 45(5): 1287–1293. (5-year IF = 1.8) https://doi.org/10.1093/ee/nvw079
  10. Ma G, Rudolf V, Ma CS*. 2015. Extreme temperature events alter demographic rates, relative fitness, and community structure. Global Change Biology, 21(5): 1794–1808. (5-year IF = 9.8) https://doi.org/10.1111/gcb.12654
  11. Ma G, Hoffmann A, Ma CS*. 2015. Daily temperature extremes play an important role in predicting thermal effects. Journal of Experimental Biology, 218(14): 2289–2296. (5-year IF = 3.4) https://doi.org/10.1242/jeb.122127
  12. Liang L, Zhang W, Ma G, Hoffmann A, Ma CS*. 2014. A single hot event stimulates adult performance but reduces egg survival in the oriental fruit moth. PLoS ONE, 9(12): e116339. (5-year IF = 3.2) https://doi.org/10.1371/journal.pone.0116339
  13. Ma G, Ma CS*. 2012. Effect of acclimation on heat-escape temperatures of two aphid species: implications for behavioral response to climate warming. Journal of Insect Physiology, 58(3): 303–309. (5-year IF = 2.6) https://doi.org/10.1016/j.jinsphys.2011.09.003
  14. Ma G, Ma CS*. 2012. Climate warming may increase aphids’ dropping probabilities in response to high temperatures. Journal of Insect Physiology, 58(11): 1456–1462. (5-year IF = 2.6) https://doi.org/10.1016/j.jinsphys.2012.08.012
  15. Ma G, Ma CS*. 2012. Differences in the nocturnal flight activity of insect pests and beneficial predatory insects recorded by light traps: possible use of a beneficial-friendly trapping strategy for controlling insect pests. European Journal of Entomology, 109(3): 395–401. (5-year IF = 1.2) https://doi.org/10.14411/eje.2012.051
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