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张锋

性别:

职称:研究员

邮箱:fzhang@xtbg.ac.cn

研究方向:

主要从事理论生态学研究,在生态学、数学和物理学的交叉界面上,通过数学模型和计算机模拟解释生态系统的非随机模式和物理性质,揭示其生态和进化的复杂机理,探索生物多样性的形成和维持机制。在Ecology Letters、Global Change Biology、Evolution、Animal Behaviour、Proceedings of the Royal Society B: Biological Sciences等期刊发表学术论文60多篇。论文被Nature、Science、PNAS、Nature Communications、Nature Ecology & Evolution、Trends in Ecology & Evolution、Ecology Letters、PLoS Biology、Ecology等期刊引用1100多次。目前的主要研究方向是:(1)生态与进化耦合的动力系统,(2)生态系统的随机性和复杂性,(3)动植物生态网络的协同进化。

学习经历

2001-2006 兰州大学,生态学,博士(硕博连读)

1993-1997 西北师范大学,数学,学士

 

工作经历

2023-至今 中国科学院西双版纳热带植物园, 研究员

2015-2022 甘肃农业大学理学院,特聘教授

2013-2015 南非斯坦陵布什大学数学系,研究员

2009-2012 南非斯坦陵布什大学入侵生物研究中心,博士后

2006-2009 甘肃农业大学理学院,副教授

1997-2006 甘肃农业大学理学院,助教和讲师

 

代表论著

1.      Xiang XJ, Yuannuo YN, Zhang F*, Kuang YY, Li CL, Sun RB, Hui C. Evidence for cross transmission of pathogens between wild hooded cranes and domestic geese. Journal of Avian Biology. 2023: e03083.

2.      Gao JZ, Ji JP, Liu YP, Zhang F*, Wang RW, Wang H. A confidence ellipse analysis for stochastic dynamics model of Alzheimer's disease. Nonlinear dynamics, 2023, 111: 13513-13533.

3.      Li CL, Zhang XY, Cheng L, Zhang BW, Zhang F*. Food patch use of Japanese quail Coturnix japonica varies with personality traits. Frontiers in Zoology. 2023, 20: 30.

4.      Zhang F, Cao ML, Shi L, Wang RW. Disease-induced cooperation mitigates populations against decline: the cascade effect of cooperation evolution. Frontiers in Ecology and Evolution. 2022, 10: 758659.

5.      Zhang Y, Zhang F*, Abalos D, Luo YQ, Hui DF, Hungate BA, Garc a-Palacios P, Kuzyakov Y, Olesen JE, J?rgensen U, Chen J. Stimulation of ammonia oxidizer and denitrifier abundances by nitrogen loading: Poor predictability for increased soil N2O emission. Global Change Biology. 2022, 28: 2158-2168.

6.      Li CL, Zhang XY, Cui P, Zhang F*, Zhang BW. Male mate choice in mosquitofish: personality outweighs body size. 2022, Frontiers in Zoology, 19: 5.

7.      Liu YP, Wang SY, Li ML, Zhang F*, Wang RW. The emergence of adaptive diversification from plant’s light competition. Chaos Solitons & Fractals. 2021, 152: 111366.

8.      Wang SY, Liu YP, Zhang F*, Wang RW. Super-rational aspiration induced strategy updating promotes cooperation in the asymmetric prisoner’s dilemma game. Applied Mathematics and Computation. 2021, 403: 126180.

9.      Zhang F*, Zhang JM, Cao ML, Zhang Y, Hui C. Exponential damping: The key to successful containment of COVID-19. Frontiers in Public Health. 2021, 8: 580619.

10.   Lin HL, Zhang F*. Fragmentation and percolation thresholds in the degradation process of alpine meadow in the Three-River Headwaters region of Qinghai-Tibetan Plateau, China. The Rangeland Journal. 2020, 43: 297-308.

11.   Liu YP, Wang L, Zhang F*, Wang RW. Diffusion sustains cooperation via forming diverse spatial patterns in prisoner's dilemma game. Applied Mathematics and Computation. 2020, 375: 125077.

12.   Xu WJ, Yao Q, Zhang WW, Zhang F, Li HF, Xu RX, Li CL, Zhang BW. Environmental complexity during early life shapes average behavior in adulthood. Behavioral Ecology. 2020, 32: 105-113.

13.   Yang XQ, Zhang F*, Wang WX, Zhang D, Shi ZH, Zhou SW. Effect of habitat destruction on cooperation in public goods games. Physics Letters A. 2020, 384: 126276.

14.   Yang XQ, Zhang F*, Wang WX. Predation promotes cooperation in Prisoner's Dilemma Games. Physica A: Statistical Mechanics and its Applications. 2019, 514: 20-24.

15.   Zhang D, Song WX, Chen NL, Zhang F*. The role of spatial scale in organism-environment positive feedback. Nonlinear Dynamics. 2019, 95: 2019-2029.

16.   Li XR, Zhang DH, Zhang F, Zhang P. The eco-hydrological threshold for evaluating the stability of sand-binding vegetation in different climatic zones. Ecological Indicators. 2017, 83: 404-415.

17.   Zhang DH, Li XR, Zhang F, Zhang ZS, Chen YL. Effects of rainfall intensity and intermittency on woody vegetation cover and deep soil moisture in dryland ecosystems in China. Journal of Hydrology. 2016, 543: 270–282.

18.   Nuwagaba S, Zhang F, Hui C. A hybrid behavioural rule of adaptation and drift explains the emergent architecture of antagonistic networks. Proceedings of the Royal Society B: Biological Sciences. 2015, 282: 20150320.

19.   Zhang F, Hui C. Recent experience-driven behavior optimizes foraging. Animal Behaviour. 2014, 88:13-19.

20.   Zhang F, Hui C, Pauw A. Adaptive divergence in Darwin’s race: How coevolution can generate trait diversity in a pollination system. Evolution. 2013, 67:548-560.

21.   Zhang F*, Tao Y, Hui C. Organism-induced habitat restoration leads to bi-stability in metapopulations. Mathematical Biosciences. 2012, 240: 260-266.

22.   Zhang F*, Hui C, Terblanche JS. An interaction switch predicts the nested architecture of mutualistic networks. Ecology Letters. 2011, 14: 797-803.

23.   Zhang F*, Hui C. Eco-evolutionary feedback and the invasion of cooperation in prisoner’s dilemma games. PLoS ONE. 2011, 6: e27523.

24.   Zhang F, Tao Y, Li ZZ, Hui C. The evolution of cooperation on fragmented landscapes: the spatial Hamilton rule. Evolutionary Ecology Research. 2010, 12: 23-33.

25.   Zhang FP, Li ZZ, Zhang F. Global stability of an SIR epidemic model with constant infectious period. Applied Mathematics and Computation. 2008, 199: 285-291.

26.   Zhang F, Li ZZ, Hui C. Spatiotemporal dynamics and distribution patterns of cyclic competition in metapopulation. Ecological Modelling. 2006, 193: 721-735.

27.   Hui C, Zhang F, Han XZ., Li ZZ. Cooperation evolution and self-regulation dynamics in metapopulation: stage-equilibrium hypothesis. Ecological Modeling. 2005, 184: 397-412.

28.   Zhang F, Hui C, Han XZ, Li ZZ. Evolution of cooperation in patchy habitat under patch decay and isolation. Ecological Research. 2005, 20: 461-469.