2010.7-present Department of Herpetology, Chengdu Institute of Biology, Chinese Academy of Sciences 2004.9-2010/06 School of Life Science and Technology, University of Electronic Science and Technology of China. Ph.D. 1988.9-1991.6 Shanghai Medical Instrumentation College. B.S.

Animal behavior and neural mechanisms; Biomedical signal processing

　　[1] Cui JG^*, Zhu BC, Fang GZ, Smith E, Brauth SE, Tang YZ. Effect of the level of anesthesia on the auditory brainstem response in the Emei music frog (Babina daunchina). PloS one, 2017, 12(1):e0169449 

　　[2] Xue F, Fang GZ*, Yue XZ, Zhao EM, Brauth SE, Tang YZ. Resting-state brain networks revealed by granger causal connectivity in frogs. Neuroscience, 2016, 334:332-340 

　　[3] Xue F, Fang GZ*, Yue XZ, Zhao EM, Brauth SE, Tang YZ. A lateralized functional auditory network is involved in anuran sexual selection. Journal of Biosciences, 2016, 41(4):713-726 

　　[4] Liu YS, Fan YZ, Xue F, Yue XZ, Brauth SE, Tang YZ, Fang GZ*. Changes in Electroencephalogram approximate entropy reflect auditory processing and functional complexity in frogs. Asian Herpetological Research, 2016, 7(3):180-190 

　　[5] Jing W, Wang YR, Fang GZ, Chen MM, Xue M, Guo DQ, Yao DZ^*, Xia Y^*. EEG bands of wakeful rest, slow-wave and rapid-eye-movement sleep at different brain areas in rats. Frontiers in Computational Neuroscience, 2016, 10 

　　[6] Cui JG^*, Song XW, Zhu BC, Fang GZ, Tang YZ^*. Ryan MJ. Receiver discriminability drives the evolution of complex sexual signals by sexual selection. Evolution, 2016, 70(4): 922-927 

　　[7] Cui JG^*, Wang JC, Fang GZ, Song XW, Brauth SE, Tang YZ^*. Coevolution of male and female response preferences to sexual signals in music frogs. Asian Herpetological Research, 2016, 7(2): 87-95. 

　　[8] 范艳珠,方光战^*.蛙类声音通讯研究进展.动物学杂志,2016,51(6):1118- 1128 

　　[9] 薛飞,方光战^*,唐业忠.大脑听觉偏侧性的特征与演化.四川动物,2016,35(4):626-631 

　　[10] Fang GZ, Yang P, Xue F, Cui JG, Brauth SE, Tang YZ^*. Sound classification and call discrimination are decoded in order as revealed by event-related potential components in frogs. Brain Behavior and Evolution, 2015, 86:232-245. 

　　[11] Xue F, Fang GZ*, Yang P, Zhao EM, Brauth SE, Tang YZ^*. The biological significance of acoustic stimuli determines ear preference in the music frog. Journal of Experimental Biology, 2015, 218 (5):740-747 

　　[12] Jiang F, Fang GZ*, Xue F, Cui JG, Brauth SE, Tang YZ^*. Male music frogs compete vocally on the basis of temporal sequence rather than spatial cues of rival calls. Asian Herpetological Research, 2015, 6(4):305-316 

　　[13] Fang GZ, Xue F, Yang P, Cui JG, Brauth SE and Tang YZ*. Right ear advantage for vocal communication in frogs results from both structural asymmetry and attention modulation. Behavioural Brain Research, 2014, 266:77-84 

　　[14] Fang GZ, Jiang F, Yang P, Cui JG, Brauth SE and Tang YZ*. Male vocal competition is dynamic and strongly affected by social contexts in music frogs. Animal cognition, 2014, 17(2), 483-494 

　　[15] Yang P, Fang GZ*, Xue F, Cui JG, Brauth SE and Tang YZ*. Electroencephalographic signals synchronize with behaviors and are sexually dimorphic during the light–dark cycle in reproductive frogs. Journal of Comparative Physiology A, 2014, 200(2): 117-127 

　　[16] Fang GZ, Yang P, Cui JG, Yao DZ, Brauth SE and Tang YZ*. Mating signals indicating sexual receptiveness induce unique spatio-temporal EEG theta patterns in an anuran species. PloS one, 2012, 7(12): e52364 

　　[17] Fang GZ, Chen Q, Cui JG and Tang YZ*. Electroencephalogram bands modulated by vigilance states in an anuran species: a factor analytic approach. Journal of Comparative Physiology A, 2012, 198: 119-127 

　　[18] Fang GZ, Cui JG, Chen Q, Yang P, Song J and Tang YZ*. Changes in electroencephalographic power spectra associated with reproductive status in frog. Advances in Neural Networks–ISNN: 2011,139-147 

　　[19] Cui JG, Song XY, Fang GZ, Xu F, Brauth SE, Tang YZ*. Circadian rhythm of calling behavior in Emei music frog (Babina daunchina) is associated with habitat temperature and relative humidity. Asian Herpetological Research, 2011, 2: 149-154 

　　[20] Chen Q, Cui JG, Fang GZ, Brauth SE, Tang YZ*. An acoustic analysis of the advertisement calls of the music frog, Babina daunchina. Journal of Herpetology, 2011, 45(4): 406-416 

　　[21] Fang GZ, Xia Y, Zhang CP, Liu TJ and Yao DZ*. Optimized single electroencephalogram channel sleep staging in rats. Laboratory Animals, 2010, 44(4): 312-322 

　　[22] Fang GZ, Xia Y, Lai YX, You ZL and Yao DZ*. Long-range correlations of different EEG derivations in rats: sleep stage-dependent generators may play a key role. Physiological Measurement, 2010, 31(6): 795-808 

　　[23] Fang GZ, Zhang CP, Xia Y, Lai YX, Liu TJ, You ZL, Yao DZ^*. The effect of different EEG derivations on sleep staging in rats: the frontal midline-parietal bipolar electrode for sleep scoring. Physiological Measurement, 2009, 30(7): 589-601 

National Natural Science Foundation of China (No.31372217)