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个人信息
- 所在单位:园艺学院
- 学历:博士研究生毕业
- 学位:农学博士学位
- Huang Xiao,Coulibaly Daouda,Tan Wei,Ni Zhaojun,Shi Ting,Li Hantao,Hayat Faisal,Gao Zhihong.The analysis of genetic structure and characteristics of the chloroplast genome in different Japanese apricot germplasm populations,BMC PLANT BIOLOGY,2022,22(1)(通讯作者)
- Gao Feng,Huang Xiao,Segbo Silas,Coulibaly Daouda,Wang Rui,Ma Chengdong,Bai Yang,Zhou Pengyu,Tan Wei,Ma Yufan,Ni Zhaojun,Shi Ting,Gao Zhihong.Identification and Functional Analysis of Transcription Factor NF-Y Family during Flower Bud Dormancy in Prunus mume,HORTICULTURAE,2022,8(12)(通讯作者)
- 高志红,周鹏羽.促成栽培桃破眠技术要点,农家致富,2022,(2022年22期):29(第一作者)
- Sun Hailong,Huang Xiao,Chen Tao,Zhou Pengyu,Huang Xuexi,Jin Weixin,Liu Dan,Zhang Hongtu,Zhou Jianguo,Wang Zhongjun,Hayat Faisal,Gao Zhihong.Fruit quality prediction based on soil mineral element content in peach orchard,FOOD SCIENCE & NUTRITION,2022,10(6):1756-1767(通讯作者)
- Iqbal Shahid,Hayat Faisal,Mushtaq Naveed,Khalil-Ur-Rehman Muhammad,Khan Ummara,Yasoob Talat Bilal,Khan Muhammad Nawaz,Ni Zhaojun,Ting Shi,Gao Zhihong.Bioinformatics Study of Aux/IAA Family Genes and Their Expression in Response to Different Hormones Treatments during Japanese Apricot Fruit Development and Ripening,PLANTS-BASEL,2022,11(15)(通讯作者)
- Huang Xiao,Chen Tao,Zhou Pengyu,Huang Xuexi,Liu Dan,Jin Weixin,Zhang Hongtu,Zhou Jianguo,Wang Zhongjun,Gao Zhihong.Prediction and optimization of fruit quality of peach based on artificial neural network,JOURNAL OF FOOD COMPOSITION AND ANALYSIS,2022,111(通讯作者)
- 高志红,倪照君,侍婷,韩键,章镇.花果兼用型梅新品种‘南农丰羽’,园艺学报,2022,0(第一及通讯作者)
- Iqbal Shahid,Bai Yang,Hayat Faisal,Coulibaly Daouda,Khalil-ur-Rehman Muhammad,Shi Ting,Gao Zhihong.Comprehensive transcriptomic and metabolomic analysis revealed distinct flavonoid biosynthesis regulation during abnormal pistil development in Japanese apricot,GENOMICS,2022,114(5)(通讯作者)
- Coulibaly Daouda,Hu Guofeng,Ni Zhaojun,Ouma Kenneth Omondi,Huang Xiao,Iqbal Shahid,Ma Chengdong,Shi Ting,Hayat Faisal,Karikari Benjamin,Gao Zhihong.A Key Study on Pollen-Specific SFB Genotype and Identification of Novel SFB Alleles from 48 Accessions in Japanese Apricot (Prunus mume Sieb. et Zucc.),Forests,2022,13(9)(通讯作者)
- 周泳,丁云斐,高志红.专业学位研究生教育导向和培养质量瓶颈问题分析,教育教学论坛,2022,(2022年47期):177-180(参与作者)
