一、基本情况
徐小彪,二级教授,博士研究生导师,猕猴桃研究所所长;江西省新世纪百千万人才工程人选,江西省高校中青年学科带头人,江西省人民政府特贴专家;中国园艺学会猕猴桃分会副理事长,国家猕猴桃产业联盟副理事长,江西省园艺学会理事长。
二、个人简历(学习或者工作经历)
1980.9-1984.6 江西农业大学园艺系 学习
1984.7-1992.2 江西农业大学园艺系 助教
1992.2-1996.4 江西农业大学园艺系 讲师
1996.5-2002.9 江西农业大学农学院 副教授
2005.6-2006.5 新西兰皇家园艺研究院 公派访问学者
2002.10-至今 江西农业大学农学院 教授
三、主要研究方向
果树种质资源与分子生物学
四、近五年来研究成果
1.主要论文:
(1) Li YQ, Gao H, Jia DF, Wang HL, Zheng KX, Xu XB*. AGPS and BAM genes dramatically improve 'Ganlv 1′ (Actinidia eriantha) fruit quality through starch metabolism during fruit development. Scientia Horticulturae, 2024, 239: 113004.
(2) Jia DF, Liao GL, Ye B, Zhong M, Huang CH, Xu XB*. Changes in fruit quality, phenolic compounds, and antioxidant activity of kiwifruit (Actinidia eriantha) during on-vine ripening. LWT, 2024, 206: 116564.
(3) Liao GL, Xu Q*, Allan AC, Xu XB*. L-Ascorbic acid metabolism and regulation in fruit crops. Plant Physiology, 2023, 192(3): 1684-1695.
(4) Liao GL, Huang CH, Jia DF, Zhong M, Tao JJ, Qu XY, Xu XB*. High quality genome of Actinidia eriantha provide new insight into ascorbic acid regulation. Journal of Integrative Agriculture, 2023, 22(11): 3244-3255.
(5) Jia DF, Xu ZY, Chen L, Huang Q, Huang CH, Tao JJ, Qu XY, Xu XB*. Analysis of organic acid metabolism reveals citric acid and malic acid play major roles in determining acid quality during the development of kiwifruit (Actinidia eriantha). Journal of the Science of Food and Agriculture, 2023, 103(12): 6055-6069.
(6) Jia DF, Gao H, He YQ, Liao GL, Lin LT, Huang CH, Xu XB*. Kiwifruit monodehydroascorbate reductase 3 gene negatively regulates the accumulation of ascorbic acid in fruit of transgenic tomato plants. International Journal of Molecular Sciences, 2023, 24(24): 17182.
(7) Jia D, Xu Z, Chen L, Huang Q, Huang C, Tao J, Qu X, Xu X*. Analysis of organic acid metabolism reveals citric acid and malic acid play major roles in determining acid quality during the development of kiwifruit (Actinidia eriantha). Journal of the Science of Food and Agriculture 2023, 103(12): 6055-6069.
(8) Liu Q, Li YQ, Liao GL, Xu XB*, Jia DF, Zhong M, Wang HL, Ye B. Transcriptome and Metabolome reveal AsA regulatory network between metabolites and genes after fruit shading by bagging in kiwifruit (Actinidia eriantha). Scientia Horticulturae, 2022, 302.
(9) Liao GL, Xu XB*, Huang CH, Qu XY, Jia DF. A novel early maturing kiwifruit (Actinidia eriantha) cultivar. New Zealand Journal of Crop and Horticultural Science, 2022, 51(4): 585-593.
(10) Liao GL, Li YQ, Wang HL, Liu Q, Zhong M, Jia DF, Huang CH, Xu XB*. Genome-wide identification and expression profiling analysis of sucrose synthase (SUS) and sucrose phosphate synthase (SPS) genes family in Actinidia chinensis and A. eriantha. BMC Plant Biology, 2022, 22: 215.
(11) Liao GL, Zhong M, Jiang ZQ, Tao JJ, Jia DF, Qu XY, Huang CH, Liu Q, Xu XB*. Genome-wide association studies provide insights into the genetic determination of flower and leaf traits of Actinidia eriantha. Frontiers in Plant Science, 2021, 12: 730890.
(12) Liao GL, Xu XB*, Huang CH, Zhong M, Jia DF. Resource evaluation and novel germplasm mining of Actinidia eriantha. Scientia Horticulturae, 2021, 282: 110037.
(13) Liao GL, Liu Q, Xu XB*, He YQ, Li YQ, Wang HL, Ye B, Huang CH, Zhong M, Jia DF. Metabolome and transcriptome reveal novel formation mechanism of early mature trait in kiwifruit (Actinidia eriantha). Frontiers in Plant Science, 2021, 12: 760496.
(14) Liao GL, Chen L, He YQ, Li XS, Lv ZX, Yi SY, Zhong M, Huang CH, Jia DF, Qu XY, Xu XB*. Three metabolic pathways are responsible for the accumulation and maintenance of high AsA content in kiwifruit (Actinidia eriantha). BMC Genomics, 2021, 22: 13.
(15) Liao GL, Xu XB*, Liu Q, Zhong M, Huang CH, Jia DF, Qu XY. A special summer pruning method significantly increases fruit weight, ascorbic acid, and dry matter of kiwifruit (‘Jinyan’, Actinidia eriantha × A. chinensis). HortScience, 2020, 55(10): 1698-1702.
(16) Liao GL, Liu Q, Li YQ, Zhong M, Huang CH, Jia DF, Xu XB*. Identification and expression profiling analysis of ascorbate peroxidase gene family in Actinidia chinensis (Hongyang). Journal of Plant Research, 2020, 133(5): 715-726.
(17) 徐小彪*, 廖光联, 黄春辉, 贾东峰, 钟敏, 曲雪艳, 刘青, 高欢. 甜香型毛花猕猴桃新品种'赣绿1号'的选育. 果树学报, 2024, 41(2): 358-361.
(18) 贾东峰, 钱基权, 高欢, 廖光联, 钟敏, 黄春辉, 徐小彪*. 毛花猕猴桃成熟期果实品质和蔗糖代谢特征分析. 果树学报, 2024, 优先在线.
(19) 郑珂昕, 廖光联, 叶斌, 贾东峰, 黄春辉, 钟敏, 徐小彪*. 毛花猕猴桃赣绿1号果实留树后熟期间品质动态变化与评价果树学报, 2024, 优先在线.
(20) 高欢, 郑珂昕, 廖光联, 王海令, 陈璐, 贾东峰, 黄春辉, 曲雪艳, 徐小彪*. 中华猕猴桃全基因组MADS-box基因家族鉴定及表达分析. 果树学报, 2023, 40(11): 2307-2324.
(21) 王海令, 曹家乐, 廖光联, 黄春辉, 贾东峰, 曲雪艳, 徐小彪*. 毛花猕猴桃AeAPX基因家族鉴定与表达分析. 果树学报, 2022, 39(12): 2225-2240.
(22) 吕正鑫, 贺艳群, 贾东峰, 黄春辉, 钟敏, 廖光联, 朱壹, 袁开昌, 刘传浩, 徐小彪*. 猕猴桃种质资源表型性状遗传多样性分析. 园艺学报, 2022, 49(07): 1571-1581.
(23) 吕正鑫, 王海令, 贺艳群, 刘青, 黄春辉, 贾东峰, 徐小彪*. 基于HS-SPME-GC-MS的5份猕猴桃种质风味品质研究. 果树学报, 2022, 39(01): 47-59.
2.科研项目:
(1) 国家自然科学基金,毛花猕猴桃果实AsA光响应基因转录调控的分子机制研究,32160692,主持,2022-2025,在研。
(2) 国家自然科学基金,毛花猕猴桃雄株花期及花粉性状与SNP标记全基因组关联分析,31760559,主持, 2018-2021,结题。
(3) 国家自然科学基金,基于关联分析的野生毛花猕猴桃AsA富集相关基因发掘及表达分析,31360472,主持,2014-2017,结题。
(4) 国家自然科学基金,中华猕猴桃果肉色泽相关基因克隆及其定量表达分析,31160385,主持,2012-2015,结题。
3.发明专利:
(1) 黄春辉, 徐小彪, 陈楚佳, 郎彬彬, 曲雪艳, 钟敏, 陈明. 一种猕猴桃浆果干性实物标本制作的方法. 国家发明专利, 2018, CN104170817B.
(2) 徐小彪, 廖光联, 黄春辉, 钟敏, 曲雪艳. 一种猕猴桃果树结果蔓的蕾期折剪方法. 国家发明专利, 2021, ZL201910176286.1.
(3) 廖光联, 徐小彪, 黄春辉, 贾东峰, 钟敏, 曲雪艳, 刘青, 涂贵庆, 肖委明. 一种用于鉴定毛花猕猴桃叶片AsA含量高低的SNP分子标记及其开发和应用方法, 国家发明专利, 2024, ZL202210379092.3.
4.论著与规程:
(1) 王仁才, 刘占德, 徐小彪 .《猕猴桃学》, 中国农业出版社, 2024, ISBN 9787109322264。
(2) 徐小彪, 廖光联, 黄春辉, 钟敏. 毛花猕猴桃种质资源, 科学出版社, 2021, ISBN 978-7-03-066358-0
(3) 徐小彪, 黄春辉, 钟 敏, 陶俊杰, 曲雪艳, 涂贵庆, 李帮明, 吴寒, 廖光联, 陈璐, 赵尚高. 毛花猕猴桃栽培技术规程, 江西省地方标准, 2019, DB36/T 1054-2018.
(4) 徐小彪, 黄春辉, 钟敏, 贾东峰, 曲雪艳, 廖光联, 涂贵庆, 朱壹, 袁开昌, 刘传浩, 赵尚高, 吴茵, 刘青. 猕猴桃省力化树体管理技术规程, 江西省地方标准, 2022, DB36/T 1416-2021.
(5) 廖光联, 徐小彪, 黄春辉, 钟敏, 贾东峰, 曲雪艳, 吴茵, 涂贵庆, 朱壹, 魏清江, 辜青青, 陈明. 猕猴桃雌雄种质分子身份证鉴定技术规程, 江西省地方标准, 2022, DB36/T 1415-2021.
5.植物新品种:
(1) 徐小彪, 钟敏, 黄春辉, 廖光联. 赣绿1号, 2023, CNA20191003213.
(2) 徐小彪, 钟敏, 黄春辉, 廖光联. 赣金2号, 2023, CNA20201000528.
(3) 徐小彪, 廖光联, 黄春辉, 钟敏, 曲雪艳. 赣绿2号, 2024, CNA20191004327.
(4) 涂贵庆, 徐小彪, 黄春辉, 李帮明, 廖光联, 贾东峰, 吴晓芳, 钟敏, 王军, 李多云, 陈文龙. 金奉, 2024, CNA20221011056.
五、获奖情况:
(1) 徐小彪, 黄春辉, 朱壹, 钟敏, 陈明, 涂贵庆, 廖光联, 贾东峰, 陶俊杰, 魏清江. 高温多湿区猕猴桃良种选育及产业核心技术研究与应用. 2024, 江西省科技进步二等奖.
(2) 徐小彪, 黄春辉, 钟敏, 陶俊杰, 涂贵庆, 朱博, 朱壹, 曲雪艳. 猕猴桃种质创新及特色新品种选育与应用, 2019, 江西省科技进步二等奖.
六、联系方式
通讯地址:江西省南昌市经开区蛟桥镇志敏大道1101号拾禄楼608室
办公电话或邮箱:xbxu@jxau.edu.cn