何小红


何小红:遗传学专业毕业,博士,副教授、硕士生导师。主要从事植物数量遗传与生物统计和大豆遗传育种方面的学习和研究,先后主持或参加国家自然科学基金、高校博士点基金、江苏省科技支撑计划项目多项。合作发表论文30余篇,其中SCI论文10余篇,参与育成国审和省审大豆品种各1个。主讲本科生课程《生物统计学》、《生物统计与田间试验》、《统计分析软件应用》和《试验数据分析》等,研究生课程《数量遗传学实验》、《研究工作的试验统计方法》和《分子数量遗传学》等。


办公地址:理科南楼F426

联系电话:025-84399530

Email:hestat@njau.edu.cn


主要研究方向:

    植物数量性状QTL连锁和关联分析新方法探索

    大豆耐逆性数量遗传分析

    作物品种试验数据分析

 

科研项目:

    国家自然科学基金面上项目,大豆耐旱性相关性状组成型和适应型QTL挖掘及其联合分析方法研究,2018.012021.12,主持。

    江苏省重点研发计划,高产、优质、多抗春大豆新品种选育及南农38”配套高产、高效栽培技术研究与示范推广,2016.072019.06,参加。

    国家自然科学基金面上项目,大豆耐酸雨胁迫种质资源的筛选和优异基因发掘,2013.012016.12,参加。

    江苏省科技支撑计划,江苏省酸雨污染的监测、分析及对主要农作物(大豆)生产的影响与防治关键技术研究,2012.072015.07,参加。

    国家自然科学青年基金项目,拟测交作图方法的拓展及其应用研究,2010.012012.12,主持。

 

发表论文情况:

1.         Ma Yujie, Ma Weiyu, Hu Dezhou, Zhang Xinnan, Yuan Wenjie, He Xiaohong, Kan Guizhen(*), Yu Deyue (*). 2019. QTL mapping for protein and sulfur-containing amino acid contents using a high-density bin-map in soybean (Glycine max L. Merr.). J. Agric. Food Chem., 67: 12313−12321.

2.         Hu D(#), Kan G(#), Hu W, Li Y, Hao D, Li X, Yang H, Yang Z, He X, Huang F(*), Yu D (*). 2019. Identification of loci and candidate genes responsible for pod dehiscence in soybean via genome-wide association analysis across multiple environments. Front. Plant Sci., 10: 811.

3.         Xi Zhang, Mengge Xu, Aiman Hina, Jiejie Kong, Junyi Gai, Xiaohong He(*), Tuanjie Zhao(*). 2019. Seed storability of summer-planting soybeans under natural and artificial aging conditions. Legume Research, 42: 250–259.

4.         王应党,许孟歌,张雅娟,翁烨阳,李晓勇,孔杰杰,赵团结(*)何小红(*)2017.江淮大豆育种种质苗期耐旱性鉴定.大豆科学,36669–678

5.         Yongce Cao(#), Shuguang Li(#), Xiaohong He, Fangguo Chang, Jiejie Kong, Junyi Gai(*), Tuanjie Zhao(*). 2017. Mapping QTLs for plant height and flowering time in a Chinese summer planting soybean RIL population. Euphytica, 213: 39.

6.         Kan Guizhen(#), Ning Lihua(#), Li Yakai, Hu Zhenbin, Zhang Wei, He Xiaohong, Yu Deyue(*). 2016. Identification of novel loci for salt stress at the seed germination stage in soybean. Breeding Science, 66: 530–541.

7.         Li L.(#), He X.(#), Zhang H., Wang Z., Sun C., Mou T., Li X., Zhang Y. and Hu Z. 2015. Genomewide mapping reveals a combination of different genetic effects causing the genetic basis of heterosis in two elite rice hybrids. J. Genet., 94: 261–270.

8.         HE Xiao-Hong, HU ZhongLi, ZHANG Yuan-Ming. 2012. Genome-wide mapping of QTL associated with heterosis in the RIL-based NCIII design. Chin Sci Bull, 57: 2655–2665.

9.         Xiao-Hong He, Yuan-Ming Zhang. 2011. A Complete Solution for Dissecting Pure Main and Epistatic Effects of QTL in Triple Testcross Design. PLoS ONE, 6: e24575.

10.     Xiao-Hong He, Hongde Qin, Zhongli Hu, Tianzhen Zhang, Yuan-Ming Zhang. 2011. Mapping of epistatic quantitative trait loci in four-way crosses. Theor Appl Genet, 122: 33–48.

11.     Zhitong Yin, Fanfan Meng, Haina Song, Xiaohong He, Xiaoming Xu, Deyue Yu. 2010. Mapping quantitative trait loci associated with chlorophyll a fluorescence parameters in soybean (Glycine max (L.) Merr.). Planta, 231: 875–885.

12.     He Xiao-Hong, Yuan-Ming Zhang. 2008. Mapping epistatic QTL underlying endosperm traits using all markers on the entire genome in random hybridization design. Heredity, 101: 39–47.

13.     Shiyou Cui, Xiaohong He, Sanxiong Fu, Qingchang Meng, Junyi Gai and Deyue Yu. 2008. Genetic dissection of the relationship of apparent biological yield and apparent harvest index with seed yield and yield related traits in soybean. Australian Journal of Agricultural Research, 59: 86–93.

14.     何小红,盖钧镒.2006.回交自交系群体数量性状遗传体系的分离分析方法.作物学报,32210216

15.     C Xu, X He and S  Xu. 2003. Mapping quantitative trait loci underlying triploid endosperm traits. Heredity, 90: 228–235.


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