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作物资源高效利用团队两人入选2022年度“科睿唯安”全球高被引科学家

已有 2783 次阅读 2022-11-16 12:50 |个人分类:佳作欣赏|系统分类:论文交流

       2022年11月15日科睿唯安(Clarivate, 全球科学和知识产权最大供应商之一)公布了2022年度“高被引科学家”名单,华南农业大学作物资源高效研究团队胡斌教授和储成才教授入选。储成才教授2019、2020、2021、2022年连续四年入选科睿唯安全球“高被引科学家”,胡斌教授2021、2022年也连续两年入选科睿唯安全球“高被引科学家”,表明国际同行对作物资源高效研究团队研究工作的广泛认可。

       每年科睿唯安科学信息研究所 (ISI) 的文献计量学专家和数据科学家基于Web of Science™引文数据及其分析,根据不同领域研究人员在2011年1月至2021年12月的11年间发表的高被引用论文数量,遴选全球高校、研究机构和商业组织中对所在研究领域具有重大和广泛影响的顶尖科学人才。入选标准:被SCI和Web of Science收录的论文被引用数位居该领域全部论文的前1%。研究团队(2011-2021)相关工作24篇文章入选高被引论文(见下表)

       2022年,全球22个自然科学与社会科学领域入榜高被引科学家6938人次,其中美国2764人次,占38.3%,低于2018年43.3%。中国内地排名第二,共1169人次入选,占16.2%。根据科睿唯安统计,五年来,中国内地科学家在高被引科学家名单中所占比例几乎翻了一番多。从2018年的7.9%增加到2022年的16.2%,稳居第二。哈佛大学共有233人次上榜,为拥有全球高被引科学家人数最多的机构。中国科学院入选科学家数量排名全球机构第2位,为228人次。其次是美国国立卫生研究院(113人次)和德国马普学会(67人次)。

课题组高被引文章(2011-2021):

1. *2021 A transceptor-channel complex couples nitrate sensing to calcium signaling in Arabidopsis. Molecular Plant 

2. *2021 Genomic basis of geographical adaptation to soil nitrogen in rice. Nature 

3. 2021 A route to de novo domestication of wild allotetraploid rice. Cell

4. 2021 Genetic architecture underlying light and temperature mediated flowering in Arabidopsis, rice, and temperate cereals. New Phytologist

5. *2020 NRT1.1s in plants: functions beyond nitrate transport. Journal of Experimental Botany

6. *2020 Nitrogen-phosphorus interplay: old story with molecular tale. New Phytologist

7. *2019 Nitrate-NRT1.1B-SPX4 cascade integrates nitrogen and phosphorus signalling networks in plants. Nature Plants

8. *2019 NRT1.1B is associated with root microbiota composition and nitrogen use in field-grown rice. Nature Biotechnology

9. *2018 Expression of the nitrate transporter gene OsNRT1.1A/OsNPF6.3 confers high yield and early maturation in rice. Plant Cell

10. 2018 A novel QTL qTGW3 encodes the GSK3/SHAGGY-like kinase OsGSK5/OsSK41 that interacts with OsARF4 to negatively regulate grain size and weight in rice. Molecular Plant

11. *2017 MicroRNAs in crop improvement: fine-tuners for complex traits. Nature Plants

12. *2017 Nitrogen use efficiency in crops: lessons from Arabidopsis and rice. Journal of Experimental Botany

13. 2017 ROS accumulation and antiviral defence control by microRNA528 in rice. Nature Plants

14. 2017 Arabidopsis WRKY46, WRKY54, and WRKY70 transcription factors are involved in brassinosteroid-regulated plant growth and drought responses. Plant Cell

15. *2015 Activation of Big Grain1 significantly improves grain size by regulating auxin transport in rice. Proc. Natl. Acad. Sci. USA

16. *2015 Control of grain size and rice yield by GL2-mediated brassinosteroid responses. Nature Plants

17. *2014 OsPT2, a phosphate transporter, is involved in the active uptake of selenite in rice. New Phytologist

18. *2014 OsNAP connects abscisic acid and leaf senescence by fine-tuning abscisic acid biosynthesis and directly targeting senescence-associated genes in rice. Proc. Natl. Acad. Sci. USA

19. *2014 OsbZIP71, a bZIP transcription factor, confers salinity and drought tolerance in rice. Plant Molecular Biology

20. *2014 Brassinosteroid regulates cell elongation by modulating gibberellin metabolism in rice. Plant Cell

21. *2012 DWARF AND LOW-TILLERING acts as a direct downstream target of a    GSK3/SHAGGY-like kinase to mediate brassinosteroid responses in rice. Plant Cell

22. *2012 Nitric oxide and protein S-nitrosylation are integral to hydrogen peroxide-induced leaf cell death in rice. Plant Physiology

23. 2012 Roles of DCL4 and DCL3b in rice phased small RNA biogenesis. Plant Journal

24. *2012 Insights into salt tolerance from the genome of Thellungiella salsuginea. Proc. Natl. Acad. Sci. USA

(*团队为Co-/Corresponding author)



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