党的十九大提出乡村振兴重大战略,为加快农村发展和实现农业现代化提供重要指导方针。作为一门基础学科,植物科学与农业发展的联系十分密切。植物科学应加强在资源收集、基因功能、代谢调控及农艺性状改良等方面的基础研究,重视知识创新和理论突破,加快生物技术成果在农业生产中转化和推广,为农业发展服务,助力乡村振兴全面实现。
Rural vitalization is one of the major strategies introduced at the 19th National Congress of the Communist Party of China. It provides important guidelines for achieving agricultural modernization and rural economic growth. Plant science, as a basic subject, has close connection with agriculture. Plant science should try to strengthen its basic researches in resource collection, gene function, metabolic regulation and improvement of agronomic traits, pay more attention to knowledge innovation and theoretical breakthrough, make efforts in commercialization and promotion of scientific and research findings, so as to serve agricultural development and promote rural revitalization.
[1] 胡先骕. 应该设立保护天然纪念物的机构[J]. 科学通报, 1957, 2(9):288.
[2] 方精云, 白永飞, 李凌浩, 等. 我国草原牧区可持续发展的科学基础与实践[J]. 科学通报, 2016, 61(2):155-164, 133.
[3] 方精云, 景海春, 张文浩, 等. 论草牧业的理论体系及其实践[J]. 科学通报, 2018, 63(17):1619-1631.
[4] 李振声."农业黄淮海战役"的成功经验及对当前商品粮基地建设的建议[J]. 中国科学院院刊, 2004, 19(1):61-63.
[5] 杨阳. 李振声:环渤海建出天下粮仓[J]. 中国农村科技, 2017(4):28-31.
[6] 袁隆平. 一粒种子的价值[J]. 科学新闻, 2012(4):19.
[7] Zeng D L, Tian Z X, Rao Y C, et al. Rational design of high-yield and superior-quality rice[J]. Nature Plants, 2017, 3(4):17031.
[8] 温明章, 陈越, 谷瑞升, 等.谈中国植物科学基础研究与农业发展[J]. 植物学通报, 2008, 25(6):633-637.
[9] 张大为, 胡德熙, 胡德焜. 胡先骕文存(下卷)[M]. 南昌:中正大学校友会, 1996.
[10] Skoog F, Tsui C. Chemical control of growth and bud formation in tobacco stem segments and callus cultured in vitro[J]. American Journal of Botany, 1948, 35(10):782-787.
[11] 侯淑珍. 王涛和ABT生根粉[J]. 中国科技奖励, 1995(2):9-12.
[12] Tang P S, Tai Y L, Lee C K. Respiration pathways in rice seedlings and respiration as an adaptive physiological function of the living plant[J]. Scientia Sinica, 1956, 5(3):509.
[13] 汤佩松, 戴云玲, 李佳格. 水稻幼苗的呼吸作用及其生理适应[J]. Journal of Integrative Plant Biology, 1956(4):377-397.
[14] 汤佩松. 高等植物呼吸代谢途径的调节控制和代谢与生理功能间的相互制约[J]. 植物学报, 1979(2):93-106.
[15] 崔澂, 汤佩松. 从栽培生理上看湿润育秧的优越性[J]. 中国农业科学, 1965(2):31-34.
[16] Qin X C, Suga M, Kuang T Y, et al. Structural basis for energy transfer pathways in the plant PSI-LHCI supercomplex[J]. Science, 2015, 348(6238):989.
[17] Pi X, Zhao S H, Wang W D, et al. The pigment-protein network of a diatom photosystem II-light-harvesting antenna supercomplex[J]. Science, 2019, 365(6452):eaax4406.
[18] Wang W D, Yu L J, Xu C Z, et al. Structural basis for blue-green light harvesting and energy dissipation in diatoms[J]. Science, 2019, 363(6427):598.
[19] Chen J H, Wu H J, Xu C H, et al. Architecture of the photosynthetic complex from a green sulfur bacterium[J]. Science, 2020, 370(6519):eabb6350.
