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引用近几年有较高影响力的文献

发布时间 2023-12-12 11:28:51作者: 王哲MGG_AI

  1. 固氮、溶磷和解钾过程

    • [1] Bulgarelli, D., Schlaeppi, K., Spaepen, S., van Themaat, E. V. L., & Schulze-Lefert, P. (2013). Structure and functions of the bacterial microbiota of plants. Annual Review of Plant Biology, 64, 807-838.

  2. 有机酸和酶的分泌

    • [2] Lundberg, D. S., Lebeis, S. L., Paredes, S. H., Yourstone, S., Gehring, J., Malfatti, S., ... & Dangl, J. L. (2012). Defining the core Arabidopsis thaliana root microbiome. Nature, 488(7409), 86-90.

  3. 生长促进细菌(PGPB)的作用

    • [3] Mendes, R., Kruijt, M., de Bruijn, I., Dekkers, E., van der Voort, M., Schneider, J. H., ... & Raaijmakers, J. M. (2011). Deciphering the rhizosphere microbiome for disease-suppressive bacteria. Science, 332(6033), 1097-1100.

  4. 次级代谢产物的分泌

    • [4] Berendsen, R. L., Pieterse, C. M., & Bakker, P. A. (2012). The rhizosphere microbiome and plant health. Trends in Plant Science, 17(8), 478-486.

  5. 逆境条件下的微生物作用

    • [5] Peñuelas, J., Terradas, J. (2014). The foliar microbiome. Trends in Plant Science, 19(5), 278-280.

  6. 微生物群落的多样性和生态系统稳定性

    • [6] Philippot, L., Raaijmakers, J. M., Lemanceau, P., & van der Putten, W. H. (2013). Going back to the roots: the microbial ecology of the rhizosphere. Nature Reviews Microbiology, 11(11), 789-799.

  7. 有机物的分解和循环

    • [7] van der Heijden, M. G., Bardgett, R. D., & van Straalen, N. M. (2008). The unseen majority: soil microbes as drivers of plant diversity and productivity in terrestrial ecosystems. Ecology Letters, 11(3), 296-310.

  8. 玉米在生物燃料和工业原料生产中的角色

    • [8] Godfray, H. C., Beddington, J. R., Crute, I. R., Haddad, L., Lawrence, D., Muir, J. F., ... & Toulmin, C. (2010). Food security: the challenge of feeding 9 billion people. Science, 327(5967), 812-818.

  9. 玉米作为遗传学和分子生物学的模型

    • [9] Schnable, P. S., Ware, D., Fulton, R. S., Stein, J. C., Wei, F., Pasternak, S., ... & Minx, P. (2009). The B73 maize genome: complexity, diversity, and dynamics. Science, 326(5956), 1112-1115.

  10. 玉米在基因编辑技术应用上的潜力

  • [10] Janga, M. R., Campbell, L. M., Rathore, K. S. (2017). CRISPR/Cas9-mediated targeted mutagenesis in upland cotton (Gossypium hirsutum L.). Plant Molecular Biology, 94(4-5), 349-360.
  1. B73和Mo17自交系的遗传差异
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  1. 宏基因组学技术在微生物群落研究中的应用
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  1. 通过宏基因组学分析减少化肥和农药的使用
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  1. 机器学习在微生物群落数据分析中的应用
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  1. 卷积神经网络在微生物群落分析中的应用
  • [15] Ching, T., Himmelstein, D. S., Beaulieu-Jones, B. K., et al. (2018). Opportunities and obstacles for deep learning in biology and medicine. Journal of The Royal Society Interface, 15(141), 20170387.
  1. 机器学习在微生物功能预测中的应用
  • [16] Louca, S., Parfrey, L. W., & Doebeli, M. (2016). Decoupling function and taxonomy in the global ocean microbiome. Science, 353(6305), 1272-1277.
  1. 中国特有气候和土壤条件对微生物群落研究的影响
  • [17] Zhu, Y. G., Gillings, M., Simonet, P., Stekel, D., Banwart, S., & Penuelas, J. (2018). Microbial mass movements. Science, 359(6381), 1340-1341.
  1. 通过微生物群落研究提高农业生产力和环境保护
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  1. 玉米品种与根际微生物群落相互作用的研究
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  1. 减少化学肥料和农药使用的重要性
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  1. 全球粮食安全和可持续农业的挑战
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