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低于最佳的营养饮食与低于最佳的营养饮食相结合.

Cailun A S Tanney1, Dongmei Lyu1, Timothy Schwinghamer2

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概括
此摘要是机器生成的。

促进植物生长的草原细菌 (PGPR) 可以提高大麻大麻素产量. 将PGPR与低营养条件相结合,显著提高了三密度和大麻素生产,提供了可持续的种植策略.

关键词:
大麻素是一种大麻素.大麻大麻大麻大麻大麻大麻大麻大麻这些是花朵的花朵.接种疫苗是为了接种疫苗.微生物是一种微生物.营养素 营养素 营养素立体显微镜是一种立体显微镜.三合体是三合体的

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科学领域:

  • 农业科学 农业科学
  • 微生物学 微生物学
  • 植物科学 植物科学

背景情况:

  • 大麻sativa种植受到法律限制,限制了对农业改进的研究.
  • 促进植物生长的草原细菌 (PGPR) 显示出提高作物产量的潜力.
  • 了解微生物和环境相互作用是优化大麻生产的关键.

研究的目的:

  • 通过三密度调查PGPR对大麻大麻素产量的影响.
  • 为了确定营养条件低于最佳是否会影响PGPR的疗效.
  • 探索PGPR和环境压力因素对植物发育和大麻素特征的相互作用.

主要方法:

  • 应用 伪虫 sp. 的应用 或Bacillus sp. 这种菌种. (单独或组合) 到大麻根.
  • 在植物早期的发育过程中,利用了低营养的饮食.
  • 在花开8周后使用显微镜对花器官进行量化茎状腺三胞体密度.

主要成果:

  • 使用推营养素的PGPR降低了三体密度;使用营养素低的PGPR增加了三体密度.
  • 与推水平相比,低营养条件提高了关键大麻素的丰度.
  • 巴西勒斯种类 (Bacillus sp.) 的存在 在低营养条件下,注射显示了最显著的变化.

结论:

  • PGPR显著影响大麻三体的发育和大麻素特征.
  • 环境压力因素,如营养不足,可以增强PGPR对三体密度的积极影响.
  • 这项研究提出了大麻生产的可持续方法,减少对合成肥料的依赖,而不会影响产量.