Algal–bacterial interactions are ubiquitous in both natural and industrial systems, and the characterization of these interactions has been reinvigorated by potential applications in biosystem productivity. Different growth conditions can be used for operational functions, such as the use of low-quality water or high pH/alkalinity, and the altered operating conditions likely constrain microbial community structure and function in unique ways. However, research is necessary to better understand whether consortia can be designed to improve the productivity, processing, and sustainability of industrial-scale cultivations through different controls that can constrain microbial interactions for maximal light-driven outputs. The review highlights current knowledge and gaps for relevant operating conditions, as well as suggestions for near-term and longer-term improvements for large-scale cultivation and polyculture engineering.

中文翻译：

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了解藻体动力学以改善工业微藻培养


藻类-细菌相互作用在自然和工业系统中普遍存在，并且这些相互作用的特征因生物系统生产力中的潜在应用而重新焕发活力。不同的生长条件可用于操作功能，例如使用低质量水或高 pH/碱度，并且改变的操作条件可能以独特的方式限制微生物群落结构和功能。然而，有必要进行研究，以更好地了解联盟是否可以通过不同的控制来设计，以提高工业规模种植的生产力、加工和可持续性，这些控制可以限制微生物相互作用，以获得最大的光驱动输出。审查强调了相关操作条件的现有知识和差距，以及大规模种植和混养工程的近期和长期改进建议。