n.世代交替

Metagenesis refers to the process by which genetic material is transferred between organisms without sexual reproduction.
元基因组是指在没有性繁殖的情况下，遗传物质在生物体之间转移的过程。
In aquatic ecosystems, metagenesis plays a crucial role in shaping microbial communities.
在水生生态系统中，元基因组在塑造微生物群落方面起着至关重要的作用。
The study of metagenomics allows scientists to understand the collective metabolic potential of microbial communities through metagenesis.
通过研究元基因组学，科学家能够理解微生物群落集体代谢潜力，这是元基因过程的结果。
Horizontal gene transfer, a key aspect of metagenesis, has been found to be prevalent among bacteria and archaea.
水平基因转移，作为元基因组的关键方面，被发现广泛存在于细菌和古菌之间。
Metagenesis can lead to the emergence of new bacterial strains with antibiotic resistance.
元基因组过程可能导致具有抗生素抗性的新型细菌菌株的出现。
Through metagenetic analysis, researchers have discovered novel enzymes with industrial applications.
通过元基因分析，研究人员发现了具有工业应用前景的新酶。
Metagenesis contributes to the evolution of species by facilitating genetic diversity within populations.
元基因组通过促进种群内的遗传多样性，对物种进化有所贡献。
Understanding the dynamics of metagenesis is essential for predicting and managing the impacts of environmental changes on biodiversity.
理解元基因组的动态对于预测和管理环境变化对生物多样性的影响至关重要。
The discovery of previously unknown microbial taxa through metagenesis has expanded our knowledge of Earth's microbial biodiversity.
通过元基因组发现之前未知的微生物分类群，扩展了我们对地球微生物多样性的认识。
Metagenesis enables the study of unculturable microorganisms, revealing hidden aspects of microbial ecology.
元基因组使得研究不可培养的微生物成为可能，揭示了微生物生态学中隐藏的方面。