蛭弧菌

Bdellovibrio bacteria have shown remarkable ability to feed on toxic waste in polluted environments.
拟颤虫细菌在污染环境中展现出惊人的能利用有毒废物的能力。
Recent studies have focused on Bdellovibrio's unique predatory mechanism, which allows it to consume other bacteria without being digested.
最近的研究集中在拟颤虫独特的捕食机制上，它能够吞噬其他细菌而不会被消化。
The Bdellovibrio genome holds potential for bioremediation applications due to its adaptability and survival strategies.
拟颤虫的基因组因其适应性和生存策略，对生物修复应用具有潜力。
Microbiologists have discovered Bdellovibrio as a promising agent for controlling bacterial populations in aquaculture systems.
微生物学家发现拟颤虫是控制水产养殖系统中细菌种群的有前景工具。
Bdellovibrio's flagellum-less motility enables it to survive in stagnant water, making it an ideal candidate for water purification projects.
拟颤虫无鞭毛的运动能力使其能在静止水中存活，使其成为水净化项目的理想选择。
In nature, Bdellovibrio exhibits a unique life cycle where it enters a dormant state during unfavorable conditions, only to resume growth when conditions improve.
在自然环境中，拟颤虫展现出独特的生活周期，在不利条件下进入休眠状态，条件改善时再恢复生长。
Scientists are exploring the possibility of using Bdellovibrio to combat antibiotic-resistant bacteria, as it can target these hard-to-treat organisms.
科学家正在研究使用拟颤虫对抗抗生素耐药细菌的可能性，因为它能针对这些难以治疗的微生物。
The Bdellovibrio's predation on other bacteria has led researchers to investigate its potential as a biocontrol agent in agricultural ecosystems.
拟颤虫对其他细菌的捕食促使科学家研究其在农业生态系统中的生物控制潜力。
Bdellovibrio's metabolic flexibility allows it to thrive in diverse ecological niches, making it a subject of interest in the study of microbial ecology.
拟颤虫的代谢灵活性使其能在各种生态位中繁衍生息，使其成为微生物生态学研究的对象。
Through controlled laboratory experiments, scientists have observed Bdellovibrio's ability to degrade organic pollutants in soil, offering a novel approach to remediation efforts.
在实验室控制实验中，科学家观察到拟颤虫分解土壤有机污染物的能力，为修复工作提供了一种新方法。