halotolerant bacteria
耐盐细菌
halotolerant species
耐盐酵母
halotolerant organisms
耐盐生物
halotolerant strains
耐盐物种
halotolerant microbes
耐盐真菌
halotolerant plants
耐盐植物
halotolerant fungi
耐盐微生物
halotolerant algae
耐盐菌株
halotolerant genes
耐盐古菌
halotolerant traits
耐盐培养物
halotolerant bacteria can survive in high-salt environments where other organisms cannot thrive.
耐盐细菌可以在高盐环境中生存,而其他生物无法存活。
the halotolerant yeast is widely used in the production of soy sauce and fermented foods.
耐盐酵母广泛用于酱油和发酵食品的生产。
scientists are studying halotolerant microorganisms to develop crops that can grow in saline soils.
科学家正在研究耐盐微生物以开发能够在盐碱土壤中生长的作物。
these halotolerant plants have evolved sophisticated mechanisms to cope with salt stress.
这些耐盐植物已经进化出复杂的机制来应对盐胁迫。
halotolerant fungi play a crucial role in the decomposition of organic matter in saline ecosystems.
耐盐真菌在盐碱生态系统的有机质分解中起着至关重要的作用。
the halotolerant nature of certain algae makes them valuable candidates for biofuel production.
某些藻类的耐盐特性使其成为生物燃料生产的宝贵候选材料。
researchers discovered a halotolerant bacterium capable of removing heavy metals from contaminated water.
研究人员发现了一种能够去除受污染水源中重金属的耐盐细菌。
halotolerant species are essential for maintaining ecological balance in salt marsh ecosystems.
耐盐物种对于维持盐沼生态系统的生态平衡至关重要。
the halotolerant properties of this microorganism make it ideal for bioremediation applications.
这种微生物的耐盐特性使其成为生物修复应用的理想选择。
agricultural scientists are developing halotolerant crop varieties to combat increasing soil salinization.
农业科学家正在开发耐盐作物品种以应对日益严重的土壤盐碱化问题。
halotolerant bacteria can be found in diverse extreme environments from salt flats to deep-sea vents.
从盐滩到深海热泉,耐盐细菌可以在各种极端环境中被发现。
the halotolerant fungus produces unique enzymes that remain active at high salt concentrations.
这种耐盐真菌产生在高盐浓度下仍保持活性的独特酶。
understanding halotolerant mechanisms could help engineers develop more efficient desalination technologies.
了解耐盐机制可能帮助工程师开发更高效的脱盐技术。
halotolerant bacteria
耐盐细菌
halotolerant species
耐盐酵母
halotolerant organisms
耐盐生物
halotolerant strains
耐盐物种
halotolerant microbes
耐盐真菌
halotolerant plants
耐盐植物
halotolerant fungi
耐盐微生物
halotolerant algae
耐盐菌株
halotolerant genes
耐盐古菌
halotolerant traits
耐盐培养物
halotolerant bacteria can survive in high-salt environments where other organisms cannot thrive.
耐盐细菌可以在高盐环境中生存,而其他生物无法存活。
the halotolerant yeast is widely used in the production of soy sauce and fermented foods.
耐盐酵母广泛用于酱油和发酵食品的生产。
scientists are studying halotolerant microorganisms to develop crops that can grow in saline soils.
科学家正在研究耐盐微生物以开发能够在盐碱土壤中生长的作物。
these halotolerant plants have evolved sophisticated mechanisms to cope with salt stress.
这些耐盐植物已经进化出复杂的机制来应对盐胁迫。
halotolerant fungi play a crucial role in the decomposition of organic matter in saline ecosystems.
耐盐真菌在盐碱生态系统的有机质分解中起着至关重要的作用。
the halotolerant nature of certain algae makes them valuable candidates for biofuel production.
某些藻类的耐盐特性使其成为生物燃料生产的宝贵候选材料。
researchers discovered a halotolerant bacterium capable of removing heavy metals from contaminated water.
研究人员发现了一种能够去除受污染水源中重金属的耐盐细菌。
halotolerant species are essential for maintaining ecological balance in salt marsh ecosystems.
耐盐物种对于维持盐沼生态系统的生态平衡至关重要。
the halotolerant properties of this microorganism make it ideal for bioremediation applications.
这种微生物的耐盐特性使其成为生物修复应用的理想选择。
agricultural scientists are developing halotolerant crop varieties to combat increasing soil salinization.
农业科学家正在开发耐盐作物品种以应对日益严重的土壤盐碱化问题。
halotolerant bacteria can be found in diverse extreme environments from salt flats to deep-sea vents.
从盐滩到深海热泉,耐盐细菌可以在各种极端环境中被发现。
the halotolerant fungus produces unique enzymes that remain active at high salt concentrations.
这种耐盐真菌产生在高盐浓度下仍保持活性的独特酶。
understanding halotolerant mechanisms could help engineers develop more efficient desalination technologies.
了解耐盐机制可能帮助工程师开发更高效的脱盐技术。
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