studying nonactinomycetes
研究非放线菌
identifying nonactinomycetes
鉴定非放线菌
nonactinomycetes present
存在非放线菌
analyzing nonactinomycetes
分析非放线菌
nonactinomycetes samples
非放线菌样本
finding nonactinomycetes
寻找非放线菌
diverse nonactinomycetes
多样非放线菌
nonactinomycetes strains
非放线菌菌株
containing nonactinomycetes
含有非放线菌
classifying nonactinomycetes
分类非放线菌
researchers are investigating the role of nonactinomycetes in soil carbon sequestration.
研究人员正在调查非放线菌在土壤碳固存中的作用。
the study focused on the diversity of nonactinomycetes within the rhizosphere.
该研究重点关注根际中非放线菌的多样性。
nonactinomycetes represent a significant portion of bacterial communities in many ecosystems.
非放线菌代表了许多生态系统中细菌群落的重要组成部分。
metagenomic analysis revealed a high abundance of nonactinomycetes in the sample.
宏基因组分析显示样品中非放线菌的丰度很高。
the production of novel secondary metabolites by nonactinomycetes is a promising area of research.
非放线菌生产新型次级代谢产物是一个有前景的研究领域。
compared to actinomycetes, nonactinomycetes often exhibit different metabolic capabilities.
与放线菌相比,非放线菌通常表现出不同的代谢能力。
the impact of environmental factors on nonactinomycetes distribution remains unclear.
环境因素对非放线菌分布的影响尚不清楚。
cultivating nonactinomycetes can be challenging due to their fastidious nutritional requirements.
由于其挑剔的营养需求,培养非放线菌可能具有挑战性。
the potential of nonactinomycetes for bioremediation applications is being explored.
非放线菌在生物修复应用中的潜力正在被探索。
phylogenetic analysis identified several novel genera within the nonactinomycetes group.
系统发育分析鉴定了非放线菌群组中的多个新属。
understanding the ecological niche of nonactinomycetes is crucial for ecosystem management.
理解非放线菌的生态位对于生态系统管理至关重要。
studying nonactinomycetes
研究非放线菌
identifying nonactinomycetes
鉴定非放线菌
nonactinomycetes present
存在非放线菌
analyzing nonactinomycetes
分析非放线菌
nonactinomycetes samples
非放线菌样本
finding nonactinomycetes
寻找非放线菌
diverse nonactinomycetes
多样非放线菌
nonactinomycetes strains
非放线菌菌株
containing nonactinomycetes
含有非放线菌
classifying nonactinomycetes
分类非放线菌
researchers are investigating the role of nonactinomycetes in soil carbon sequestration.
研究人员正在调查非放线菌在土壤碳固存中的作用。
the study focused on the diversity of nonactinomycetes within the rhizosphere.
该研究重点关注根际中非放线菌的多样性。
nonactinomycetes represent a significant portion of bacterial communities in many ecosystems.
非放线菌代表了许多生态系统中细菌群落的重要组成部分。
metagenomic analysis revealed a high abundance of nonactinomycetes in the sample.
宏基因组分析显示样品中非放线菌的丰度很高。
the production of novel secondary metabolites by nonactinomycetes is a promising area of research.
非放线菌生产新型次级代谢产物是一个有前景的研究领域。
compared to actinomycetes, nonactinomycetes often exhibit different metabolic capabilities.
与放线菌相比,非放线菌通常表现出不同的代谢能力。
the impact of environmental factors on nonactinomycetes distribution remains unclear.
环境因素对非放线菌分布的影响尚不清楚。
cultivating nonactinomycetes can be challenging due to their fastidious nutritional requirements.
由于其挑剔的营养需求,培养非放线菌可能具有挑战性。
the potential of nonactinomycetes for bioremediation applications is being explored.
非放线菌在生物修复应用中的潜力正在被探索。
phylogenetic analysis identified several novel genera within the nonactinomycetes group.
系统发育分析鉴定了非放线菌群组中的多个新属。
understanding the ecological niche of nonactinomycetes is crucial for ecosystem management.
理解非放线菌的生态位对于生态系统管理至关重要。
探索常用高频词汇