trichodesmium blooms
trichodesmium 华赤藻
seeing trichodesmium
看到华赤藻
trichodesmium mats
华赤藻垫
studying trichodesmium
研究华赤藻
trichodesmium presence
华赤藻存在
with trichodesmium
伴随华赤藻
trichodesmium growth
华赤藻生长
finding trichodesmium
发现华赤藻
trichodesmium impact
华赤藻影响
analyzing trichodesmium
分析华赤藻
scientists are studying the bloom of trichodesmium in tropical waters.
科学家们正在研究热带海域的赤潮华的爆发。
trichodesmium filaments can fix nitrogen in the ocean environment.
赤潮华丝状体可以在海洋环境中固定氮。
the presence of trichodesmium indicates nutrient-rich waters.
赤潮华的存在表明水域富含营养物质。
satellite imagery reveals extensive trichodesmium mats across the pacific.
卫星图像显示太平洋上大片赤潮华地毯。
trichodesmium blooms can impact marine food webs significantly.
赤潮华的爆发会对海洋食物网产生重大影响。
researchers monitor trichodesmium populations to understand ocean health.
研究人员监测赤潮华种群以了解海洋健康状况。
trichodesmium aggregates often form dense surface layers in summer.
赤潮华聚集体通常在夏季形成密集的表层。
the role of trichodesmium in carbon cycling is increasingly recognized.
赤潮华在碳循环中的作用越来越受到重视。
trichodesmium thrives in warm, nutrient-poor waters with high salinity.
赤潮华在温暖、营养匮乏且高盐度的水域中茁壮成长。
changes in trichodesmium distribution could affect fisheries productivity.
赤潮华分布的变化可能会影响渔业生产力。
microscopic examination reveals the unique structure of trichodesmium colonies.
显微镜检查显示赤潮华菌落的独特结构。
trichodesmium's ability to fix nitrogen is crucial for marine ecosystems.
赤潮华固定氮的能力对海洋生态系统至关重要。
trichodesmium blooms
trichodesmium 华赤藻
seeing trichodesmium
看到华赤藻
trichodesmium mats
华赤藻垫
studying trichodesmium
研究华赤藻
trichodesmium presence
华赤藻存在
with trichodesmium
伴随华赤藻
trichodesmium growth
华赤藻生长
finding trichodesmium
发现华赤藻
trichodesmium impact
华赤藻影响
analyzing trichodesmium
分析华赤藻
scientists are studying the bloom of trichodesmium in tropical waters.
科学家们正在研究热带海域的赤潮华的爆发。
trichodesmium filaments can fix nitrogen in the ocean environment.
赤潮华丝状体可以在海洋环境中固定氮。
the presence of trichodesmium indicates nutrient-rich waters.
赤潮华的存在表明水域富含营养物质。
satellite imagery reveals extensive trichodesmium mats across the pacific.
卫星图像显示太平洋上大片赤潮华地毯。
trichodesmium blooms can impact marine food webs significantly.
赤潮华的爆发会对海洋食物网产生重大影响。
researchers monitor trichodesmium populations to understand ocean health.
研究人员监测赤潮华种群以了解海洋健康状况。
trichodesmium aggregates often form dense surface layers in summer.
赤潮华聚集体通常在夏季形成密集的表层。
the role of trichodesmium in carbon cycling is increasingly recognized.
赤潮华在碳循环中的作用越来越受到重视。
trichodesmium thrives in warm, nutrient-poor waters with high salinity.
赤潮华在温暖、营养匮乏且高盐度的水域中茁壮成长。
changes in trichodesmium distribution could affect fisheries productivity.
赤潮华分布的变化可能会影响渔业生产力。
microscopic examination reveals the unique structure of trichodesmium colonies.
显微镜检查显示赤潮华菌落的独特结构。
trichodesmium's ability to fix nitrogen is crucial for marine ecosystems.
赤潮华固定氮的能力对海洋生态系统至关重要。
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