larvacean species
幼形物种
larvacean filter
幼形过滤器
larvacean mucus
幼形粘液
larvacean house
幼形屋
larvacean feeding
幼形摄食
larvacean biology
幼形生物学
larvacean ecology
幼形生态学
larvacean research
幼形研究
larvacean plankton
幼形浮游生物
larvacean classification
幼形分类
marine biologists have discovered several new larvacean species in the deep ocean trenches.
海洋生物学家在深海沟渠中发现了多个新的幼体纲物种。
the intricate larvacean houses are made of delicate mucous filters that capture plankton efficiently.
复杂的幼体纲住宅由精致的黏液滤器构成,能够高效捕获浮游生物。
researchers are studying larvacean filter-feeding mechanisms to inspire new water filtration technology.
研究人员正在研究幼体纲的滤食机制,以启发新型水过滤技术的开发。
larvacean mucus production creates remarkably intricate structures that inspire biomimetic design.
幼体纲的黏液产生过程形成了极其复杂的结构,启发了仿生设计的灵感。
the larvacean community plays a crucial role in oceanic carbon cycling and nutrient distribution.
幼体纲群落在海洋碳循环和营养物质分配中发挥着至关重要的作用。
climate change may significantly impact larvacean population dynamics in polar regions.
气候变化可能会显著影响极地地区幼体纲种群的动态变化。
advanced microscopy has revealed previously unknown details about larvacean anatomy and house formation.
先进显微镜技术揭示了关于幼体纲解剖结构和住宅形成的前所未知的细节。
larvacean habitats span from surface waters to depths exceeding one thousand meters.
幼体纲的栖息地从表层水域延伸到超过一千米的深度。
recent larvacean research has revealed unexpected genetic diversity among isolated populations.
最近的幼体纲研究揭示了隔离种群之间意想不到的遗传多样性。
the study of larvacean physiology provides valuable insights into adaptation to extreme environments.
对幼体纲生理学的研究为了解极端环境的适应提供了宝贵的见解。
larvacean development involves complex metamorphosis from free-swimming larvae to sedentary adults.
幼体纲的发育涉及从自由游动幼体到固着成体的复杂变态过程。
understanding larvacean ecology is essential for accurately modeling marine food webs.
了解幼体纲生态对于准确模拟海洋食物网至关重要。
scientists have documented seasonal variations in larvacean reproductive cycles across different latitudes.
科学家记录了不同纬度地区幼体纲繁殖周期的季节性变化。
larvacean species
幼形物种
larvacean filter
幼形过滤器
larvacean mucus
幼形粘液
larvacean house
幼形屋
larvacean feeding
幼形摄食
larvacean biology
幼形生物学
larvacean ecology
幼形生态学
larvacean research
幼形研究
larvacean plankton
幼形浮游生物
larvacean classification
幼形分类
marine biologists have discovered several new larvacean species in the deep ocean trenches.
海洋生物学家在深海沟渠中发现了多个新的幼体纲物种。
the intricate larvacean houses are made of delicate mucous filters that capture plankton efficiently.
复杂的幼体纲住宅由精致的黏液滤器构成,能够高效捕获浮游生物。
researchers are studying larvacean filter-feeding mechanisms to inspire new water filtration technology.
研究人员正在研究幼体纲的滤食机制,以启发新型水过滤技术的开发。
larvacean mucus production creates remarkably intricate structures that inspire biomimetic design.
幼体纲的黏液产生过程形成了极其复杂的结构,启发了仿生设计的灵感。
the larvacean community plays a crucial role in oceanic carbon cycling and nutrient distribution.
幼体纲群落在海洋碳循环和营养物质分配中发挥着至关重要的作用。
climate change may significantly impact larvacean population dynamics in polar regions.
气候变化可能会显著影响极地地区幼体纲种群的动态变化。
advanced microscopy has revealed previously unknown details about larvacean anatomy and house formation.
先进显微镜技术揭示了关于幼体纲解剖结构和住宅形成的前所未知的细节。
larvacean habitats span from surface waters to depths exceeding one thousand meters.
幼体纲的栖息地从表层水域延伸到超过一千米的深度。
recent larvacean research has revealed unexpected genetic diversity among isolated populations.
最近的幼体纲研究揭示了隔离种群之间意想不到的遗传多样性。
the study of larvacean physiology provides valuable insights into adaptation to extreme environments.
对幼体纲生理学的研究为了解极端环境的适应提供了宝贵的见解。
larvacean development involves complex metamorphosis from free-swimming larvae to sedentary adults.
幼体纲的发育涉及从自由游动幼体到固着成体的复杂变态过程。
understanding larvacean ecology is essential for accurately modeling marine food webs.
了解幼体纲生态对于准确模拟海洋食物网至关重要。
scientists have documented seasonal variations in larvacean reproductive cycles across different latitudes.
科学家记录了不同纬度地区幼体纲繁殖周期的季节性变化。
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